Abstract:
A wireless terminal, includes a first transceiver configured to transmit a first type of wireless signal; and a second transceiver configured to transmit a second type of wireless signal; wherein the first transceiver is configured to transmit an indication of interference when interference is detected between the first type of wireless signal and the second type of wireless signal and to transmit information showing a condition of each of the first and second types of wireless signal with the indication of interference; and the first transceiver is further configured to receive interference control information useable by the terminal in mitigating the detected interference.

Description:
CROSS-REFERENCE TO RELATED APPLICATION 
       [0001]    This application is a continuation application of U.S. application Ser. No. 14/594,549, filed Jan. 12, 2015, which is a continuation of International Application PCT/JP2012/004641, filed on Jul. 20, 2012, the entire contents of which are incorporated herein by reference. 
     
    
     FIELD 
       [0002]    The present invention relates to a wireless communication method, a wireless communication system, a base station, and a wireless terminal. 
       BACKGROUND 
       [0003]    In recent years, next-generation wireless communication technologies are discussed regarding a wireless communication system such as a mobile phone system, in order to realize a higher speed and larger capacity of the wireless communication. For example, in the Third Generation Partnership Project (3GPP) as a standardization organization, a communication standard called long term evolution (LTE) and a communication standard called LTE-Advanced (LTE-A) which is standardized based on the LTE wireless communication technology have been proposed. 
         [0004]    In such a wireless communication system, a plurality of wireless communications may be executed with one wireless terminal, for example. The plurality of wireless communications, for example, indicate wireless communications with different methods, and include LTE communication, wireless local area network (LAN), and the like. In this case, circuits corresponding to each of the plurality of wireless communications are provided in one wireless terminal, for example. Such a state is, for example, referred to as in-device co-existence (IDC). 
       CITATION LIST 
     Non Patent Literature 
       [0000]    
       
         NPL: 3GPP TR 36.816 V11.2.0 (2011-12) 
       
     
       SUMMARY 
       [0006]    According to an aspect of the invention, a wireless communication method includes: transmitting, by a wireless terminal executing a plurality of wireless communications, first assistance information for assisting in control of interference to a base station, according to occurrence of the interference in the wireless terminal; receiving, by the base station, the first assistance information from the wireless terminal and transmitting control information relating to the plurality of wireless communications to the wireless terminal; and performing, by the wireless terminal, measurement for the control of the interference and transmitting second assistance information for assisting in the control of the interference. 
         [0007]    The object and advantages of the invention will be realized and attained by means of the elements and combinations particularly pointed out in the claims. 
         [0008]    It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, as claimed. 
     
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         [0009]      FIG. 1  is a diagram illustrating a configuration of a wireless communication system according to a first embodiment. 
           [0010]      FIG. 2  is a functional block diagram illustrating a configuration of a base station according to the first embodiment. 
           [0011]      FIG. 3  is a functional block diagram illustrating a configuration of a wireless terminal according to the first embodiment. 
           [0012]      FIG. 4  is a diagram illustrating a hardware configuration of a base station according to the first embodiment. 
           [0013]      FIG. 5  is a diagram illustrating a hardware configuration of a wireless terminal according to the first embodiment. 
           [0014]      FIG. 6  is a sequence diagram for illustrating an operation of a wireless communication system according to the first embodiment. 
           [0015]      FIG. 7  is a functional block diagram illustrating a configuration of a base station of a wireless communication system according to a second embodiment. 
           [0016]      FIG. 8  is a functional block diagram illustrating a configuration of a wireless terminal of a wireless communication system according to the second embodiment. 
           [0017]      FIG. 9  is a diagram illustrating an allocation example of frequency bands of a wireless communication system. 
           [0018]      FIG. 10  is a diagram for illustrating an operation of a wireless communication system according to the second embodiment. 
           [0019]      FIG. 11  is a diagram for illustrating an operation of a wireless communication system according to the second embodiment. 
           [0020]      FIG. 12  is a sequence diagram for illustrating an operation of a wireless communication system according to the second embodiment. 
           [0021]      FIGS. 13A and 13B  are tables illustrating operation examples of a wireless communication system according to the second embodiment. 
           [0022]      FIGS. 14A and 14B  are tables illustrating operation examples of a wireless communication system according to a third embodiment. 
           [0023]      FIGS. 15A and 15B  are tables illustrating operation examples of a wireless communication system according to a fourth embodiment. 
           [0024]      FIGS. 16A and 16B  are tables illustrating operation examples of a wireless communication system according to a fifth embodiment. 
           [0025]      FIGS. 17A and 17B  are tables illustrating operation examples of a wireless communication system according to a sixth embodiment. 
           [0026]      FIGS. 18A and 18B  are tables illustrating operation examples of a wireless communication system according to a seventh embodiment. 
       
    
    
     DESCRIPTION OF EMBODIMENTS 
       [0027]    Hereinafter, embodiments of a wireless communication method, a wireless communication system, a base station, and a wireless terminal disclosed herein will be described with reference to the drawings. The wireless communication method, the wireless communication system, the base station, and the wireless terminal disclosed herein are not limited by the following embodiments. 
         [0028]    While inventing the present embodiments, observations were made regarding a related art. Such observations include the following, for example. 
         [0029]    In a wireless communication system of the related art, each wireless communication is assumed to perform wireless communications using the same or close frequency bands. At that time, when the wireless communications are simultaneously executed in a wireless terminal with the respective corresponding circuits, mutual interference may occur in the wireless terminal, and communication performance may be degraded. 
         [0030]    The technology disclosed herein is made in view of such circumstances, and the embodiments disclosed herein, for example, provide a wireless communication method, a wireless communication system, a base station, and a wireless terminal which may suppress interference in a wireless terminal and improve communication performance with a wireless terminal executing a plurality of wireless communications. 
       First Embodiment 
       [0031]      FIG. 1  illustrates a configuration of a wireless communication system  1  according to a first embodiment. As illustrated in  FIG. 1 , the wireless communication system  1  includes a base station  10  and a wireless terminal  20 . The base station  10  forms a cell C 10 . The wireless terminal  20  exists in the cell C 10 . 
         [0032]    The base station  10  is connected to a network device  3  by wired connection, and the network device  3  is connected to a network  2  by wired communication. The base station  10  is provided to transmit and receive data or control information to and from the other base station through the network device  3  and the network  2 . 
         [0033]    The network device  3 , for example, includes a communication unit and a control unit, and each constituent element is connected so as to input and output a signal or data in one direction or bi-directionally. The network device  3  is, for example, realized by a gateway. As a hardware configuration of the network device  3 , for example, the communication unit is realized by an interface circuit, and a control unit is realized by a processor and a memory. 
         [0034]    The wireless terminal  20  performs communication with the base station  10  in a first wireless communication. In addition, the wireless terminal  20  performs communication with an access point or a communication device other than the base station  10  in a second wireless communication. As the first wireless communication, LTE or LTE-A is used, for example. As the second wireless communication, WiFi or Bluetooth (trademark registration) is used, for example. 
         [0035]    The first wireless communication and the second wireless communication are performed using the same or close frequency bands. For example, a case where a frequency band group prepared in the first wireless communication and a frequency band group prepared in the second wireless communication are close to each other, or a case where the first wireless communication and the second wireless communication use the same frequency band group is assumed. 
         [0036]      FIG. 2  is a functional block diagram illustrating a configuration of the base station  10 . As illustrated in  FIG. 2 , the base station  10  includes a transmission unit  11 , a reception unit  12 , and a control unit  13 . Each constituent element is connected so as to input and output a signal or data in one direction or bi-directionally. 
         [0037]    The transmission unit  11  transmits a data signal or a control signal through an antenna in the first wireless communication. The antenna may be commonly used for transmission and reception. The transmission unit  11  transmits a downlink signal through a downlink data channel or control channel, for example. A downlink physical data channel, for example, includes an individual data channel physical downlink shared channel (PDSCH). In addition, a downlink physical control channel, for example, includes an individual control channel physical downlink control channel (PDCCH). The transmitted signal, for example, includes a L1/L2 control signal to be transmitted to the connected wireless terminal  20  on the individual control channel or a radio resource control (RRC) control signal to be transmitted to the connected wireless terminal  20  on the individual data channel. The transmitted signal, for example, includes a reference signal used for channel estimation or demodulation. The transmitted signal, for example, includes control information relating to the wireless communication in the connected wireless terminal  20 . The control information, for example, includes a cycle of scheduling of wireless resources used by the wireless terminal  20  or a cycle of discontinuous reception (DRX) in the wireless terminal  20 . 
         [0038]    The reception unit  12  receives a data signal or a control signal transmitted from the wireless terminal  20  through an antenna in the first wireless communication. The reception unit  12  receives an uplink signal through an uplink data channel or control channel, for example. An uplink physical data channel, for example, includes an individual data channel physical uplink shared channel (PUSCH). In addition, an uplink physical control channel, for example, includes an individual control channel physical uplink control channel (PUCCH). The received signal, for example, includes a reference signal used for channel estimation or demodulation. The received signal, for example, includes interference notification (IDC indication) transmitted from the wireless terminal  20  or information for assisting in the control of interference (assistance information). The interference notification, for example, notifies at least any of information indicating detection of occurrence of interference or an interference level. 
         [0039]    The control unit  13  acquires the data or the control information from the network device  3  or the other base station by the wired connection or wireless connection. The control unit  13  outputs the transmitted data or control information to the transmission unit  11 . The control unit  13  inputs the received data or control information from the reception unit  12 . 
         [0040]    The control unit  13  performs a control operation of receiving the information for assisting in the control of the interference (first assistance information) from the wireless terminal  20  and transmitting the control information relating to the wireless communication to the wireless terminal  20 . The information for assisting in the control of the interference (first assistance information) is, for example, transmitted with the interference notification or to be included in the interference notification. When the information for assisting in the control of the interference is received, the control unit  13 , for example, determines a wireless communication parameter as the control information relating to the wireless communication. When increasing an activation level of (when activating) the first wireless communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX shorter or to increase the frequency of the scheduling. When decreasing an activation level of the first wireless communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX longer or to decrease the frequency of the scheduling. 
         [0041]    The control unit  13  performs a control operation of receiving the information for assisting in the control of the interference (second assistance information) based on a measurement result for controlling the interference, from the wireless terminal  20  and transmitting the control information relating to the wireless communication to the wireless terminal  20 . When the information for assisting in the control of the interference received from the wireless terminal  20  is received, the control unit  13 , for example, determines a wireless communication parameter as the control information relating to the wireless communication. As the information for assisting in the control of the interference, a wireless communication parameter (a pattern of the DRX or a frequency band of handover destination) which is determined based on the measurement result and is preferred by the wireless terminal  20  is used, for example. The control unit  13  performs the scheduling by reflecting the wireless communication parameter preferred by the wireless terminal  20  and transmits the wireless communication parameter to the wireless terminal  20 . The control unit  13 , for example, may receive the measurement result from the wireless terminal  20  and determine the wireless communication parameter. The control unit  13 , for example, determines the pattern of the DRX or the frequency band of the handover destination, based on the measurement result. 
         [0042]      FIG. 3  is a functional block diagram illustrating a configuration of the wireless terminal  20 . As illustrated in  FIG. 3 , the wireless terminal  20  includes transmission units  21 A and  21 B, reception units  22 A and  22 B, and control units  23 A and  23 B. Each constituent element is connected so as to input and output a signal or data in one direction or bi-directionally. 
         [0043]    The transmission unit  21 A transmits a data signal or a control signal through an antenna in the first wireless communication. The antenna may be commonly used for transmission and reception. The transmission unit  21  receives an uplink signal through an uplink data channel or control channel, for example. The transmitted signal, for example, includes a reference signal used for channel estimation or demodulation, the interference notification indicating the occurrence of the interference, or the information for assisting in the control of the interference. 
         [0044]    The reception unit  22 A receives a data signal or a control signal transmitted from the base station  10  through an antenna in the first wireless communication. The received signal, for example, includes the reference signal used for channel estimation or demodulation or the control information relating to the wireless communication. 
         [0045]    The control unit  23 A detects the occurrence of the interference in the wireless terminal  20  due to the first wireless communication and the second wireless communication. The control unit  23 A, for example, detects the occurrence of the interference in the first wireless communication (or determines the degradation of the communication performance in the first wireless communication), based on error characteristics of the received signal in the first wireless communication, when the first wireless communication and the second wireless communication are operated. 
         [0046]    The control unit  23 A acquires a detection result of the occurrence of the interference in the second wireless communication (or a determination result of the degradation of the communication performance in the second wireless communication) notified from the control unit  23 B. The control unit  23 A may acquire the error characteristics of the received signal from the control unit  23 B and detect the occurrence of the interference in the second wireless communication (or determine the degradation of the communication performance in the second wireless communication). 
         [0047]    When the occurrence of the interference is detected, the control unit  23 A performs an interference control operation for removing the interference. There are various methods as the interference control operation, and these may be used in combination. In the interference control operation, a mode for independently performing the operation without cooperation between the first wireless communication side and the second wireless communication side of the wireless terminal  20 , a mode for performing the operation with the cooperation between the first wireless communication side and the second wireless communication side of the wireless terminal  20 , and a mode for performing the operation with the cooperation between the wireless terminal  20  and an external network such as the base station  10  is used, for example. For example, in the mode for performing the operation with the cooperation in the wireless terminal  20 , a method of acquiring a difference between a signal of the first wireless communication and a signal of the second wireless communication, a method of performing time division between a communication timing of the first wireless communication and a communication timing of the second wireless communication, or a method of decreasing transmission power in the first wireless communication or the second wireless communication is used. 
         [0048]    As the interference control operation, a (1) frequency division multiplexing (FDM) method, a (2) time division multiplexing (TDM) method, or a (3) autonomous denial method is particularly used. 
         [0049]    In the FDM method, a frequency band currently used in the first wireless communication is handed over to a different frequency band. 
         [0050]    In the TDM method, the first wireless communication and the second wireless communication are controlled so that the transmission on one side is not simultaneously executed with the reception on the other side. Specifically, the control operation is performed so that the pattern of the DRX in the first wireless communication is appropriate. 
         [0051]    In the autonomous denial method, the wireless terminal  20  autonomously denies the transmission in the first wireless communication or the second wireless communication, when it is difficult to control the interference in the wireless terminal even when using the FDM method and the TDM method, for example. The frequency or level of the autonomous denial, for example, may be notified from the base station  10  or may be previously stored or adjusted in the wireless terminal  20 . 
         [0052]    When the occurrence of the interference is detected, the control unit  23 A determines the information for assisting in the control of the interference. The control unit  23 A performs a control operation of transmitting the interference notification and the information for assisting in the control of the interference to the base station  10 . The information for assisting in the control of the interference, for example, includes information (preference information) indicating preference of the wireless terminal  20  regarding the plurality of wireless communications. The preference, for example, indicates precedence of the communication performance in the wireless communications in the wireless terminal  20 , among the plurality of the wireless communications. For example, in a case of the first wireless communication preference, the communication performance of the first wireless communication has the precedence, and in a case of the second wireless communication preference, the communication performance of the second wireless communication has the precedence. The preference information is, for example, transmitted by being added to the interference notification as information of predetermined bits. The control unit  23 A may transmit the preference information, information associating the preference information and the occurrence pattern of the interference, and information associating the preference information, the occurrence pattern of the interference, and types of a communication service (or types of traffic) being executed in the wireless terminal  20 , to the base station  10 , as the information for assisting in the control of the interference, for example. 
         [0053]    When the occurrence of the interference is detected, the control unit  23 A executes a measurement process for the control of the interference. The control unit  23 A, for example, detects the reference signal from the base station  10  in the frequency band different from the frequency band currently used, and measures a received signal level (different frequency measurement). The received signal level, for example, includes received power or received quality. As the received signal level, reference signal received power (RSRP), reference signal received quality (RSRQ=received power value/total power value), signal-to-interference ratio (SIR), signal-to-interference and noise ratio (SINR), or the like is used, for example. 
         [0054]    The control unit  23 A performs the interference control operation by receiving the control information relating to the wireless communication transmitted from the base station  10  according to the information for assisting in the control of the interference transmitted before completing the measurement process, and executing the wireless communication using this control information. In addition, the control unit  23 A performs the interference control operation by receiving the control information relating to the wireless communication transmitted from the base station  10  according to the measurement result, and executing the wireless communication using this control information. 
         [0055]    The transmission unit  21 B transmits a data signal or a control signal through an antenna in the second wireless communication. The antenna may be commonly used for transmission and reception. 
         [0056]    The reception unit  22 B receives a data signal or a control signal transmitted from the base station through an antenna in the second wireless communication. 
         [0057]    The control unit  23 B outputs the transmitted data or control information to the transmission unit  21 . The control unit  23  inputs the received data or control information from the reception unit  22 . 
         [0058]    The control unit  23 B, for example, detects the occurrence of the interference in the second wireless communication (or determines the degradation of the communication performance in the second wireless communication), based on error characteristics of the received signal in the second wireless communication, when the first wireless communication and the second wireless communication are operated. 
         [0059]    The control unit  23 B notifies the measured received signal level to the control unit  23 A. The control unit  23 B may determine the degradation of the communication performance in the second wireless communication based on the measured received signal level, and notify the determination result to the control unit  23 A. 
         [0060]      FIG. 4  is a diagram illustrating a hardware configuration of the base station  10 . As illustrated in  FIG. 4 , the base station  10 , for example, includes a radio frequency (RF) circuit  32  including an antenna  31 , a central processing unit (CPU)  33 , a digital signal processor (DSP)  34 , a memory  35 , and a network interface (IF)  36 , as constituent elements of the hardware. The CPU is connected so as to input and output various signals or data items through the network IF  36  such as a switch. The memory  35 , for example, includes at least any of a random access memory (RAM) such as a synchronous dynamic random access memory (SDRAM), a read only memory (ROM), and a flash memory, and stores a program, control information, or data. The transmission unit  11  and the reception unit  12  are, for example, realized by the RF circuit  32 , or the antenna  31  and the RF circuit  32 . The control unit  13  is, for example, realized by an integrated circuit such as the CPU  33  or an integrated circuit such as the DSP  34 . 
         [0061]      FIG. 5  is a diagram illustrating a hardware configuration of the wireless terminal  20 . As illustrated in  FIG. 5 , the wireless terminal  20 , for example, includes RF circuits  42 A and  42 B respectively including antennas  41 A and  41 B, CPUs  43 A and  43 B, and memories  44 A and  44 B, as constituent elements of the hardware. The wireless terminal  20  may further include a display device such as a liquid crystal display (LCD) connected to the CPU  43 A and  43 B. The memories  44 A and  44 B include at least any of a RAM such as an SDRAM, a ROM, and flash memory, and store a program, control information, or data. The transmission unit  21 A and the reception unit  22 A are, for example, realized by the RF circuit  42 A, or the antenna  41 A and the RF circuit  42 A. The control unit  23 A is, for example, realized by an integrated circuit such as the CPU  43 A. In the same manner as described above, the transmission unit  21 B and the reception unit  22 B are, for example, realized by the RF circuit  42 B, or the antenna  41 B and the RF circuit  42 B. The control unit  23 B is, for example, realized by an integrated circuit such as the CPU  43 B. 
         [0062]    Next, an operation of the wireless communication system  1  of the first embodiment will be described.  FIG. 6  is a sequence diagram for illustrating the interference control operation of the wireless terminal  20 , in the wireless communication system  1 . 
         [0063]    Herein, as a prior assumption, three methods of the interference control operation described above are reviewed. In the FDM method, the execution of the different frequency handover or the frequency of the handover destination is determined, based on the measurement result of the different frequency measurement. Time of several tens [ms] to several hundreds [ms] is, for example, asked for in the different frequency measurement. Accordingly, time is asked for until the handover from the frequency band currently used to the different frequency band is completed. Thus, time is asked for until the interference control operation functions. In the TDM method, time is asked for until the DRX pattern suitable for the interference control operation of the first wireless communication is detected. That is, time is asked for until the interference control operation functions. In the autonomous denial method, in order to arbitrarily deny the transmission by the wireless terminal, the communication with comparatively high quality of service (QoS) may be, for example, consecutively denied, and the communication performance is degraded. As described above, the rapid control operation is desired to avoid the degradation of the communication performance. 
         [0064]    The example where the functions of the two different wireless communications are mounted has been described in  FIG. 5 , but the number thereof is not limited to two, and the functions of three or more wireless communications may be mounted. 
         [0065]    Therefore, in the first embodiment, the interference control operation is performed in the wireless terminal  20  as described below. 
         [0066]    As illustrated in  FIG. 6 , the wireless terminal  20  detects the occurrence of the interference (S 1 ). Next, the wireless terminal  20  determines the information for assisting in the control of the interference (first assistance information) and transmits the interference notification and the information for assisting in the control of the interference to the base station  10  (S 2 ). The information for assisting in the control of the interference, for example, includes the preference information of the wireless terminal  20  regarding the plurality of wireless communications. The information for assisting in the control of the interference is, for example, transmitted as an RRC control signal. 
         [0067]    Next, the wireless terminal  20  starts the measurement process for the control of the interference (S 3 ). In the measurement process, the received signal level at the different frequency is measured, for example. 
         [0068]    With this, when the first assistance information is received, the base station  10  determines the control information relating to the wireless communication (wireless communication parameter) (S 4 ). For example, the DRX cycle or the scheduling cycle is determined, as the wireless communication parameter. 
         [0069]    Next, the base station  10  transmits the determined control information relating to the wireless communication (wireless communication parameter) to the wireless terminal  20  (S 5 ). The wireless communication parameter is, for example, transmitted as RRC signaling transmitted on the PDSCH. 
         [0070]    Next, the wireless terminal  20  controls the wireless communication, based on the received control information relating to the wireless communication (wireless communication parameter) (S 6 ). Accordingly, the interference is controlled so as to remove the interference. As described above, since the interference control operation is started according to the first assistance information before the completion of the different frequency measurement, the interference control operation is rapidly executed and the communication performance is improved. 
         [0071]    Next, the wireless terminal  20  determines whether or not the measurement process is completed (S 7 ). When the measurement process is not completed (No of the determination result in S 7 ), the process returns to S 7 , and the determination is performed at a predetermined timing from the continuation of the measurement process to the completion of the measurement process. 
         [0072]    Meanwhile, when the measurement process is completed (No of the determination result in S 7 ), the wireless terminal  20  determines the information for assisting in the control of the interference (second assistance information), based on the measurement result, and transmits the second assistance information to the base station  10 . 
         [0073]    When the second assistance information is received, the base station  10 , for example, determines the control information relating to the wireless communication (wireless communication parameter) and transmits the wireless communication parameter to a wireless terminal  70 , and the wireless communication may be controlled in the wireless terminal  70 , based on the received wireless communication parameter. Accordingly, for example, the different frequency handover is executed, the DRX is executed with the appropriate DRX pattern, or the autonomous denial is executed at the appropriate frequency, and therefore the interference is controlled so as to avoid the occurrence of the interference. When the predetermined conditions are satisfied, the wireless terminal  20  may not perform the determination of the second assistance information and the transmission thereof to the base station  10 . 
         [0074]    As described above, according to the first embodiment, it is possible to control the interference in the wireless terminal  20  and to improve the communication performance with the wireless terminal  20  executing the plurality of wireless communications. 
         [0075]    In the interference control operation described above, the wireless terminal  20  transmits the interference notification and the first assistance information once to the base station  10  until the occurrence of the interference is detected and the measurement process is completed, but the wireless terminal may repeatedly detect the occurrence of the interference and transmit the interference notification and the first assistance information multiple times, until the measurement process is completed. In addition, the wireless terminal  20  includes a timer or a counter, the number of times of the transmission of the interference notification and the first assistance information may be limited, for example, from the transmission of the first interference notification and the first assistance information until the predetermined time has elapsed or the predetermined number of times has been reached. For example, the number of times of the transmission (retransmission) is limited by an upper limit value N (N is an integer equal to or greater than 1), or the timer is controlled so as to perform the transmission (retransmission) only in a time period during timing. Accordingly, it is possible to avoid excessive retransmission of the interference notification and the first assistance information. The base station  10  may include a timer or a counter and notify the limitation of the transmission to the wireless terminal  20 . The wireless terminal  20  may adjust the content of the first assistance information and the base station  10  may adjust the content of the control information determined in accordance with the first assistance information, according to the elapsed time or the number of times of the transmission from the first transmission of the first assistance information or according to the occurrence state of the interference. 
         [0076]    When the measurement process is partially completed, the information for assisting in the control of the interference based on the measurement result may be determined based on the partial measurement result and transmitted to the base station  10 . 
       Second Embodiment 
       [0077]    A wireless communication system according to a second embodiment includes a base station  50  (illustrated in  FIG. 7  which will be described later) and a wireless terminal  70  (illustrated in  FIG. 8  which will be described later). The entire configuration of the wireless communication system according to the second embodiment is the same as that of the wireless communication system  1  illustrated in  FIG. 1 . The parts other than the base station  50  and the wireless terminal  70  of the wireless communication system have the same reference numerals, and the description thereof will be omitted. 
         [0078]    In the wireless communication system  1  according to the second embodiment, the wireless terminal  70  exists in a cell in which a base station  50  is formed. The base station  50  is connected to the network device  3  by wired connection, and the network device  3  is connected to the network  2  by wired communication. The base station  50  is provided to transmit and receive data or control information to and from the other base station through the network device  3  and the network  2 . 
         [0079]    The wireless terminal  70  performs communication with the base station  50  in the first wireless communication. In addition, the wireless terminal  70  performs communication with an access point or a communication device other than the base station  50  in the second wireless communication. As the first wireless communication, LTE or LTE-A is used, for example. As the second wireless communication, WiFi or Bluetooth is used, for example. 
         [0080]      FIG. 7  is a functional block diagram illustrating a configuration of the base station  50 . As illustrated in  FIG. 7 , the base station  50  includes a transmission/reception antenna  51 , a transmission/reception switching unit  52 , a received signal processing unit  53 , a data acquisition unit  54 , and a reference signal (RS) acquisition unit  55 . The base station  50  includes a data transmission unit  56  and a wireless communication control unit  58 . The base station  50  includes a data generation unit  59 , an RS generation unit  60 , and a transmission signal processing unit  61 . Each constituent element is connected so as to input and output a signal or data in one direction or bi-directionally. 
         [0081]    In a case of the reception, the transmission/reception antenna  51  receives a wireless signal and outputs the wireless signal to the received signal processing unit  53 . The transmission/reception antenna  51  receives the uplink signal through an uplink data channel or control channel, for example. A physical channel for receiving a signal, for example, includes a random access channel physical random access channel (PRACH) or PUSCH or PUCCH. The uplink signal, for example, includes an RACH signal, a reference signal used for channel estimation or demodulation, a control signal, or a data signal transmitted from the wireless terminal in a random access procedure. The control signal, for example, includes interference notification transmitted from the wireless terminal  70 , information for assisting in control of interference, or a measurement result for control of the interference. 
         [0082]    In a case of the transmission, the transmission/reception antenna  51  transmits the wireless signal input from the transmission signal processing unit  61 . The transmission/reception antenna  51  transmits a downlink signal through a downlink data channel or control channel, for example. A physical channel for transmitting a signal, for example, includes a synchronization channel physical synchronization channel (PSCH), a broadcast channel physical broadcast channel (PBCH), a PDSCH, and a PDCCH. The downlink signal includes a reference signal used for channel estimation or demodulation, a control signal, or a data signal. As the control signal, for example, L1/L2 signaling to be transmitted to the connected wireless terminal  70  on the individual control channel, or RRC signaling to be transmitted to the connected wireless terminal  70  on the individual data channel is used. The control signal, for example, includes system information which is stored in a master information block (MIB) or a system information block (SIB) and is transmitted on the broadcast channel or a shared channel designated by the broadcast channel. The control signal, for example, includes control information relating to the wireless communication in the connected wireless terminal  70 . The control information, for example, includes a cycle of scheduling of wireless resources used by the wireless terminal  70  or a cycle of DRX in the wireless terminal  70 . The control information is, for example, notified at a timing when the connection is established or a predetermined control timing. 
         [0083]    The transmission/reception switching unit  52  switches the transmission and reception of the transmission/reception antenna  51 . The antenna may be separated bodies regarding the transmission and the reception. The plurality of antennas may be included. 
         [0084]    The received signal processing unit  53  performs a wireless process such as an analog-to-digital (A/D) conversion or a digital signal process such as an FFT process, with respect to the received signal. The received signal processing unit  53  outputs the received data signal or control signal to the data acquisition unit  54 . The received signal processing unit  53  outputs the received reference signal to the RS acquisition unit  55 . 
         [0085]    The data acquisition unit  54  performs a demodulation process or a decoding process, with respect to the received data signal or control signal. The data acquisition unit  54 , for example, performs a demodulation process, based on the control information notified or stored in advance, and the reference signal for the demodulation process. The data acquisition unit  54  performs a decoding process of the demodulated signal, based on a channel estimation value estimated from the control information notified or stored in advance and the reference signal for the channel estimation. The data acquisition unit  54  performs a reordering process of the decoded signal and acquires the data. 
         [0086]    The RS acquisition unit  55  outputs the reference signal for the demodulation to the data acquisition unit  54 . The RS acquisition unit  55  outputs the channel estimation value estimated from the control information notified or stored in advance and the reference signal for the channel estimation, to the data acquisition unit  54 . The RS acquisition unit  55  outputs the received signal level acquired from the reference signal to the wireless communication control unit  58 . 
         [0087]    The data transmission unit  56  transmits the data or the control information input from the data acquisition unit  54  to the network device  3 . The data transmission unit  56  inputs the data or the control information transmitted from the network device  3 . The data transmission unit  56  outputs the transmitted data or the control information to the data generation unit  59 . 
         [0088]    The wireless communication control unit  58  performs scheduling such as allocation of wireless resources to the wireless terminal  70 . The wireless communication control unit  58 , for example, performs a control operation of receiving the interference notification and the information for assisting in the control of the interference (first assistance information) from the wireless terminal  70  and transmitting the control information relating to the wireless communication to the wireless terminal  70 . When the information for assisting in the control of the interference is received, the wireless communication control unit  58 , for example, determines a wireless communication parameter. When increasing an activation level of (when activating) the first wireless communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX shorter or to increase the frequency of the scheduling. When decreasing an activation level of the first wireless communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX longer or to decrease the frequency of the scheduling. 
         [0089]    The wireless communication control unit  58  performs a control operation of receiving the information for assisting in the control of the interference (second assistance information) based on a measurement result for controlling the interference, from the wireless terminal  70  and transmitting the control information relating to the wireless communication to the wireless terminal  70 . When the information for assisting in the control of the interference received from the wireless terminal  70  is received, the wireless communication control unit  58 , for example, determines a wireless communication parameter. As the information for assisting in the control of the interference, a wireless communication parameter (a pattern of the DRX or a frequency band of handover destination) which is determined based on the measurement result and is preferred by the wireless terminal  70  is used, for example. The wireless communication control unit  58  performs the scheduling by reflecting the wireless communication parameter preferred by the wireless terminal  20  and transmits the wireless communication parameter to the wireless terminal  70 . The control unit  13 , for example, may receive the measurement result from the wireless terminal  70  and determine the wireless communication parameter. The wireless communication control unit  58 , for example, determines the pattern of the DRX or the frequency band of the handover destination, based on the measurement result. 
         [0090]    The data generation unit  59  stores user data or control information in a predetermined signaling format. The data generation unit  59  performs an encoding process or a modulation process with respect to the user data or the control information stored in the signaling format and outputs the transmitted data to the transmission signal processing unit  60 . The control information includes the broadcast information. 
         [0091]    The RS generation unit  60  generates a reference signal used for data demodulation or channel estimation and outputs the reference signal to the transmission signal processing unit  61 . 
         [0092]    The transmission signal processing unit  61  generates a transmission signal and outputs the transmission signal to the transmission/reception antenna  51 . The transmission signal processing unit  61 , for example, performs allocation of an antenna port or wireless resources regarding the transmission data or the reference signal. The transmission signal processing unit  61 , for example, performs a digital signal process, or a wireless process such as a digital-to-analog (D/A) conversion process and generates a transmission signal. 
         [0093]      FIG. 8  is a block diagram illustrating a functional configuration of the wireless terminal  70 . As illustrated in  FIG. 8 , the wireless terminal  70  includes a transmission/reception antenna  71 , a transmission/reception switching unit  72 , a received signal processing unit  73 , a data acquisition unit  74 , a first wireless communication control unit  75 , an interference detection unit  76 , a data generation unit  77 , a transmission signal processing unit  78 , and an application processing unit  80 . The wireless terminal  70  includes a transmission/reception antenna  82 , a transmission/reception switching unit  83 , a received signal processing unit  84 , a data acquisition unit  85 , a second wireless communication control unit  86 , an interference detection unit  87 , a data generation unit  88 , and a transmission signal processing unit  89 . Each constituent element is connected so as to input and output a signal or data in one direction or bi-directionally. 
         [0094]    In a case of the reception, the transmission/reception antenna  71  receives a wireless signal in the first wireless communication and outputs the wireless signal to the received signal processing unit  73 . The transmission/reception antenna  71  receives the downlink signal through the downlink data channel or control channel, for example. A physical channel for receiving a signal, for example, includes the PSCH, the PBCH, the PDSCH, or the PDCCH. The downlink signal, for example, includes a paging channel (PCH) used for simultaneous calling of the wireless terminal, the reference signal used for channel estimation or demodulation, the control signal, or the data signal. As the control signal, for example, L1/L2 signaling to be transmitted to the connected wireless terminal  70  on the individual control channel, or RRC signaling to be transmitted to the connected wireless terminal  70  on the individual data channel is used. The control signal, for example, includes control information relating to the wireless communication in the connected wireless terminal  70 . The control information, for example, includes a cycle of scheduling of wireless resources used by the wireless terminal  70  or a cycle of DRX in the wireless terminal  70 . 
         [0095]    In a case of the transmission, the transmission/reception antenna  71  transmits the wireless signal input from the transmission signal processing unit  78  in the first wireless communication. The transmission/reception antenna  71  transmits the downlink signal through the downlink data channel or the control channel, for example. A physical channel for transmitting a signal, for example, includes the PRACH, the PUSCH, or the PUCCH. The uplink signal, for example, includes the RACH signal, the reference signal used for channel estimation or demodulation, the control signal, or the data signal. The control signal, for example, includes the interference notification transmitted from the wireless terminal  70 , the information for assisting in the control of the interference, or the measurement result for the control of the interference. 
         [0096]    The transmission/reception switching unit  72  switches the transmission and reception of the transmission/reception antenna  71 . In the first wireless communication, the antenna may be separated bodies regarding the transmission and the reception. In the first wireless communication, the plurality of antennas may be included. 
         [0097]    The received signal processing unit  73  performs a wireless process such as an A/D conversion or a digital signal process such as an FFT process, with respect to the received signal. The received signal processing unit  73  outputs the received data signal, control signal, reference signal, or PCH signal to the data acquisition unit  74 . 
         [0098]    The data acquisition unit  74  performs a demodulation process or a decoding process, with respect to the received data signal or control signal. The data acquisition unit  74 , for example, performs a demodulation process, based on the control information notified or stored in advance, and the reference signal for the demodulation process. The data acquisition unit  74  performs a decoding process of the demodulated signal, based on a channel estimation value estimated from the control information notified or stored in advance and the reference signal for the channel estimation. The data acquisition unit  74  performs a reordering process of the decoded received signal and extracts the data or the control information. The control information, for example, includes the broadcast information. 
         [0099]    The interference detection unit  76  detects the occurrence of the interference in the wireless terminal  70  by the first wireless communication and the second wireless communication. The interference detection unit  76 , for example, detects the occurrence of internal interference in the first wireless communication. The interference detection unit  76 , for example, detects the occurrence of the interference in the first wireless communication (or determines the degradation of the communication performance in the first wireless communication), based on error characteristics of the received signal in the first wireless communication, when the first wireless communication and the second wireless communication are operated. 
         [0100]    The first wireless communication control unit  75  controls the wireless communication in the first wireless communication, according to the control information notified or stored in advance. When the occurrence of the interference is detected, the first wireless communication control unit  75  performs an interference control operation for removing the interference. As the interference control operation, the (1) FDM method, the (2) TDM method, or the (3) autonomous denial method is used, and these methods may be used in combination. 
         [0101]    When the occurrence of the interference is detected, the first wireless communication control unit  75  determines the information for assisting in the control of the interference. The first wireless communication control unit  75  performs a control operation of transmitting the interference notification and the information for assisting in the control of the interference to the base station  50 . The information for assisting in the control of the interference, for example, includes information (preference information) indicating preference of the wireless terminal  70  regarding the plurality of wireless communications. The preference information is, for example, information indicating precedence of the communication performance in the wireless communications in the wireless terminal  70 , among the plurality of the wireless communications. For example, in a case of the first wireless communication preference, the communication performance of the first wireless communication has the precedence, and in a case of the second wireless communication preference, the communication performance of the second wireless communication has the precedence. The preference information is, for example, transmitted by being added to the interference notification as information of 1 bit. 
         [0102]    When the occurrence of the interference is detected, the first wireless communication control unit  75  executes a measurement process for the control of the interference. The first wireless communication control unit  75 , for example, detects the reference signal from the base station  50  in the frequency band different from the frequency band currently used, and measures the received signal level (different frequency measurement). 
         [0103]    The first wireless communication control unit  75  performs the interference control operation by executing the wireless communication using the control information relating to the wireless communication, transmitted from the base station  50  according to the information for assisting in the control of the interference transmitted before completing the measurement process. The control information is, for example, a wireless communication parameter such as a cycle of scheduling of wireless resources used by the wireless terminal  70  or a cycle of DRX in the wireless terminal  70 . 
         [0104]    The first wireless communication control unit  75  receives the control information relating to the wireless communication, transmitted from the base station  50  according to the information for assisting in the control of the interference transmitted based on the measurement result, and performs the interference control operation by executing the wireless communication using this control information. The control information is, for example, a wireless communication parameter such as the pattern of the DRX or the frequency band of the handover destination. 
         [0105]    The application processing unit  80  manages various applications such as a telephone call or data communication executed by the wireless terminal  70 . The application processing unit  80  executes the first wireless communication and the second wireless communication according to the executed application. The application processing unit  80  notifies the communication service such as the telephone call or the data communication or a QoS level according to the executed application, to the first wireless communication control unit  75 . The application processing unit  80  outputs the transmitted data to the data generation unit  77  or the data generation unit  88 . The application processing unit  80  inputs the acquired received data to the data acquisition unit  74  or the data acquisition unit  85 . 
         [0106]    The data generation unit  77  stores the user data or the control information in a predetermined signaling format. The data generation unit  77  performs an encoding process or a modulation process with respect to the user data or the control information stored in the signaling format and outputs the transmitted data to the transmission signal processing unit  78 . The data generation unit  77  generates a reference signal used for data demodulation or channel estimation and outputs the reference signal to the transmission signal processing unit  78 . The data generation unit  77  generates a control signal and outputs the control signal to the transmission signal processing unit  78 . 
         [0107]    The transmission signal processing unit  78  generates a transmission signal and outputs the transmission signal to the transmission/reception antenna  71 . The transmission signal processing unit  78 , for example, performs allocation of an antenna port or wireless resources regarding the transmission data or the reference signal. The transmission signal processing unit  78 , for example, performs a digital signal process, or a wireless process such as a digital-to-analog (D/A) conversion process and generates a transmission signal. 
         [0108]    In a case of the reception, the transmission/reception antenna  82  receives a wireless signal in the second wireless communication and outputs the wireless signal to the received signal processing unit  84 . In a case of the transmission, the transmission/reception antenna  82  transmits the wireless signal input from the transmission signal processing unit  89  in the second wireless communication. 
         [0109]    The transmission/reception switching unit  83  switches the transmission and reception of the transmission/reception antenna  82 . In the second wireless communication, the antenna may be separated bodies regarding the transmission and the reception. In the second wireless communication, the plurality of antennas may be included. 
         [0110]    The received signal processing unit  84  performs a wireless process such as an A/D conversion or a digital signal process such as an FFT process, with respect to the received signal, and outputs the received data signal or control signal to the data acquisition unit  85 . 
         [0111]    The data acquisition unit  85  performs a demodulation process or a decoding process, with respect to the received data signal or control signal, and acquires the data or the control information. 
         [0112]    The second wireless communication control unit  86  controls the wireless communication in the second wireless communication, according to the control information notified or stored in advance. 
         [0113]    The interference detection unit  87 , for example, detects the occurrence of internal interference in the second wireless communication. The interference detection unit  87 , for example, detects the occurrence of the interference in the second wireless communication (or determines the degradation of the communication performance in the second wireless communication), based on error characteristics of the received signal in the second wireless communication, when the first wireless communication and the second wireless communication are operated. The interference detection unit  87 , for example, outputs the error characteristics of the received signal or the detection result of the occurrence of the interference in the second wireless communication to the interference detection unit  76 . 
         [0114]    The data generation unit  88  performs an encoding process or a modulation process with respect to the user data or the control information and outputs the transmitted data to the transmission signal processing unit  89 . 
         [0115]    The transmission signal processing unit  89 , for example, performs a digital signal process, or a wireless process such as a digital-to-analog (D/A) conversion process, generates a transmission signal, and outputs the transmission signal to the transmission/reception antenna  82 . 
         [0116]    A hardware configuration of the base station  50  is the same as the hardware configuration of the base station  10  of the first embodiment. The transmission/reception antenna  51 , the transmission/reception switching unit  52 , and the wireless process function of the received signal processing unit  53 , and the wireless process function of the transmission signal processing unit  61  of the base station  50  are, for example, realized by the antenna and the RF circuit. The digital signal process function of the received signal processing unit  53 , the digital signal process function of the transmission signal processing unit  61 , the data acquisition unit  54 , the RS acquisition unit  55 , the data transmission unit  56 , the wireless communication control unit  58 , the a data generation unit  59 , and the RS generation unit  60  of the base station  50  are, for example, realized by the integrated circuit such as the CPU. 
         [0117]    A hardware configuration of the wireless terminal  70  is the same as the hardware configuration of the wireless terminal  20  of the first embodiment. The transmission/reception antenna  71 , the transmission/reception switching unit  72 , the wireless process function of the received signal processing unit  73 , and the wireless process function of the transmission signal processing unit  89  of the wireless terminal  70  are, for example, realized by the antenna and the RF circuit. The digital signal process function of the received signal processing unit  73 , the digital signal process function of the transmission signal processing unit  89 , the data acquisition unit  74 , the first wireless communication control unit  75 , the interference detection unit  76 , the data generation unit  77 , the application processing unit  80 , the data acquisition unit  85 , the second wireless communication control unit  86 , the interference detection unit  87 , and the data generation unit  88  of the wireless terminal  70  are, for example, realized by the integrated circuit such as the CPU. 
         [0118]    Next, an operation of the wireless communication system of the second embodiment will be described.  FIG. 12  is a sequence diagram for illustrating the interference control operation of the wireless terminal  70  in the wireless communication system. 
         [0119]    Herein,  FIG. 9  illustrates an example of the frequency bands prepared in the first wireless communication and the second wireless communication. The first wireless communication and the second wireless communication are performed using the same or close frequency bands. For example, a frequency band group prepared in the first wireless communication and a frequency band group prepared in the second wireless communication are close to each other, the first wireless communication and a case in which the second wireless communication use the same frequency band group is assumed. For example, the industry science medical (ISM) band (2400 MHz to 2483.5 MHz) is one of non-licensed bands and is used in Bluetooth or WiFi. At that time, Band  40  (2300 MHz to 2400 MHz) prepared in LTE-A TDD Mode and Band  7  (2500 MHz to 2570 MHz) prepared in LTE-A UL FDD Mode are frequency band groups adjacent to the ISM Band. In a case where the ISM Band is shared in the LTE-A, the same frequency band is used in the LTE-A or Bluetooth or WiFi. 
         [0120]    Next,  FIG. 10  schematically illustrates the normal interference control operation as a comparative example. In  FIG. 10 , a horizontal axis indicates time. At time (a), the first wireless communication is turned on and the second wireless communication is turned off, and the interference does not occur. At time (b), the first wireless communication is turned on and the second wireless communication is turned on, the occurrence of the interference is detected, the interference notification is transmitted from the wireless terminal to the base station, and the different frequency measurement is started in the wireless terminal. At time (c) and time (d), the state where the interference occurred is continued while executing the different frequency measurement. At time (e), the different frequency measurement is completed, and the assistance information for assisting in the control of the interference is transmitted to the base station based on the measurement result. The assistance information is, for example, the preferred wireless communication parameter, and is the different frequency information used in the FDM method or the DRX pattern used in the TDM method. At this time (e), the state where the interference occurred is still continued. When the assistance information is received, the wireless communication parameter is determined in the base station, this wireless communication parameter is transmitted from the base station to the wireless terminal, and the interference control operation is started by the FMD method or the TDM method. Accordingly, at time (f), the state is changed to the state where the interference does not occur. In this example, the state where the interference occurred is continued during the measurement, and time is asked for until the interference control operation functions. 
         [0121]    Meanwhile,  FIG. 11  schematically illustrates the interference control operation of the wireless terminal  70  of the second embodiment. In  FIG. 11 , a horizontal axis indicates time. At time (a), the first wireless communication is turned on and the second wireless communication is turned off, and the interference does not occur. At time (b), the first wireless communication is turned on and the second wireless communication is turned on, and the occurrence of the interference is detected. At that time, the interference notification and the first assistance information for assisting in the control of the interference are transmitted from the wireless terminal  70  to the base station  50 . The different frequency measurement is started in the wireless terminal  70 . The first assistance information, for example, includes the preference information indicating preference of the communication performance among the first wireless communication and the second wireless communication, and the base station  50  may determine the wireless communication parameter for the interference control operation according to this information. This wireless communication parameter is transmitted from the base station  50  to the wireless terminal  70  and the interference control operation is started. At time (c) and time (d), even when the execution of the different frequency measurement is in progress, the interference control operation is started early, and accordingly the state is changed to a state where the interference is decreased or avoided. At time (e), the different frequency measurement is completed, and the second assistance information for assisting in the control of the interference is transmitted from the wireless terminal to the base station based on the measurement result. The second assistance information is, for example, the preferred wireless communication parameter, and is the different frequency information used in the FDM method or the DRX pattern used in the TDM method. At this time (e), the state where the interference is decreased is continued. When the second assistance information is received, the wireless communication parameter is determined in the base station  50 , this wireless communication parameter is transmitted from the base station to the wireless terminal  70 , and the interference control operation is started by the FMD method or the TDM method. Accordingly, at time (f), the state is changed to the state where the interference does not occur. In this example, since the interference control operation is started early even during the measurement, the state is changed to a state where the interference is decreased or avoided, and the communication performance is improved. 
         [0122]    In the example illustrated in  FIG. 11 , the first assistance information, for example, may be set as the different frequency information used in the FDM method or the DRX pattern used in the TDM method, in addition to the preference information indicating precedence of the communication performance among the first wireless communication and the second wireless communication. This may be applied to a case where the measurement result is already obtained, for example, at the time when transmitting the first assistance information by the wireless terminal  70  (for example, a case where the measurement process relating to the control operation other than the interference control operation is performed and the measurement result is obtained at a comparatively close timing). The second control information may be set as the information including the different frequency information used in the FDM method or the DRX pattern used in the TDM method obtained by reflecting the measurement result obtained in the subsequent measurement. Herein, when the preference information of the wireless terminal  70  is changed from the time when the first assistance information is transmitted, the updated preference information may be included in the second assistance information. That is, the second assistance information may be set as the information with the updated first assistance information. 
         [0123]    Returning to  FIG. 12 , the interference control operation of the wireless terminal  70  of the wireless communication system of the second embodiment will be described in detail. As a prior assumption, the LTE communication (LTE or LTE-A) is used as the first wireless communication, and the ISM communication (WiFi or Bluetooth) is used as the second wireless communication. A default value of the control information (wireless communication parameter) relating to the wireless communication is previously notified from the base station  50 , for example, at a timing of the connection establishment, or is previously stored in the wireless terminal  70 . 
         [0124]    As illustrated in  FIG. 12 , the wireless terminal  70  executes a detection process of the occurrence of the interference (S 21 ). Next, the wireless terminal  70  determines the occurrence of the interference (degradation of the communication performance) (S 22 ). When the occurrence of the interference is not detected (No of the determination result in S 22 ), the process returns to S 21  and the detection of the interference is repeated at the predetermined timing. Meanwhile, when the occurrence of the interference is detected (Yes of the determination result in S 22 ), the wireless terminal  70  determines the information for assisting in the control of the interference (first assistance information), and transmits the interference notification and the information for assisting in the control of the interference to the base station  50  (S 23 ). This transmission is performed by the RRC signaling, for example. The first assistance information includes the preference information of the wireless terminal  70  regarding the plurality of the wireless communications. 
         [0125]    Specifically,  FIG. 13A  illustrates a setting example of the first assistance information and  FIG. 13B  illustrates a setting example of the wireless communication parameter based on the first assistance information in  FIG. 13A . In  FIGS. 13A and 13B , “mutual interference” indicates that the occurrence of the interference (degradation of the communication performance) is detected in both of the LTE communication and the ISM communication, “only LTE degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the LTE communication, and “only ISM degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the ISM communication. “LTE communication preference” indicates preference of the wireless terminal  70  with respect to the LTE communication (precedence of the communication performance of the LTE communication), and “ISM communication preference” indicates preference of the wireless terminal  70  with respect to the ISM communication (precedence of the communication performance of the ISM communication). 
         [0126]    In the example illustrated in  FIGS. 13A and 13B , the information associating the preference information and the occurrence pattern of the interference is transmitted, as the first assistance information. Specifically, in a case of the “LTE communication preference” and the “mutual interference” or the “only LTE degradation”, the first assistance information is set as X=1. In a case of the “ISM communication preference” and the “mutual interference” or the “only ISM degradation”, the first assistance information is set as X=0. In a case of the “LTE communication preference” and the “only ISM degradation” or “ISM communication preference” and the “only LTE degradation”, the first assistance information is not transmitted. 
         [0127]    In the example illustrated in  FIGS. 13A and 13B , the first assistance information is 1-bit control information and is transmitted by being added to the interference notification. At that time, the first assistance information may be transmitted only when satisfying predetermined conditions. The predetermined conditions, for example, include a case where the first assistance information to be transmitted exists, or a case where the communication performance of at least any of the plurality of wireless communications is degraded. 
         [0128]    Next, the wireless terminal  70  starts the measurement process for the control of the interference (S 24 ). In the measurement process, the received signal level at the different frequency is measured, for example. 
         [0129]    With this, when the first assistance information is received, the base station  50  determines the wireless communication parameter (S 25 ). For example, the DRX cycle or the scheduling cycle is determined, as the wireless communication parameter. With this wireless communication parameter, for example, the frequency of the downlink reception, the frequency of the corresponding uplink reception (for example, transmission of acknowledgement/negative acknowledgement (ACK/NACK)), reception intervals of downlink retransmission, or the position of the start of the DRX is adjusted. 
         [0130]    Specifically, as illustrated in the  FIG. 13B , in a case where first assistance information is set as X=1 (“LTE communication preference” and the “mutual interference” or the “only LTE degradation”), the base station  50  determines the wireless communication parameter so as to increase the activation level of the LTE communication. When increasing the activation level of (when activating) the LTE communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX shorter or to increase the frequency of the scheduling. 
         [0131]    In a case where first assistance information is set as X=0 (“ISM communication preference” and the “mutual interference” or the “only ISM degradation”), the base station  50  determines the wireless communication parameter so as to decrease the activation level of the LTE communication. When decreasing the activation level of the LTE communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX longer or to decrease the frequency of the scheduling. 
         [0132]    Next, the base station  50  transmits the determined wireless communication parameter to the wireless terminal  70  (S 26 ). The wireless communication parameter is, for example, transmitted using the RRC signaling transmitted on the PDSCH. 
         [0133]    Next, the wireless terminal  70  controls the communication based on the received wireless communication parameter (S 27 ). Accordingly, the interference is controlled so that the interference is decreased or avoided. As described above, since the interference control operation is started according to the first assistance information before the completion of the different frequency measurement, the interference control operation is rapidly executed and the communication performance is improved. 
         [0134]    Specifically, in a case of the preference of the wireless terminal  70  with respect to the LTE communication, the activation level of the LTE communication increases by controlling the LTE communication so as to set the cycle of the DRX shorter or to increase the frequency of the scheduling. In a case of the preference of the wireless terminal  70  with respect to the ISM communication, the activation level of the LTE communication decreases and the activation level of the ISM communication relatively increases by controlling the LTE communication so as to set the cycle of the DRX longer or to decrease the frequency of the scheduling. With such communication control operation, a difference occurs in the activation levels, and accordingly the interference is decreased or avoided and the communication performance is improved, at least regarding the preferred (precedent) communication of the wireless terminal  70 . 
         [0135]    Next, the wireless terminal  70  determines whether or not the measurement process is completed (S 28 ). When the measurement process is not completed (No of the determination result in S 28 ), the determination is performed at a predetermined timing from the continuation of the measurement process to the completion of the measurement process. 
         [0136]    Meanwhile, when the measurement process is completed (No of the determination result in S 28 ), the wireless terminal  70  determines the information for assisting in the control of the interference (second assistance information), based on the measurement result, and transmits the second assistance information to the base station  50  (S 29 ). The second assistance information is, for example, the wireless communication parameter which is determined based on the measurement result and is preferred by the wireless terminal  70 . As the wireless communication parameter preferred by the wireless terminal  70 , the different frequency information (frequency band of handover destination) used in the FDM method, the DRX pattern used in the TDM method, or the frequency of autonomous denial used in the Auto denial method, is used, for example. 
         [0137]    Next, when the second assistance information is received, the base station  50  determines the wireless communication parameter (S 30 ). For example, the pattern of the DRX or the frequency band of different frequency handover destination is determined, as the wireless communication parameter. 
         [0138]    Next, the base station  50  transmits the determined wireless communication parameter to the wireless terminal  70  (S 31 ). The wireless communication parameter is, for example, transmitted using the RRC signaling transmitted on the PDSCH. 
         [0139]    Next, the wireless terminal  70  controls the communication based on the received wireless communication parameter (S 32 ). Accordingly, the interference is controlled so that the interference is avoided. Specifically, the occurrence of the interference is avoided by executing the different frequency handover, executing the DRX with the appropriate DRX pattern, or executing the autonomous denial at the appropriate frequency. 
         [0140]    As described above, according to the second embodiment, it is possible to control the interference in the wireless terminal  70  and to improve the communication performance, with the wireless terminal  70  executing the plurality of wireless communications. 
       Third Embodiment 
       [0141]    Next, a wireless communication system according to a third embodiment will be described. The entire configuration of the wireless communication system according to the third embodiment is the same as the configuration of the wireless communication system of the second embodiment. In the following description, the wireless communication system has the same reference numerals, and the description thereof will be omitted. 
         [0142]    The operations relating to the determination of the first assistance information and the determination of the wireless communication parameter according to the first assistance information in the third embodiment are different from those of the second embodiment.  FIGS. 14A and 14B  are tables illustrating operation examples of the wireless communication system according to the third embodiment. 
         [0143]    The operation relating to the first wireless communication control unit  75  of the wireless terminal according to the third embodiment is different from that of the wireless terminal  70  of the second embodiment. 
         [0144]    In the third embodiment, when the occurrence of the interference is detected, the first wireless communication control unit  75  determines the information for assisting in the control of the interference (first assistance information). The first wireless communication control unit  75  performs a control operation of transmitting the interference notification and the information for assisting in the control of the interference to the base station  50 . The information for assisting in the control of the interference, for example, includes information (preference information) indicating preference of the wireless terminal  70  regarding the plurality of wireless communications. At that time, the information associating the preference information and the occurrence pattern of the interference is transmitted as the first assistance information, so that the entire combination is divided. 
         [0145]    Specifically,  FIG. 14A  illustrates a setting example of the first assistance information and  FIG. 14B  illustrates a setting example of the wireless communication parameter based on the first assistance information in  FIG. 14A . In  FIGS. 14A and 14B , “mutual interference” indicates that the occurrence of the interference (degradation of the communication performance) is detected in both of the LTE communication and the ISM communication, “only LTE degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the LTE communication, and “only ISM degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the ISM communication. “LTE communication preference” indicates preference of the wireless terminal  70  with respect to the LTE communication (precedence of the communication performance of the LTE communication), and “ISM communication preference” indicates preference of the wireless terminal  70  with respect to the ISM communication (precedence of the communication performance of the ISM communication). 
         [0146]    In the example illustrated in  FIGS. 14A and 14B , six types of information items associating the preference information and the occurrence pattern of the interference are transmitted, as the first assistance information, by being added to the interference notification, as 3-bit control information. 
         [0147]    The other configuration of the wireless terminal according to the third embodiment is the same as the configuration of the wireless terminal  70  of the second embodiment. The hardware configuration of the wireless terminal according to the third embodiment is the same as the hardware configuration of the wireless terminal  70  of the second embodiment. 
         [0148]    The operation relating to the wireless communication control unit  58  of the base station according to the third embodiment is different from that of the base station  50  of the second embodiment. 
         [0149]    In the third embodiment, the wireless communication control unit  58  performs a control operation of receiving the interference notification and the information for assisting in the control of the interference (first assistance information) from the wireless terminal  70  and transmitting the control information relating to the wireless communication to the wireless terminal  70 . When the information for assisting in the control of the interference is received, the wireless communication control unit  58 , for example, determines a wireless communication parameter. 
         [0150]    At that time, specifically, as illustrated in  FIG. 14B , in a case where first assistance information is set as X=000 (“LTE communication preference” and the “mutual interference”), the base station  50  determines the wireless communication parameter so as to at least maintain the setting of the current wireless communication parameter or to increase the activation level of the LTE communication. 
         [0151]    In a case where first assistance information is set as X=010 (“LTE communication preference” and the “only LTE degradation”), the base station  50  determines the wireless communication parameter so as to increase the activation level of the LTE communication. At that time, the activation level of the LTE communication may be increased to be greater than the case where the first assistance information is set as X=000 or 011. 
         [0152]    In a case where first assistance information is set as X=100 (“LTE communication preference” and the “only ISM degradation”), the base station  50  determines the wireless communication parameter so as to at least maintain the setting of the current wireless communication parameter or to decrease the activation level of the LTE communication. 
         [0153]    In a case where first assistance information is set as X=001 (“ISM communication preference” and the “mutual interference”), the base station  50  determines the wireless communication parameter so as to at least maintain the setting of the current wireless communication parameter or to decrease the activation level of the LTE communication. 
         [0154]    In a case where first assistance information is set as X=011 (“ISM communication preference” and the “only LTE degradation”), the base station  50  determines the wireless communication parameter so as to at least maintain the setting of the current wireless communication parameter or to increase the activation level of the LTE communication. 
         [0155]    In a case where first assistance information is set as X=101 (“ISM communication preference” and the “only ISM degradation”), the base station  50  determines the wireless communication parameter so as to decrease the activation level of the LTE communication. At that time, the activation level of the LTE communication may be increased to be greater than the case where the first assistance information is set as X=100 or 001. 
         [0156]    When increasing an activation level of (when activating) the LTE communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX shorter or to increase the frequency of the scheduling. When decreasing an activation level of the LTE communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX longer or to decrease the frequency of the scheduling. 
         [0157]    For example, when the information indicating the interference level is included in the interference notification, whether to maintain the current setting or to change the activation level of the LTE communication may be determined according to the interference level. 
         [0158]    The other configuration of the base station according to the third embodiment is the same as the configuration of the base station  50  of the second embodiment. The hardware configuration of the base station according to the third embodiment is the same as the hardware configuration of the base station  50  of the second embodiment. 
         [0159]    Next, an operation of the wireless communication system of the third embodiment will be described. In the third embodiment, in the same manner as in S 23  of the second embodiment, the first assistance information is determined as illustrated in  FIGS. 14A and 14B , and is transmitted to the base station  50  with the interference notification. In the same manner as in S 25  of the second embodiment, when the first assistance information is received, the base station  50  determines the wireless communication parameter. In the same manner as in S 27  of the second embodiment, the wireless terminal  70  controls the communication based on the received wireless communication parameter. Accordingly, the interference is controlled so that the interference is decreased or avoided. As described above, since the interference control operation is started according to the first assistance information before the completion of the different frequency measurement, the interference control operation is rapidly executed and the communication performance is improved. 
         [0160]    By performing the communication control operation using the wireless communication parameter determined as described above, the activation level or the precedence of the preferred wireless communication or the wireless communication service is relatively increased. Specifically, in a case of the preference of the wireless terminal  70  with respect to the LTE communication, the activation level of the LTE communication increases by controlling the LTE communication so as to set the cycle of the DRX shorter or to increase the frequency of the scheduling. In a case of the preference of the wireless terminal  70  with respect to the ISM communication, the activation level of the LTE communication decreases and the activation level of the ISM communication relatively increases by controlling the LTE communication so as to set the cycle of the DRX longer or to decrease the frequency of the scheduling. With such communication control operation, a difference occurs in the activation levels, and accordingly the interference is decreased or avoided and the communication performance is improved, at least regarding the preferred (precedent) communication of the wireless terminal  70 . 
         [0161]    At that time, since the six types of information items associating the preference information and the occurrence pattern of the interference are notified so as to be divided, it is possible to execute more detailed scheduling and determine a more appropriate wireless communication parameter, based on the six types of information items. 
         [0162]    As described above, according to the third embodiment, it is possible to control the interference in the wireless terminal and to improve the communication performance, with the wireless terminal executing the plurality of wireless communications. 
       Fourth Embodiment 
       [0163]    Next, a wireless communication system according to a fourth embodiment will be described. The entire configuration of the wireless communication system according to the fourth embodiment is the same as the configuration of the wireless communication system of the second embodiment. In the following description, the wireless communication system has the same reference numerals, and the description thereof will be omitted. 
         [0164]    The operations relating to the determination of the first assistance information and the determination of the wireless communication parameter according to the first assistance information in the fourth embodiment are different from those of the second embodiment.  FIGS. 15A and 15B  are tables illustrating operation examples of the wireless communication system according to the fourth embodiment. 
         [0165]    The operation relating to the first wireless communication control unit  75  of the wireless terminal according to the fourth embodiment is different from that of the wireless terminal  70  of the second embodiment. 
         [0166]    In the fourth embodiment, when the occurrence of the interference is detected, the first wireless communication control unit  75  determines the information for assisting in the control of the interference (first assistance information). The first wireless communication control unit  75  performs a control operation of transmitting the interference notification and the information for assisting in the control of the interference to the base station  50 . The information for assisting in the control of the interference, for example, includes information (preference information) indicating preference of the wireless terminal  70  regarding the plurality of wireless communications. At that time, the preference information, for example, includes information indicating the precedence of a communication service among a plurality of the communication services, when any of the wireless communication of the plurality of the wireless communications has the plurality of the communication services. Specifically, the preference information, for example, includes information indicating the precedence of the communication performance of the wireless communication among a voice over IP (VoIP) communication service and a data communication service in the LTE communication. For example, in a case of the LTE VoIP communication preference, the communication performance of the LTE VoIP communication is preceded, and in a case of the LTE VoIP communication preference+the LTE Data communication preference, the communication performance of both of the LTE VoIP communication and the LTE Data communication is preceded by the other communication. 
         [0167]    That is, when the plurality of communication services are included in each of the wireless communications, the property (pattern) of the traffic of each communication service of the wireless communication may be already down or assumed. For example, when the VoIP communication service is performed in the LTE communication, the traffic arrival is performed cyclically (for example, 20 [ms]). In such a case, for example, the preference for each communication service is notified to the base station  50 , and the wireless communication parameter is determined so as to remove the interference for each communication service in the base station  50 , and accordingly, it is possible to perform the appropriate interference control operation. 
         [0168]    As the preference information, the information with “RLC UM preference” and “RLC UM preference” may be notified instead of notifying the information with the “LTE VoIP communication preference” and the “LTE Data communication preference”. For example, when the LTE VoIP communication is executed by the RLC UM and the LTE Data communication is executed by the RLC AM, the information with the “RLC UM preference” may be notified in a case of the preference with respect to the LTE VoIP communication, and the information with the “RLC UM preference+the RLC AM preference” may be notified in a case of the preference with respect to both the LTE VoIP communication and the LTE Data communication. 
         [0169]    As the preference information, the information with “real time communication preference” and “real time communication preference” may be notified instead of notifying the information with the “LTE VoIP communication preference” and the “LTE Data communication preference”. For example, the information with the “real time communication preference” may be notified in a case of the preference with respect to the LTE VoIP communication, and the information with the “real time communication preference+the real time communication preference” may be notified in a case of the preference with respect to both the LTE VoIP communication and the LTE Data communication. 
         [0170]    Specifically,  FIG. 15A  illustrates a setting example of the first assistance information and  FIG. 15B  illustrates a setting example of the wireless communication parameter based on the first assistance information in  FIG. 15A . In  FIGS. 15A and 15B , “mutual interference” indicates that the occurrence of the interference (degradation of the communication performance) is detected in both of the LTE communication and the ISM communication, “only LTE degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the LTE communication, and “only ISM degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the ISM communication. The “LTE VoIP communication preference” indicates preference of the wireless terminal  70  with respect to the VoIP communication service in the LTE communication (precedence of the communication performance of the LTE VoIP communication), and the “LTE VoIP communication preference+the LTE Data communication preference” indicates preference of the wireless terminal  70  with respect to both of the VoIP communication service and the data communication service in the LTE communication (precedence of both communication performances). 
         [0171]    In the example illustrated in  FIGS. 15A and 15B , the information associating the preference information and the occurrence pattern of the interference is transmitted, as the first assistance information. In the example illustrated in  FIGS. 15A and 15B , the first assistance information is 1-bit control information and is transmitted by being added to the interference notification. Specifically, in a case of the “LTE VoIP communication preference” and the “mutual interference” or the “only LTE degradation”, the first assistance information is set as X=0. In a case of the “LTE VoIP communication preference+LTE Data communication preference” and the “mutual interference” or the “only LTE degradation”, the first assistance information is set as X=1. In a case of the “only ISM degradation”, the first assistance information is not transmitted. 
         [0172]    The other configuration of the wireless terminal according to the fourth embodiment is the same as the configuration of the wireless terminal  70  of the second embodiment. The hardware configuration of the wireless terminal according to the fourth embodiment is the same as the hardware configuration of the wireless terminal  70  of the second embodiment. 
         [0173]    The operation relating to the wireless communication control unit  58  of the base station according to the fourth embodiment is different from that of the base station  50  of the second embodiment. 
         [0174]    In the fourth embodiment, the wireless communication control unit  58  performs a control operation of receiving the interference notification and the information for assisting in the control of the interference (first assistance information) from the wireless terminal  70  and transmitting the control information relating to the wireless communication to the wireless terminal  70 . When the information for assisting in the control of the interference is received, the wireless communication control unit  58 , for example, determines a wireless communication parameter. 
         [0175]    At that time, specifically, as illustrated in  FIG. 15B , in a case where first assistance information is set as X=0 (“LTE VoIP communication preference” and the “mutual interference” or the “only LTE degradation”), the base station  50  determines the wireless communication parameter so as to maintain the setting of the LTE VoIP when the LTE VoIP communication is being executed, and to lower the precedence of the other communication when the other communications are being executed at the same time. 
         [0176]    In a case where first assistance information is set as X=1 (“LTE VoIP communication preference+the LTE Data communication preference” and the “mutual interference” or the “only LTE degradation”), the base station  50  determines the wireless communication parameter so as to maintain the setting of the LTE VoIP when the LTE VoIP communication is being executed, and to increase the activation level of the LTE Data communication when the other communication when the other communications are being executed at the same time. 
         [0177]    When increasing the activation level of (when activating) the LTE communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX shorter or to increase the frequency of the scheduling. When decreasing the activation level of the LTE communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX longer or to decrease the frequency of the scheduling. 
         [0178]    For example, when the information indicating the interference level is included in the interference notification, the amount of the precedence to be lowered or the amount of the activation level to be increased may be determined according to the interference level. 
         [0179]    The other configuration of the base station according to the fourth embodiment is the same as the configuration of the base station  50  of the second embodiment. The hardware configuration of the base station according to the fourth embodiment is the same as the hardware configuration of the base station  50  of the second embodiment. 
         [0180]    Next, an operation of the wireless communication system of the fourth embodiment will be described. In the fourth embodiment, in the same manner as in S 23  of the second embodiment, the first assistance information is determined as illustrated in  FIGS. 15A and 15B , and is transmitted to the base station  50  with the interference notification. In the same manner as in S 25  of the second embodiment, when the first assistance information is received, the base station  50  determines the wireless communication parameter. In the same manner as in S 27  of the second embodiment, the wireless terminal  70  controls the communication based on the received wireless communication parameter. Accordingly, the interference is controlled so that the interference is decreased or avoided. As described above, since the interference control operation is started according to the first assistance information before the completion of the different frequency measurement, the interference control operation is rapidly executed and the communication performance is improved. 
         [0181]    By performing the communication control operation using the wireless communication parameter determined as described above, the activation level or the precedence of the preferred wireless communication or the wireless communication service is relatively increased. With such communication control operation, a difference occurs in the activation levels, and accordingly the interference is decreased or avoided and the communication performance is improved, at least regarding the preferred (precedent) communication of the wireless terminal  70 . 
         [0182]    As described above, according to the fourth embodiment, it is possible to control the interference in the wireless terminal and to improve the communication performance, with the wireless terminal executing the plurality of wireless communications. 
       Fifth Embodiment 
       [0183]    Next, a wireless communication system according to a fifth embodiment will be described. The entire configuration of the wireless communication system according to the fifth embodiment is the same as the configuration of the wireless communication system of the second embodiment. The operations relating to the determination of the first assistance information and the determination of the wireless communication parameter according to the first assistance information in the fifth embodiment are different from those of the second embodiment.  FIGS. 16A and 16B  are tables illustrating operation examples of the wireless communication system according to the fifth embodiment. In the following description, the wireless communication system has the same reference numerals, and the description thereof will be omitted. 
         [0184]    The operation relating to the first wireless communication control unit  75  of the wireless terminal according to the fifth embodiment is different from that of the wireless terminal  70  of the second embodiment. 
         [0185]    In the fifth embodiment, when the occurrence of the interference is detected, the first wireless communication control unit  75  determines the information for assisting in the control of the interference (first assistance information). The first wireless communication control unit  75  performs a control operation of transmitting the interference notification and the information for assisting in the control of the interference to the base station  50 . The information for assisting in the control of the interference, for example, includes information (preference information) indicating preference of the wireless terminal  70  regarding the plurality of wireless communications. At that time, in the same manner as in the third embodiment, the information associating the preference information and the occurrence pattern of the interference is transmitted as the first assistance information, so that the entire combination is divided. In addition, in the same manner as in the fourth embodiment, the preference information, for example, includes information indicating the precedence of a communication service among a plurality of the communication services, when any of the wireless communication of the plurality of the wireless communications has the plurality of the communication services. Specifically, the preference information, for example, includes information indicating the precedence of the communication performance of the wireless communication among a VoIP communication service and a data communication service in the LTE communication. For example, in a case of the LTE VoIP communication preference, the communication performance of the LTE VoIP communication is preceded, and in a case of the LTE VoIP communication preference+the LTE Data communication preference, the communication performance of both of the LTE VoIP communication and the LTE Data communication is preceded by the other communication. 
         [0186]    Specifically,  FIG. 16A  illustrates a setting example of the first assistance information and  FIG. 16B  illustrates a setting example of the wireless communication parameter based on the first assistance information in  FIG. 16A . In  FIGS. 16A and 16B , “mutual interference” indicates that the occurrence of the interference (degradation of the communication performance) is detected in both of the LTE communication and the ISM communication, “only LTE degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the LTE communication, and “only ISM degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the ISM communication. The “LTE VoIP communication preference” indicates preference of the wireless terminal  70  with respect to the VoIP communication service in the LTE communication (precedence of the communication performance of the LTE VoIP communication), and the “LTE VoIP communication preference+the LTE Data communication preference” indicates preference of the wireless terminal  70  with respect to both of the VoIP communication service and the data communication service in the LTE communication (precedence of both communication performances). 
         [0187]    In the example illustrated in  FIGS. 16A and 16B , six types of information items associating the preference information and the occurrence pattern of the interference are transmitted, as the first assistance information, by being added to the interference notification, as 3-bit control information. 
         [0188]    The other configuration of the wireless terminal according to the fifth embodiment is the same as the configuration of the wireless terminal  70  of the second embodiment. The hardware configuration of the wireless terminal according to the fifth embodiment is the same as the hardware configuration of the wireless terminal  70  of the second embodiment. 
         [0189]    The operation relating to the wireless communication control unit  58  of the base station according to the fifth embodiment is different from that of the base station  50  of the second embodiment. 
         [0190]    In the fifth embodiment, the wireless communication control unit  58  performs a control operation of receiving the interference notification and the information for assisting in the control of the interference (first assistance information) from the wireless terminal  70  and transmitting the control information relating to the wireless communication to the wireless terminal  70 . When the information for assisting in the control of the interference is received, the wireless communication control unit  58 , for example, determines a wireless communication parameter. 
         [0191]    At that time, specifically, as illustrated in  FIG. 16B , in a case where first assistance information is set as X=000 (“LTE VoIP communication preference” and the “mutual interference”), the base station  50  determines the wireless communication parameter so as to at least maintain the setting of the VoIP when the VoIP communication is being executed, and to at least maintain the current setting of the other communication or to lower the precedence of the other communication when the other communications are being executed at the same time. 
         [0192]    In a case where first assistance information is set as X=010 (“LTE VoIP communication preference” and the “only LTE degradation”), the base station  50  determines the wireless communication parameter so as to maintain the setting of the VoIP when the VoIP communication is being executed, and to lower the precedence of the other communication when the other communications are being executed at the same time. 
         [0193]    In a case where first assistance information is set as X=100 (“LTE VoIP communication preference” and the “only ISM degradation”), the base station  50  determines the wireless communication parameter so as to at least maintain the current setting, and to decrease the activation level of the LTE Data communication when the LTE Data communication is being executed. 
         [0194]    In a case where first assistance information is set as X=001 (“LTE VoIP communication preference+the LTE Data communication preference” and the “mutual interference”), the base station  50  determines the wireless communication parameter so as to maintain the setting of the VoIP when the VoIP communication is being executed, and to at least maintain the current setting of the LTE Data communication or to increase the activation level of the LTE Data communication when the other communication when the other communications are being executed at the same time. 
         [0195]    In a case where first assistance information is set as X=011 (“LTE VoIP communication preference+the LTE Data communication preference” and the “only LTE degradation”), the base station  50  determines the wireless communication parameter so as to maintain the setting of the VoIP when the VoIP communication is being executed, and to increase the activation level of the LTE Data communication when the other communication when the other communications are being executed at the same time. 
         [0196]    In a case where first assistance information is set as X=101 (“LTE VoIP communication preference+the LTE Data communication preference” and the “only ISM degradation”), the base station  50  determines the wireless communication parameter so as to at least maintain the current setting, and to decrease the activation level of the LTE Data communication when the LTE Data communication is being executed. 
         [0197]    When increasing the activation level of (when activating) the LTE communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX shorter or to increase the frequency of the scheduling. When decreasing the activation level of the LTE communication, the wireless communication parameter is, for example, set so as to set the cycle of the DRX longer or to decrease the frequency of the scheduling. 
         [0198]    For example, when the information indicating the interference level is included in the interference notification, whether to maintain the current setting or to change the activation level of the LTE communication may be determined according to the interference level. 
         [0199]    The other configuration of the base station according to the fifth embodiment is the same as the configuration of the base station  50  of the second embodiment. The hardware configuration of the base station according to the fifth embodiment is the same as the hardware configuration of the base station  50  of the second embodiment. 
         [0200]    Next, an operation of the wireless communication system of the fifth embodiment will be described. In the fifth embodiment, in the same manner as in S 23  of the second embodiment, the first assistance information is determined as illustrated in  FIGS. 16A and 16B , and is transmitted to the base station  50  with the interference notification. In the same manner as in S 25  of the second embodiment, when the first assistance information is received, the base station  50  determines the wireless communication parameter. In the same manner as in S 27  of the second embodiment, the wireless terminal  70  controls the communication based on the received wireless communication parameter. Accordingly, the interference is controlled so that the interference is decreased or avoided. As described above, since the interference control operation is started according to the first assistance information before the completion of the different frequency measurement, the interference control operation is rapidly executed and the communication performance is improved. 
         [0201]    By performing the communication control operation using the wireless communication parameter determined as described above, the activation level or the precedence of the preferred wireless communication or the wireless communication service is relatively increased. With such communication control operation, a difference occurs in the activation levels, and accordingly the interference is decreased or avoided and the communication performance is improved, at least regarding the preferred (precedent) communication of the wireless terminal  70 . 
         [0202]    At that time, since the six types of information items associating the preference information and the occurrence pattern of the interference are notified so as to be divided, it is possible to execute more detailed scheduling and determine a more appropriate wireless communication parameter, based on the six types of information items. 
         [0203]    As described above, according to the fifth embodiment, it is possible to control the interference in the wireless terminal and to improve the communication performance, with the wireless terminal executing the plurality of wireless communications. 
       Sixth Embodiment 
       [0204]    Next, a wireless communication system according to a sixth embodiment will be described. The entire configuration of the wireless communication system according to the sixth embodiment is the same as the configuration of the wireless communication system of the second embodiment. The operations relating to the determination of the first assistance information and the determination of the wireless communication parameter according to the first assistance information in the sixth embodiment are different from those of the second embodiment. The sixth embodiment is the combined operation of the third embodiment and the fifth embodiment.  FIGS. 17A and 17B  are tables illustrating operation examples of the wireless communication system according to the sixth embodiment. In the following description, the wireless communication system has the same reference numerals, and the description thereof will be omitted. 
         [0205]    The operation relating to the first wireless communication control unit  75  of the wireless terminal according to the sixth embodiment is different from that of the wireless terminal  70  of the second embodiment. 
         [0206]    In the sixth embodiment, when the occurrence of the interference is detected, the first wireless communication control unit  75  determines the information for assisting in the control of the interference (first assistance information). The first wireless communication control unit  75  performs a control operation of transmitting the interference notification and the information for assisting in the control of the interference to the base station  50 . The information for assisting in the control of the interference, for example, includes information (preference information) indicating preference of the wireless terminal  70  regarding the plurality of wireless communications. At that time, the information associating the preference information and the occurrence pattern of the interference is transmitted as the first assistance information, so that the entire combination is divided. In addition, in the same manner as in the fifth embodiment, the preference information, for example, includes information indicating the precedence of a communication service among a plurality of the communication services, when any of the wireless communication of the plurality of the wireless communications has the plurality of the communication services. Specifically, the preference information, for example, includes information indicating the precedence of the communication performance of the wireless communication among a VoIP communication service and a data communication service in the LTE communication. For example, in a case of the LTE VoIP communication preference, the communication performance of the LTE VoIP communication is preceded, and in a case of the LTE VoIP communication preference+the LTE Data communication preference, the communication performance of both of the LTE VoIP communication and the LTE Data communication is preceded by the other communication. 
         [0207]    Specifically,  FIG. 17S  illustrates a setting example of the first assistance information and  FIG. 17B  illustrates a setting example of the wireless communication parameter based on the first assistance information in (a). In  FIGS. 17A and 17B , “mutual interference” indicates that the occurrence of the interference (degradation of the communication performance) is detected in both of the LTE communication and the ISM communication, “only LTE degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the LTE communication, and “only ISM degradation” indicates that the occurrence of the interference (degradation of the communication performance) is detected in the ISM communication. The “LTE VoIP communication preference” indicates preference of the wireless terminal  70  with respect to the VoIP communication service in the LTE communication (precedence of the communication performance of the LTE VoIP communication), and the “LTE VoIP communication preference+the LTE Data communication preference” indicates preference of the wireless terminal  70  with respect to both of the VoIP communication service and the data communication service in the LTE communication (precedence of both communication performances). “ISM communication preference” indicates preference of the wireless terminal  70  with respect to the ISM communication (precedence of the communication performance of the ISM communication). 
         [0208]    In the example illustrated in  FIGS. 17A and 17B , nine types of information items associating the preference information and the occurrence pattern of the interference are transmitted, as the first assistance information, by being added to the interference notification, as 4-bit control information. 
         [0209]    The other configuration of the wireless terminal according to the sixth embodiment is the same as the configuration of the wireless terminal  70  of the second embodiment. The hardware configuration of the wireless terminal according to the sixth embodiment is the same as the hardware configuration of the wireless terminal  70  of the second embodiment. 
         [0210]    The operation relating to the wireless communication control unit  58  of the base station according to the sixth embodiment is different from that of the base station  50  of the second embodiment. 
         [0211]    In the sixth embodiment, the wireless communication control unit  58  performs a control operation of receiving the interference notification and the information for assisting in the control of the interference (first assistance information) from the wireless terminal  70  and transmitting the control information relating to the wireless communication to the wireless terminal  70 . When the information for assisting in the control of the interference is received, the wireless communication control unit  58 , for example, determines a wireless communication parameter. 
         [0212]    At that time, specifically, as illustrated in  FIG. 17B , the base station  50  determines the wireless communication parameter by the nine types of patterns corresponding to the first assistance information. 
         [0213]    The other configuration of the base station according to the sixth embodiment is the same as the configuration of the base station  50  of the second embodiment. The hardware configuration of the base station according to the sixth embodiment is the same as the hardware configuration of the base station  50  of the second embodiment. 
         [0214]    Next, an operation of the wireless communication system of the sixth embodiment will be described. In the sixth embodiment, in the same manner as in S 23  of the second embodiment, the first assistance information is determined as illustrated in  FIGS. 17A and 17B , and is transmitted to the base station  50  with the interference notification. In the same manner as in S 25  of the second embodiment, when the first assistance information is received, the base station  50  determines the wireless communication parameter. In the same manner as in S 27  of the second embodiment, the wireless terminal  70  controls the communication based on the received wireless communication parameter. Accordingly, the interference is controlled so that the interference is decreased or avoided. As described above, since the interference control operation is started according to the first assistance information before the completion of the different frequency measurement, the interference control operation is rapidly executed and the communication performance is improved. 
         [0215]    By performing the communication control operation using the wireless communication parameter determined as described above, the activation level or the precedence of the preferred wireless communication or the wireless communication service is relatively increased. With such communication control operation, a difference occurs in the activation levels, and accordingly the interference is decreased or avoided and the communication performance is improved, at least regarding the preferred (precedent) communication of the wireless terminal  70 . 
         [0216]    At that time, since the nine types of information items associating the preference information and the occurrence pattern of the interference are notified so as to be divided, it is possible to execute more detailed scheduling and determine a more appropriate wireless communication parameter, based on the nine types of information items. 
         [0217]    As described above, according to the sixth embodiment, it is possible to control the interference in the wireless terminal and to improve the communication performance, with the wireless terminal executing the plurality of wireless communications. 
       Seventh Embodiment 
       [0218]    Next, a wireless communication system according to a seventh embodiment will be described. The entire configuration of the wireless communication system according to the seventh embodiment is the same as the configuration of the wireless communication system of the second embodiment. The operations relating to the determination of the first assistance information and the determination of the wireless communication parameter according to the first assistance information in the seventh embodiment are different from those of the second embodiment.  FIGS. 18A and 18B  are tables illustrating operation examples of the wireless communication system according to the seventh embodiment. In the following description, the wireless communication system has the same reference numerals, and the description thereof will be omitted. 
         [0219]    The configuration of the wireless terminal according to the seventh embodiment is the same as the configuration of the wireless terminal  70  of the second embodiment. The hardware configuration of the wireless terminal according to the seventh embodiment is the same as the hardware configuration of the wireless terminal  70  of the second embodiment. 
         [0220]    The operation relating to the wireless communication control unit  58  of the base station according to the seventh embodiment is different from that of the base station  50  of the second embodiment. 
         [0221]    In the seventh embodiment, the wireless communication control unit  58  performs a control operation of receiving the interference notification and the information for assisting in the control of the interference (first assistance information) from the wireless terminal  70  and transmitting the control information relating to the wireless communication to the wireless terminal  70 . When the information for assisting in the control of the interference is received, the wireless communication control unit  58 , for example, determines a wireless communication parameter. 
         [0222]    Specifically, as illustrated in the  FIG. 18B , in a case where first assistance information is set as X=1 (“LTE communication preference” and the “mutual interference” or the “only LTE degradation”), the base station  50  determines the wireless communication parameter so as to increase the activation level of the LTE communication. When increasing the activation level of (when activating) the LTE communication, the wireless communication parameter is, for example, set so as to increase the frequency of the autonomous denial used in the autonomous denial method. 
         [0223]    In a case where first assistance information is set as X=0 (“ISM communication preference” and the “mutual interference” or the “only ISM degradation”), the base station  50  determines the wireless communication parameter so as to decrease the activation level of the LTE communication. When decreasing the activation level of the LTE communication, the wireless communication parameter is, for example, set so as to decrease the frequency of the autonomous denial used in the autonomous denial method. 
         [0224]    The other configuration of the base station according to the seventh embodiment is the same as the configuration of the base station  50  of the second embodiment. The hardware configuration of the base station according to the seventh embodiment is the same as the hardware configuration of the base station  50  of the second embodiment. 
         [0225]    Next, an operation of the wireless communication system of the seventh embodiment will be described. In the seventh embodiment, in the same manner as in S 23  of the second embodiment, the first assistance information is determined as illustrated in  FIGS. 14A and 14B , and is transmitted to the base station  50  with the interference notification. In the same manner as in S 25  of the second embodiment, when the first assistance information is received, the base station  50  determines the wireless communication parameter. In the same manner as in S 27  of the second embodiment, the wireless terminal  70  controls the communication based on the received wireless communication parameter. Accordingly, the interference is controlled so that the interference is decreased or avoided. As described above, since the interference control operation is started according to the first assistance information before the completion of the different frequency measurement, the interference control operation is rapidly executed and the communication performance is improved. 
         [0226]    By performing the communication control operation using the wireless communication parameter determined as described above, the activation level or the precedence of the preferred wireless communication or the wireless communication service is relatively increased. With such communication control operation, a difference occurs in the activation levels, and accordingly the interference is decreased or avoided and the communication performance is improved, at least regarding the preferred (precedent) communication of the wireless terminal  70 . Specifically, in a case of the preference of the wireless terminal  70  with respect to the LTE communication, the LTE communication is controlled so as to decrease the frequency of the autonomous denial, and accordingly, the activation level of the LTE communication increases. In a case of the preference of the wireless terminal  70  with respect to the ISM communication, the LTE communication is controlled so as to increase the frequency of the autonomous denial, and accordingly, the activation level of the LTE communication decreases and the activation level of the ISM communication relatively increases. With such communication control operation, a difference occurs in the activation levels, and accordingly the interference is decreased or avoided and the communication performance is improved, at least regarding the preferred (precedent) communication of the wireless terminal  70 . 
         [0227]    As described above, according to the seventh embodiment, it is possible to control the interference in the wireless terminal and to improve the communication performance, with the wireless terminal executing the plurality of wireless communications. 
         [0228]    In the seventh embodiment, according to the preference information, the frequency of the autonomous denial used in the autonomous denial method is determined as the wireless communication parameter in the base station  50  and is notified to the wireless terminal  70 , but, according to the preference information, the frequency of the autonomous denial used in the autonomous denial method may be determined by the wireless terminal  70  and the interference control operation may be performed using the determined frequency. 
         [0229]    In the seventh embodiment, in the same manner as in the second embodiment, when increasing the activation level of the LTE communication, the frequency of the autonomous denial used in the autonomous denial method is increased, and when decreasing the activation level of the LTE communication, the frequency of the autonomous denial used in the autonomous denial method is decreased. The frequency of the autonomous denial may be changed in the same manner as described above, in the third to sixth embodiments. 
         [0230]    The wireless communication systems of the first to seventh embodiments may be realized by an LTE system or an LTE-A system, for example. The wireless communication systems may also be applied to a wireless communication system using a communication method other than the LTE or the LTE-A. 
         [0231]    In the first to seventh embodiments, the wireless terminal may be applied to a mobile terminal such as a mobile phone, a smart phone, or a personal digital assistant (PDA). The first to fourth embodiments may be applied to various communication devices such as user equipment (UE), a mobile station, or a mobile-relay station which performs the communication with the base station. 
         [0232]    The base station of the first to seventh embodiments may be applied to base station with various scales such as a micro base station or a femto base station. In addition, the first to seventh embodiments may be applied to various communication devices such as a relay station which performs the communication with the wireless terminal. 
         [0233]    Specific embodiment of the dispersion and integration of the constituent elements of the base station and the wireless terminal is not limited to the first to seventh embodiments, and the embodiments may be configured functionally or physically dispersing and integrating an entirety or some thereof in an arbitrary unit, depending on various loads and used states. For example, the memory may be connected as an external device of the base station and the wireless terminal through a network or a cable. 
         [0234]    All examples and conditional language recited herein are intended for pedagogical purposes to aid the reader in understanding the invention and the concepts contributed by the inventor to furthering the art, and are to be construed as being without limitation to such specifically recited examples and conditions, nor does the organization of such examples in the specification relate to a showing of the superiority and inferiority of the invention. Although the embodiments of the present invention have been described in detail, it should be understood that the various changes, substitutions, and alterations could be made hereto without departing from the spirit and scope of the invention.