Abstract:
To provide a manipulation device for a gaming machine that creates realistic sensations by means of providing responding means operated in response to feedback from a gaming machine body, the responding means being provided on the side of the manipulation device for a gaming machine having a plurality of control buttons to be used for a video gaming machine.  
     In the manipulation device for a gaming machine that supplies manipulation data to the gaming machine body that are obtained as a result of the manipulation of the control buttons to get a game going by using bi-directional communication means that appropriately receives data from the gaming machine body, the manipulation device for a gaming machine comprises responding means that is activated in response to a specific responding signal supplied from the gaming machine body. Different control data can be supplied to a single or a plurality of responding means by providing, as dynamic transmission data to be supplied from the gaming machine body to the manipulation device for a gaming machine, an identification code region to specify the responding means and a plurality of control data regions for the responding means specified with the identification code.

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS  
         [0001]    The present application claims priority from Japanese Patent Application No. 2001-118795 filed Apr. 17, 2001, the disclosure of which is hereby incorporated by reference herein.  
         FIELD OF THE INVENTION  
         [0002]    The present invention relates to the protection of information by using wireless communication.  
         BACKGROUND OF THE INVENTION  
         [0003]    A huge number of magnetic stripe cards have been around in the market. Examples of such magnetic stripe cards include credit cards, cash cards, prepaid cards, employee ID cards, student ID cards, pass cards, cards used for credentialing purposes, library cards, and time cards. These cards are available for specific applications and purposes. People might be required to carry several cards when they go out. However, even a few or more cards may take up much space and, in addition, it may take some doing to pick up the right card when necessary.  
           [0004]    A partial solution to these problems is to integrate several cards into a single card whenever possible. For example, a combination of cash cards of banking facilities and credit cards has been in practical use as a debit card. An owner of the debit card can use it to purchase goods and services without carrying cash by simply inserting a debit card into a point-of-sale terminal and entering a personal identification number into the terminal.  
           [0005]    However, the owner is required to type the personal identification number into the terminal using a numeric keypad for all transactions. Enduring fear of leakage of the personal identification number is an obstacle to the wide acceptance of such cards. Besides, debit cards are susceptible to falsification if stolen or lost because the debit cards use a magnetic stripe to store information. In fact, a form of falsification called skimming is alarmingly increasing that is victimizing consumers whereby criminals copy the data on the magnetic stripe and use it to produce a counterfeit credit card.  
           [0006]    Against the backdrop of the current state of falsification and fraud of the magnetic stripe cards, many industries have embraced the shift from magnetic stripe cards to IC cards. As is well known in the art, IC cards are plastic cards with embedded IC chips. IC cards have the advantage of being harder to tamper with than magnetic stripe cards. They also have the advantage of being relatively easily used for the production of a multi-purpose card incorporating features of two or more cards, because IC cards can hold much more data than magnetic stripe cards.  
           [0007]    However, fraud or abuse of an IC card by a third party other than the owner results in significant loss or damage especially in the cards having both sensitive personal information and monetary values on their surface, as in conventional credit cards. On the other hand, some cards (e.g., prepaid cards) with monetary values but without the name of the person they belong to have few possibility that the card is returned to the owner if it is lost or stolen. Further, problems are concerned from the point of view of protecting owner privacy even without any monetary value of the cards (e.g., residence cards and health cards) carrying many sensitive personal information.  
           [0008]    With this respect, various attempts have been made to integrate a multi-purpose IC card into a mobile device such as a mobile phone, a personal handy-phone system (PHS), a personal digital assistant (PDA), and a notebook computer, to combine features of different IC cards into such a device, or to provide a mechanism that allows a card or cards to be integrated into a terminal device (e.g., to provide downloadable software programs on a given server that achieve features of an IC card when downloaded, or to use an appropriate proprietary chip for cards carrying such software programs), in which the terminal device is protected from unauthorized use. There are generally two types of IC cards: contact and contactless. Contact cards require insertion into a dedicated terminal (hereinafter, referred to as a “reader/writer”) to use the data recorded on the card. Contactless cards require no insertion. Instead, they require only proximity to a reader/writer. This suggests a system in which a mobile device is protected with a password so that features of the IC card(s) become available only when the password previously stored in the mobile device coincides or matches with the password that a user types in. However, this system involves a burden of typing the password in the mobile device whenever the features of the card(s) are used, which reduces the benefit of the contactless IC cards that requires users to just wave their card over a reader/writer. In addition, passwords are useless in tracking down the actual owner of the device. If the password leaks out for some reasons, a malicious user can access the mobile device using the illegally obtained password.  
           [0009]    Alternatively, mobile devices can be remotely controlled via ordinary telephone when it is lost and is in urgent need of the remote control. In other words, this is to prevent the illegal use of the mobile devices by using telephone keypad tones. However, the above method can be used only when an appropriate base station that supports remote operation is available, which makes the method insufficient to surely prevent the illegal use.  
           [0010]    The present invention was made in conjunction with the above-mentioned problems, and an object thereof is to provide an information protection system with which sensitive personal information and information associated with monetary values or credits can be consolidated, while surely preventing illegal use of such information by a third party.  
           [0011]    Another object of the present invention is to provide an information protection method for achieving the information protection system.  
         SUMMARY OF THE INVENTION  
         [0012]    An information protection system according to an aspect of the present invention is an information protection system comprising a first assembly in which protected information is stored and a second assembly in which authentication data are stored, wherein the second assembly comprises communication means that allows the second assembly to send information contactlessly in response to a request from the first assembly, and the first assembly comprises receiving means for receiving access to the protected information, authentication means for performing authentication in response to the reception of the authentication data from the second assembly, and access control means that enables or disables the access received by the receiving means, depending on the result of the authentication obtained by the authentication means.  
           [0013]    An information protection system according to another aspect of the present invention is an information protection system comprising a first assembly in which first authentication data and protected information are stored, the first authentication data being to be used for authenticating an owner thereof, a second assembly in which second authentication data are stored, the second authentication data being to be used for authenticating the owner, and an information reader for reading the protected information, wherein the first assembly comprises first communication means that allows the first assembly to exchange information contactlessly with the second assembly and the information reader, the second assembly comprises second communication means that allows the second assembly to exchange information contactlessly with the first assembly, and the information reader comprises third communication means that allows the information reader to exchange information contactlessly with the first assembly, the first assembly further comprising means for receiving the second authentication data from the second assembly in response to a signal from the information reader and performing authentication based on the received second authentication data and the first authentication data, thereby to permit or prohibit reading of the protected information by the information reader, depending on the result of the authentication.  
           [0014]    In the information protection system according to one aspect of the present invention, the authentication means may be provided in the second assembly, or in both the first and second assemblies. The first and second assemblies may be independently portable. Alternatively, these assemblies may be incorporated into a portable product or products.  
           [0015]    There is no limitations on the type of interface that the communication means uses for communication. For example, the communication means may be configured to carry out wireless communications by electromagnetic induction, wireless communications by electromagnetic coupling, wireless communications by electrostatic coupling, communications using frequencies in the microwave region, or communications that use light as a carrier.  
           [0016]    Each of the first and second assemblies may be provided as an IC module including an antenna for contactless communications.  
           [0017]    The first assembly may be embedded in a card-like material. Alternatively, it may be embedded in a sheet-like material. The first assembly may also be contained in a mobile or portable device. It may be contained in a data carrier.  
           [0018]    The second assembly is preferably implemented as what the owner of the first assembly always carries around. More preferably, the first assembly is implemented as what a third party can hardly steal of. For example, the first assembly may be embedded in an adornment or jewelry such as a finger ring.  
           [0019]    In another aspect of the present invention, the access control means enables the access to the protected information until a predetermined time period has elapsed from the reception of the access request, when the result of the authentication obtained by the authentication means indicates permission of the access.  
           [0020]    The first and second assemblies may be provided as an integrated circuit assembly. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0021]    [0021]FIG. 1 is a schematic block diagram of an information protection system according to an embodiment of the present invention;  
         [0022]    [0022]FIG. 2 is a flow chart that is carried out by a CPU  31  of an IC assembly  30  for authentication processing upon an access request to the IC assembly  30 ;  
         [0023]    [0023]FIG. 3 is an illustration of a multi-purpose mobile device  300  and an R badge  400 ;  
         [0024]    [0024]FIG. 4 is an illustration of an example where a reader/writer  50  for contactless IC cards is provided on an automatic ticket gate;  
         [0025]    [0025]FIG. 5 is a view illustrating a configuration of a mobile device having an RFID interface;  
         [0026]    [0026]FIG. 6 is a view illustrating a configuration of a mobile device having a plurality of RFID interfaces;  
         [0027]    [0027]FIG. 7 is a view illustrating a software configuration in the mobile device;  
         [0028]    [0028]FIG. 8 is a view illustrating a configuration of an IC card;  
         [0029]    [0029]FIG. 9 is a view illustrating a mechanism of exchanging data by electromagnetic induction;  
         [0030]    [0030]FIG. 10 is a flow chart illustrating operations to receive data;  
         [0031]    [0031]FIG. 11 is a flow chart illustrating operations to send data;  
         [0032]    [0032]FIG. 12 is a view illustrating a configuration of an individual information system;  
         [0033]    [0033]FIG. 13 is a view illustrating how individual information is stored in a mobile device;  
         [0034]    [0034]FIG. 14 is a flow chart illustrating operations of an individual information system;  
         [0035]    [0035]FIG. 15 is a view illustrating a configuration of a user identification system;  
         [0036]    [0036]FIG. 16 is a view of an example of a red badge;  
         [0037]    [0037]FIG. 17 is a view of an example of a red badge;  
         [0038]    [0038]FIG. 18 is a view of an example of a red badge;  
         [0039]    [0039]FIG. 19 is a view illustrating a configuration of an IC chip used in a red badge;  
         [0040]    [0040]FIG. 20 is a flow chart illustrating operations to register identification information;  
         [0041]    [0041]FIG. 21 is a flow chart illustrating operations to determine availability based on the identification information;  
         [0042]    [0042]FIG. 22 is a view of an example where a red badge is used for an individual information system;  
         [0043]    [0043]FIG. 23 is a view illustrating a configuration of a carriable recording element write-in system;  
         [0044]    [0044]FIG. 24 is a flow chart illustrating operations of a carriable recording element write-in system;  
         [0045]    [0045]FIG. 25 is a view of an example where a red badge is used for a carriable recording element write-in system;  
         [0046]    [0046]FIG. 26 is a view illustrating a first configuration of a management system;  
         [0047]    [0047]FIG. 27 is a view illustrating first operations of a log management system;  
         [0048]    [0048]FIG. 28 shows exemplified display screens of a mobile device;  
         [0049]    [0049]FIG. 29 is a view of an example where a red badge is used for a first log management system;  
         [0050]    [0050]FIG. 30 is a view illustrating a second configuration of a log management system;  
         [0051]    [0051]FIG. 31 is a view illustrating second operations of a log management system;  
         [0052]    [0052]FIG. 32 shows exemplified display screens of a mobile device;  
         [0053]    [0053]FIG. 33 is a view of an example where a red badge is used for a second log management system; and  
         [0054]    [0054]FIG. 34 is a view illustrating how data are exchanged between mobile devices. 
     
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS  
       [0055]    &lt;Schematic Configuration&gt; 
         [0056]    An embodiment of the present invention is described with reference to the drawings.  
         [0057]    [0057]FIG. 1 is a schematic block diagram of an information protection system according to an embodiment of the present invention. The information protection system comprises a first IC assembly  30  and a second IC assembly  40 . The first IC assembly comprises a central processing unit (CPU)  31 , a wireless communication interface unit  32 , a comparison data storage unit  33 , a trigger signal receiving unit  34 , and a protected information storage unit  35 . Likewise, the second IC assembly  40  comprises a CPU  41 , a wireless communication interface unit  42 , and a comparison data storage unit  43 . The first and second IC assemblies  30  and  40  each includes a read-only memory (ROM) or a random-access memory (RAM) which are not shown and which store application and control programs, an operating system (OS), and a device driver necessary for the corresponding assembly.  
         [0058]    The first IC assembly  30  and the second IC assembly  40  are configured so that they can exchange data with each other by using wireless communication. In this event, the term “wireless communication” as used herein generally refers to communication in a broad sense that is performed without physical electric contact of metal pads. Examples include wireless communications using electromagnetic coupling, electromagnetic induction, microwaves, or light as those used in conventional radio frequency identification systems (RFIDs). Further, communications based on transbody transmission of power and information, as disclosed in U.S. Pat. No. 6,211,799 (corresponding to Japanese Patent Laid-open No. 11-225119), are also encompassed by the term “wireless communication” herein.  
         [0059]    The CPU  31  controls the components of the first IC assembly  30 . The CPU  41  controls the components of the second IC assembly  40 . The wireless communication interface units  32  and  42  each has functions of both transmitting and receiving data. Each of the wireless communication interface units  32  and  42  comprises an antenna and a coil that are typically used for RFID technology for example, to exchange data with each other.  
         [0060]    Although RFID operates over a wide range of frequencies and communication protocols using different modulation technique, the present invention is not limited to a specific one. Any one of possible combinations may be used. There is no limitation on the number of the wireless communication interface units in the IC assembly. Different wireless communication interface units may be provided that operate using different modulation technique depending on the necessity. From a versatility standpoint, it is preferable to comply with the specification currently under standardization in the field of contactless IC cards. In Japan, the Next Generation IC Card System Study Group and Japan IC Card System Application Council are performing standardization. Besides, there are already established international standards, i.e., ISO/IEC 10536, ISO/IEC 14443, and ISO/IEC 15693. The wireless communication interface units  32  and  42  may provide a more versatile and feasible information protection system when they comply with such standards.  
         [0061]    The comparison data storage units  33  and  43  store data that are used to compare the first and second IC assemblies. Access to the protected information storage unit  35 , e.g., access to data or a program stored in the protected information storage unit  35  is permitted only when the comparison data satisfy a predetermined condition. The comparison data are those used to uniquely identify an owner of the IC assembly and details thereof are not specifically limited. For example, the comparison data may be a unique product code or product number for a CPU, a credit card number, a combination of such unique data or encrypted version of them. The protected information used herein may be any information or data that the owner of the IC assembly wants to protect and limit browsing or use by a third party, such as sensitive personal information and information associated with monetary values. Examples thereof include those recorded on conventional cards and equivalents thereof, such as credit cards, cash cards, prepaid cards, membership cards, clinical records and tickets, health insurance cards, ID cards, and season tickets, as well as electronic money, information associated with electronic business transactions, private directories and other documents, and image data.  
         [0062]    [0062]FIG. 2 shows a flow chart that is carried out by a CPU  31  of an IC assembly  30  for authentication processing upon an access request to the IC assembly  30 .  
         [0063]    The wireless communication interface unit  32  is connected to the trigger signal receiving unit  34  and receives a trigger signal which is described later. The CPU  31  determines that there is no access request to the IC assembly  30  when no trigger signal is received by the trigger signal receiving unit  34 . On the other hand, it determines that there is an access request when the trigger signal is received (S 11 ). When a trigger signal is detected, the CPU  30  sends a request signal to the second IC assembly  40  via the wireless communication interface  32 , to request the comparison data in response to the trigger signal (S 12 ). The second IC assembly  40  supplies the comparison data stored in the local comparison data storage unit  43  to the first IC assembly in response to the request signal. The CPU  31  determines whether the comparison data is received via the wireless communication interface  32  (S 13 ). When not received, access is denied (S 14 ). When the comparison data is received, the CPU  31  starts comparison between the comparison data received from the second IC assembly  40  and the comparison data stored in the comparison data storage unit  33  of the IC assembly  30  (S 15 ). In this example, the comparison is performed by a comparison unit  36 .  
         [0064]    It is then determined whether a predetermined condition is satisfied as a result of the comparison performed by the comparison unit  36 . In this example, it is determined whether the data received from the IC assembly  40  match IC comparison data (S 16 ). When matched, the CPU  31  permits the access (S 17 ) and extracts necessary information from the protected information storage unit. On the other hand, when the predetermined condition is not satisfied, the CPU  31  prohibits the access to the data stored in the protected information storage unit  35  (S 14 ).  
         [0065]    The storage units such as the comparison data storage units  33  and  43  and the protected information storage unit  35  may be implemented by using a recording element such as an IC chip. It should be noted that the comparison of the comparison data is performed in the first IC assembly  30  in the example shown in FIG. 1 but it may be performed in the second IC chip assembly  40 . In such a case, the second IC assembly  40  notifies the first IC assembly  30  of the result of the comparison using wireless communication after the comparison. The CPU  31  determines whether the access to the protected information storage unit  35  is permitted, depending on the result of the comparison. Alternatively, comparison units may be provided both in the first IC assembly  30  and the second IC assembly  40  to exchange different comparison data between them. Access to the protected information storage unit  35  may be permitted only when predetermined conditions are satisfied on both sides. The latter double-comparison ensures more positive protection of the data stored in the protected information storage unit  35 .  
         [0066]    The above-mentioned first and second IC assemblies may be manufactured by using a well-known semiconductor manufacturing technique. However, the present invention is not limited to semiconductor integrated circuits. For example, the first IC assembly and/or the second IC assembly may be produced by using an optoelectronic integrated circuit (OEIC) or a biochip. The IC assembly thus produced may be embedded in various objects as a small chip. For the purpose of the present invention, an IC assembly embedded in an object that the owner can have around, such as an adornment or clothes, is collectively referred to as an “R badge”. A combination of a mobile device with the sensitive personal information and information associated with monetary values incorporated therein is collectively referred to as a “multi-purpose mobile device”.  
         [0067]    Next, referring to FIG. 3, illustrated is an example where the first IC assembly is achieved as a multi-purpose mobile device  300  and the second IC assembly is achieved as an R badge  400 . The multi-purpose mobile device  300  comprises a switch  301 . When the owner of the device pushes the switch  301 , a trigger signal is generated. The trigger signal receiving unit  34  (FIG. 1) gives an instruction to the wireless communication interface unit  33  to start communication with the second IC assembly, in response to the reception of the trigger signal. Subsequent comparison operations are similar to those described in conjunction with FIG. 1. This makes it possible to compare the comparison data between the multi-purpose mobile device and the R badge and to make the multi-purpose mobile device available only when the result of the comparison satisfies a predetermined condition.  
         [0068]    [0068]FIG. 4 shows an example where an reader/writer  50  for contactless IC cards is provided on an automatic ticket gate and a signal (precharge signal) supplied from the reader/writer is used as the trigger signal. In this case, the signal supplied from the reader/writer is similar to signals used in well-known RFID systems. When a customer waves the multi-purpose mobile device  300  over the automatic ticket gate, the multi-purpose mobile device  300  begins communication with the R badge  400  in response to the precharge signal supplied from the reader/writer  50 . Subsequent comparison operations are similar to those described in conjunction with FIG. 1. This offers benefits to the customer, that is, the customer can pass through the gate only by waving the multi-purpose mobile device over the automatic ticket gate. A similar approach may be applied to other facilities and services than automatic ticket gates. Examples include ATMs inside banking facilities and pay telephones that involve transactions or transfer of credits.  
         [0069]    Access to the protected information may be permitted when it is made after the result of the comparison satisfies a predetermined condition but before the lapse of a predetermined time period. The access may be prohibited when the predetermined time period has elapsed. In such a case, a timer may be provided in either one or both of the IC assemblies  30  and  40  to determine whether the above-mentioned predetermined time period has elapsed. This approach makes the present invention feasible even when the distance between the IC assemblies  30  and  40  is longer than an operating distance range.  
         [0070]    An example is described where a railway ticket is integrated into the multi-purpose mobile device  300  to pass through an automatic ticket gate. In this example, it is assumed that the operating distance range between the multi-purpose mobile device  300  (IC assembly  30 ) and the IC assembly  40  is 10 cm. In a typical automatic ticket gate, a customer waves the multi-purpose device  300  over the reader/writer  50  on the automatic ticket gate for authentication while holding it on his or her hand. When the IC assembly  40  is mounted in, for example, a finger ring, the distance between the IC assembly in the multi-purpose device  300  and the finger ring is shorter than 10 cm. Thus, the authentication can be done without any trouble. However, when the IC assembly  40  is mounted in a hat or an earring, the distance between the IC assembly  30  and the IC assembly  40  is often longer than 10 cm. The distance prevents the customer from performing authentication.  
         [0071]    In such a case, the customer may move his or her hand with the multi-purpose mobile device  300  close to the hat or the earring to shorten the distance between the IC assembly  30  and the IC assembly  40  to be smaller than 10 cm, and then perform the authentication between the IC assembly  40  and the IC assembly  30 . For this purpose, in the example shown in FIG. 3, the customer pushes the switch  301  of the multi-purpose mobile device  300  with the multi-purpose mobile device  300  located in proximity to the hat or the earring to generate a trigger signal for authentication.  
         [0072]    In the example shown in FIG. 4, the data of a railway ticket on the mobile device  300  can be made available through authentication by moving the multi-purpose device  300  closer to an ear for authentication so that the distance between the device and the IC assembly  40  mounted in the hat or the earring becomes smaller than 10 cm, with the multi-purpose mobile device  300  located in a region in which it can respond to the precharge signal supplied from the reader/writer  50 . As apparent from the above, the timer allows a certain time lag and it is possible to adopt a communication technique that uses a small operating distance range even when the actual distance between the IC assembly  30  and IC assembly  40  is relatively long.  
         [0073]    The information on the mobile device may be backed up on a dedicated server or log files indicating specifications may be stored. With such a configuration, an owner can download the information when necessary to, for example, recover the state before the device is stolen.  
         [0074]    The owner may have options of using the IC card without any modification and of using it as a mobile device having a feature of the IC card. Further, a well-known GPS function may be provided in the IC assembly  30  so that the data stored in the protected information storage unit  35  can be protected more positively even if the IC assembly  30  is lost.  
         [0075]    Next, embodiments are described in detail where the present invention is applied to, for example, a device in conjunction with “First Embodiment” to “Seventh Embodiment”.  
         [0076]    The mobile device  10  in the first embodiment generally comprises a transponder unit  20  for sending out and receiving data using a wave-sensitive procedure, a memory  30  that is made up of a RAM or a ROM, and control unit  40  including a central processing unit (CPU), as shown in FIG. 5.  
         [0077]    By the wave-sensitive procedure, the term refers to a transmission procedure typically used in RFID systems to transmit data without electric connections. It uses electromagnetic coupling, electromagnetic induction, microwaves, or light.  
         [0078]    The mobile device  10  is a device such as a mobile phone, a personal handy-phone system (PHS), a personal digital assistant (PDA), or a notebook computer. An interface that performs data transmission using the wave-sensitive procedure is hereinafter referred to as an RFID interface.  
         [0079]    The control unit  40  is connected to the transponder unit  20  and the memory  30  to control the transponder unit  20  and the memory  30 .  
         [0080]    The transponder unit  20  integrates a sending unit (or a transmitter unit) and a receiver unit. It has functions of: reading data out of a recording element with an RFID interface through an antenna  22 ; writing data in the recording element; and sending out data to a reader with an RFID interface.  
         [0081]    The recording element may be an IC chip. The following description is made for the case where the recording element is an IC chip.  
         [0082]    The transponder unit  20  comprises a communication controlling unit  21  made up of a communication controlling IC or an equivalent thereof and the antenna  22 . The following description is made for the case where the communication controlling unit  21  is a communication controlling IC.  
         [0083]    The communication controlling IC  21  of the transponder unit  20  is connected to the control unit  40 . It sends out and read data through the antenna in response to a command to read data received from the control unit  40 .  
         [0084]    The memory  30  is connected to the control unit  40 . It comprises a region in which data are stored. It also comprises an operating system (OS), a control program such as a device driver used to control the communication controlling IC  21 , and application programs.  
         [0085]    RFID interfaces operate over a wide range of frequencies and communication protocols using different modulation technique. With this respect, corresponding communication controlling ICs  21  and antennas may be provided and two or more control programs such as device drivers used to control the communication controlling ICs  21  may be provided in the mobile device  10  to allow selection of them depending on the necessity, as shown in FIG. 6.  
         [0086]    From a standardization standpoint, it is preferable to use RFID interfaces that comply with ISO/IEC 10536 for the close-coupled type, ISO/IEC 14443 for the proximity type, and ISO/IEC 15693 for the vicinity type. It is preferable that the interface supports carrier frequencies of 125 kHz to 400 kHz, 4.9152 MHz, 13.56 MHz, or 2.45 GHz.  
         [0087]    Some pairs of RFID interfaces can transmit and receive data through a human body when a user wears one of the pair and holds the other on his or her hand. The interface may be provided with such features to transmit and receive data via something that can propagate or transmit data.  
         [0088]    The above-mentioned example is not a limitation. An RFID interface using other procedure or technique may be used when necessary.  
         [0089]    As shown in the block diagram in FIG. 7, the mobile device  10  comprises transponder units  20  for different RFID interfaces and device drivers (control programs)  31  for the RFID interfaces. Many application programs  33  can be run on a system management unit  32  comprising an operating system (OS) and others to achieve various different functions and features. The device may comprise a data storage unit  34  for storing data to be used by an application program  33 , when necessary.  
         [0090]    The application program  33  and the device driver  31  may be downloaded from a network such as the Internet to add a new function or update it.  
         [0091]    The IC card has functions that are similar to those of the above-mentioned RFID interface. As shown in FIG. 8, an IC chip  51  is connected to the antenna  22  in an IC card  50 .  
         [0092]    The IC chip  51  that serves as the recording element comprises the communication controlling IC  21 , the control unit  40  including a CPU, and the memory  30 . The chip transmits and receives data through the antenna  22 . The memory  30  is connected to the control unit  40 . It comprises a place where data is stored in a memory and software programs that control the communication controlling IC  21 . It may comprise an OS.  
         [0093]    Alternatively, the components that control communications may be achieved as an integrated circuit.  
         [0094]    The above-mentioned transponder unit  20  of the RFID interface may be integrated into any devices or machines which are not shown to provide the function of transmitting and receiving data using the RFID interface.  
         [0095]    Next, a mechanism of transmitting and receiving data by the transponder unit  20  is described specifically in conjunction with an example where the data is transmitted and received by using electromagnetic induction.  
         [0096]    As shown in FIG. 9, the transponder unit  20  is divided into a receiver unit  20 ′ and a sending unit (transmitter unit)  20 ″ for the purpose of description.  
         [0097]    In the receiver unit  20 ′, the communication controlling IC  21  comprises a read control unit  211  that begins to read data in response to a reading command from the control unit  40 , and a data receiver unit  212  that passes the received data to a control unit  40 ′.  
         [0098]    The read control unit  211  has a function of generating and sending out power pulses as a sending request through an antenna  22 ′ in response to the reception of the reading command from the control unit  40 ′. The data receiver unit  212  has a function of decoding the data to pass them to the control unit  40 ′ in response to the reception of the data supplied from the sending unit  20 ″ through the antenna  22 ′.  
         [0099]    The sending unit  20 ″ comprises a condenser unit  213  that accumulates electric charge by the electromagnetic induction, and a data transmitter unit  214  that transmits data.  
         [0100]    The condenser unit  213  has a function of accumulating electric charge in response to the reception of the power pulses supplied from the receiver unit  20 ′ as the sending request and received through an antenna  22 ″. The data transmitter unit  214  has a function of transmitting data through the antenna  22 ″ with the energy accumulated in the condenser unit  213  used as a power supply.  
         [0101]    The sending unit  20 ″ may be connected to a power supply. With such a configuration, the power pulses are used only as a reception signal and the condenser unit  213  may be omitted.  
         [0102]    The transponder unit  20  integrates features and functions of the receiver unit  20 ′ and the sending unit (transmitter unit)  20 ″.  
         [0103]    Operations of this embodiment are described with reference to a flow chart.  
         [0104]    More specifically, receiving operations of the mobile device  10  are described with reference to the flow chart shown in FIG. 10, in conjunction with a case where data are received from an IC card or a device having an RFID interface.  
         [0105]    First, the mobile device  10  is brought closer to the IC card or the device having the RFID interface. The range within which the IC card or the device having the RFID interface can communicate with the mobile device  10  depends on the type, i.e., the close-coupled type, the proximity type, the vicinity type. The close-coupled type, the proximity type, and the vicinity type are used for specific purposes. Data are transmitted and received using the device driver selected by the application program (S 100 ). When a reading system call is called by the application program to the device driver, the device driver supplies a reading command to the communication controlling IC  21  (S 101 ). The communication controlling IC  21  generates power pulses as the sending request through the antenna  22  ( 22 ′) via the read control unit  211  in response to the reception of the reading command.  
         [0106]    The IC card or the device receives the power pulses as the sending request. The electric current generated by the electromagnetic induction is accumulated in the condenser unit  213  (S 200 ). The power accumulated in the condenser unit  213  is used to send out data through the antenna  22 ″ (S 201 ).  
         [0107]    The mobile device  10  receives the data through the antenna  22  ( 22 ′) (S 103 ). The data decoded by the data receiver unit  212  are passed from the device driver to the application program.  
         [0108]    Sending operations of the mobile device  10  are described with reference to the flow chart shown in FIG. 11, in conjunction with a case where data are sent to an IC card or a device having an RFID interface.  
         [0109]    In the IC card or the device, when the reading command is supplied to the communication controlling IC  21  (S 210 ), the communication controlling IC  21  of the IC card or the device generates power pulses as the sending request through the antenna  22  ( 22 ′) via the read control unit  211  in response to the reception of the reading command (S 211 ).  
         [0110]    In response to the reception of the power pulses as the sending request (S 110 ), the mobile device  10  uses them as an interrupting signal to the CPU to send out the data through the antenna  22  ( 22 ″) (S 111 ). Alternatively, the electric current generated by the electromagnetic induction may be accumulated in the condenser unit  213  and the accumulated power in the condenser unit  213  may be used to send out the data.  
         [0111]    The IC card or the device receives the data through the antenna  22  ( 22 ′) (S 212 ).  
         [0112]    While the description is made in conjunction with the case where the transponder unit of the mobile device  10  has the functions of the receiver unit and the sending unit (transmitter unit), the transponder unit may have either the function of the receiver unit or the function of the sending unit (transmitter unit).  
         [0113]    The description is made for the electromagnetic induction, but a data receiving side may poll data as the sending request to receive the data.  
         [0114]    The transponder unit  20  may be configured as a unit (such as a card-type unit) that can be loaded into and unloaded from the mobile device  10 , on which different RFID interfaces may be mounted.  
         [0115]    Alternatively, the recording element may be achieved by using something other than a semiconductor to achieve functions that are similar to those of the IC chip.  
         [0116]    As described above, by using the mobile device  10  having the RFID interface, data can be exchanged with the IC card  50 . Likewise, data can be exchanged with other device having the RFID interface.  
         [0117]    It is possible to run an application program when the mobile device  10  reads specific data that are stored in the IC card  50  or the device. For example, the mobile device may connect to the Internet when it reads information in the IC card  50 . Alternatively, instructions may be displayed when information is read out of a device containing an RFID interface.  
         [0118]    In a second embodiment, an individual information system is described wherein the mobile device  10  integrates features of, for example, a commuter pass, a railway ticket, a credit card or a key (that are currently available by using an IC card). Described here is an example where features of cards, such as credit cards, are incorporated into the mobile device  10 . The components and parts that are similar to those in the above-mentioned embodiment are denoted by like reference numerals, and detailed description thereof will be omitted.  
         [0119]    Individual Information in Other Embodiments  
         [0120]    As shown in FIG. 12, a system  11  generally comprises the mobile device  10  and a receiver  60  in which the transponder unit  20 ′ (receiver unit) for the RFID interface is integrated.  
         [0121]    The receiver  60  comprises the transponder unit  20 ′ and the control unit  40 ′ and has a function of reading individual information out of the mobile device  10 . The mobile device  10  is brought closer to the receiver  60  to read the individual information. Therefore, it is preferable that the transponder unit  20 ′ used is the proximity type.  
         [0122]    As shown in FIG. 13, in the mobile device  10 , a piece of individual information  340  is stored in the data storage unit  34  on the memory  30 . Described is an example where information associated with a card is stored as the individual information  340 .  
         [0123]    The individual information  340  may include a number of pieces of information corresponding to different cards (e.g., A, B, and C in FIG. 13). Among them, a card to be used can be selected. Two or more application programs  33  may be provided to achieve functions and features of the respective cards.  
         [0124]    The following description is for the case where the individual information  340  is information associated with cards.  
         [0125]    Operations of this embodiment are described with reference to the flow chart shown in FIG. 14.  
         [0126]    A user selects a card to be used on the mobile device  10  (S 120 ) and brings the mobile device  10  closer to the receiver  60 . The receiver  60  supplies a reading command to the transponder unit  20  in response to the reception of an instruction to read card information  340  generated when, for example, the user depresses a reading switch on the receiver  60  (S 220 ). It supplies a sending request (e.g., power pulses) to the mobile device  10 , requesting the card information  340  (individual information) associated with the card that is designated by the transponder unit  20  (S 221 ).  
         [0127]    The mobile device  10  sends out the designated card information  340  in response to the reception of the sending request for the card information  340  (S 122 ). The receiver  60  continues processing when the card information  340  that it receives coincides with the requested card information (S 224 ). On the other hand, it is not the requested card information, then the operation is aborted and an error is returned (S 225 ).  
         [0128]    While the mobile device  10  in this embodiment integrates features of cards, it may have a feature or a function of a commuter pass or a railway ticket. In such a case, it is preferable that the transponder unit  20  of the receiver  60  is the proximity type in order to allow the transponder unit to read data out of a storage that is located slightly away from the transponder unit.  
         [0129]    Alternatively, the mobile device  10  may have a feature or function of a key. In such a case, it is preferable that the transponder unit  20  of the receiver  60  is vicinity type or the proximity type in order to allow the transponder unit to read data out of a storage that is located rather away from the transponder unit.  
         [0130]    The mobile device may have features or functions of electronic money, credit cards, membership cards, clinical records and tickets, health insurance cards, ID cards, or season tickets for entertainment facilities.  
         [0131]    The individual information  340  may use identification information that identifies each mobile device  10 .  
         [0132]    When the mobile device  10  is replaced with another mobile device in buying a new one for example, such replacement is informed through, for example, the Internet to a management company where the information about the electronic money, credit cards, or membership cards stored in the mobile device  10  is managed. The information may then be disabled on the old mobile device  10  and may be downloaded to the new mobile device  10 .  
         [0133]    As described above, many features and functions can be combined on the mobile device  10 .  
         [0134]    In a third embodiment, a user identification system is described wherein a user of the mobile device  10  is identified using an IC chip in which the identification information is stored. The components and parts that are similar to those in the above-mentioned embodiments are denoted by like reference numerals, and detailed description thereof will be omitted.  
         [0135]    An IC chip embedded in an object that the user can wear or have around is collectively referred to as a “red badge”.  
         [0136]    The user identification system  12  in the third embodiment generally comprises, as shown in FIG. 15, the mobile device  10  and a portable recording element in which the identification information is stored. The following description is for the case where the IC chip  51  and the antenna  22  are integrated with a red badge  70  as the portable recording element.  
         [0137]    The red badge  70  described herein contains the IC chip  51 . In the first mode of the red badge  70 , an ordinary finger ring or earring is used as the antenna  22  where the IC chip  51  is provided as shown in FIG. 16.  
         [0138]    In the second mode, as shown in FIG. 17, the IC chip  51  and the antenna  22  may be embedded in a tie-pin  61 . Alternatively, as shown in FIG. 18, the IC chip  51  and the antenna  22  may be embedded in a wearable product  62  such as a cuff button, a badge, a brooch, a pendant, or a contact lens.  
         [0139]    Alternatively, the IC chip  51  and the antenna  22  may be embedded in a wallet, a purse, or a pass holder. The IC chip  51  and the antenna  22  may be embedded in a product that a user can have around, such as a writing instrument or a cigar lighter.  
         [0140]    The above-mentioned examples are not intended to limit the present invention. The IC chip  51  may be embedded in or provided on various other products and things. The shape of the antenna  22  may be varied.  
         [0141]    As shown in FIG. 19, the IC chip  51  in the red badge  70  causes the identification information to be stored in an identification information storing unit  35  on the memory  30 . It is preferable that the identification information storing unit  35  is provided by using a non-rewritable recording element such as a ROM. An identification information  350  is allocated for a unique identification purpose. A unique identification information  350  may be written in each red badge  70  when during the production of the red badge.  
         [0142]    Considering the case where two or more red badges of third parties are near the mobile device  10 , it is preferable that the identification information  350  can be read only when the mobile device  10  is close to the red badge  70 . The expression “close” means that the mobile device  10  can communicate with the red badge  70  that the user wears or so.  
         [0143]    Taking the above-mentioned conditions into consideration, it is preferable to use an IC chip of the proximity type or the close-coupled type for the red badge  70 . It is desired that red badge  70  and the mobile device  10  can communicate with each other only within a range of several tens of centimeters or smaller.  
         [0144]    Next, operations of this embodiment are described with reference to a flow chart.  
         [0145]    More specifically, operations to register the identification information  350  are described with reference to the flow chart shown in FIG. 20. In the following description, the red badge  70  is also referred to as an R badge.  
         [0146]    A registration mode is selected to register the identification information  350  of the red badge  70  to the mobile device  10  (S 130 ). The registration mode is available only when proper personal identification numbers or biometrics (e.g., iris scan biometrics, voice verification biometrics, fingerprint scan biometrics) are received, in order to avoid registration by a third party. In the registration mode, a start-reading command is supplied from the control unit  40  to the communication controlling IC  21 . In response to this, a sending request (e.g., power pulses) is sent out through the antenna  22  to start to read information in the red badge  70  (S 131 ).  
         [0147]    A predetermined time interval t is set in a timer of the mobile device  10  (S 132 ). It is repeatedly checked whether the identification information  350  is received from the red badge  70  (S 133 ) until the time interval t elapses (S 134 ).  
         [0148]    When reception of the identification information  350  from the red badge  70  is not completed after the lapse of the time interval t, an error message is displayed on a display screen of the mobile device  10  (S 135 ). On the other hand, when the received identification information is the identification information that is already registered, an error message is displayed on the display screen of the mobile device  10  (S 135 ).  
         [0149]    When the received identification information  350  is not the identification information that is already registered, the identification information  350  is stored in the memory  30  of the mobile device  10  for registration.  
         [0150]    Operations to verify the identification information  350  of the red badge  70  near the mobile device  10  when the latter is used are described with reference to the flow chart shown in FIG. 21. A default mode 1 that is described with reference to the flow chart shown in FIG. 21 is released when the operation begins and the identification information  350  of the red badge  70  is read, which corresponds to the state where normal operation is not performed. On the other hand, release of a default mode 2 requires identification of the user based on, for example, personal identification numbers or biometrics, considering a possible mischief.  
         [0151]    The user of the mobile device  10  performs an initial operation such as key input to use the mobile device  10 . At the time of this initial operation, an interruption is supplied to the CPU of the control unit  40  (S 150 ). In response to the interruption, a start-reading command is supplied from the control unit  40  to the communication controlling IC  21 . The communication controlling IC  21  sends out a sending request through the antenna  22  to start to read, in response to the reception of the start-reading command.  
         [0152]    The control unit  40  sets a predetermined time interval t1 in a timer (S 151 ) and checks whether the identification information  350  supplied from the red badge  70  is received (S 152 ). It repeatedly checks whether the identification information  350  is received, until the lapse of the time interval t1 (S 153 ). When reception of the identification information  350  from the red badge  70  is not completed after the lapse of the time interval t1, the default mode 1 is set (S 162 ).  
         [0153]    On the other hand, when the reception of the identification information  350  is completed, the received identification information is compared with the identification information that is previously stored in the memory  30 . When there is a match, it is determined that the registered red badge  70  is located close to the mobile device  10 . Thus, the mobile device becomes available (S 154 ). On the other hand, when there is no match, the red badge  70  in question is not the registered one. When the number of the unregistered identification information received is smaller than a predetermined number, the default mode 1 is set (S 162 ). However, when the number of the unregistered identification information received is larger than the predetermined number, the default mode 2 is set (S 163 ).  
         [0154]    When the registered identification information is received (S 154 ), a predetermined time interval t2 is set in the timer (S 156 ). When no processing, such as making a phone call, receiving emails, or accessing the Internet, is performed (S 207 ) before the lapse of the time interval t2 (S 158 ), the default mode 1 is set (S 162 ).  
         [0155]    When the already-started processing, such as making a phone call, receiving emails, or accessing the Internet, is completed (S 157 ) before the lapse of the time interval t2 (S 158 ), a predetermined time interval t3 is set in the timer (S 159 ). When subsequent processing, such as making a phone call, receiving emails, or accessing the Internet, is started (S 160 ) before the lapse of the time interval t3 (S 161 ), the user can continue the processing without reading the information on the red badge  70 . The time interval t3 is activated each time when a single operation is finished (S 159 ). When a subsequent operation is not started within t3 (S 161 ), the default mode 1 is set (S 162 ).  
         [0156]    In the flow chart shown in FIG. 21, the identification information of the red badge  70  that is located near the mobile device is checked in response to the interruption generated as a result of an initial operation to use the mobile device  10 . The processing corresponding to the user&#39;s operations is performed in parallel with the interruption processing.  
         [0157]    In the default mode 2, the mobile device terminates its functions to perform a predetermined operation. For example, an alarm is issued by a beep or a ring tone at the maximum volume. Alternatively, a dial-locking may be used.  
         [0158]    The default mode is set before shipment of the mobile device  10 . However, users are allowed to choose and set operations for their specific applications. Users may modify the setting to ask a personal identification number each time when the mobile device  10  is used, depending on the security level.  
         [0159]    The identification information  350  described above is received in response to the interruption during the operation. However, the mobile device  10  may poll to receive the identification information  350  from the red badge  70  to periodically check the presence or absence of the red badge 3.  
         [0160]    As in a user identification system  12 ′ shown in FIG. 22, the mobile device  10  may integrate features and functions of a commuter pass, a railway ticket, a credit card, or a key, as described in the second embodiment, and the features and functions may be received by the receiver  60 . In such a case, the red badge  70  may be used to verify that the user of the mobile device  10  is a valid user.  
         [0161]    As described above, the availability of the mobile device  10  can be controlled by means of checking the identification information of the portable receiving element that is incorporated in the red badge. This allows only the proper user to use the device.  
         [0162]    In a fourth embodiment, a function of writing data in the recording element such as the IC chip in the mobile device  10  is described. The components and parts that are similar to those in the above-mentioned embodiments are denoted by like reference numerals, and detailed description thereof will be omitted.  
         [0163]    A carriable recording element write-in system  13  in the fourth embodiment generally comprises, as shown in FIG. 23, the mobile device  10  and the IC card  50  in which the recording element  51  and the antenna  22  are embedded. An example is described for the case where data is written in the IC card  50  in which the recording element  51  and the antenna  22  are embedded.  
         [0164]    The recording element  51  has the identification information  350  stored therein.  
         [0165]    Operations of this embodiment are described with reference to the flow chart shown in FIG. 24.  
         [0166]    The user of the mobile device  10  selects a writing mode. At the time of this selection, an interruption is supplied to the CPU of the control unit  40  (S 170 ). In response to the interruption, a start-reading command is supplied from the control unit  40  to the communication controlling IC  21 . The communication controlling IC  21  sends out a reading request (e.g., power pulses) through the antenna  22  in response to the reception of the start-reading command to start to read the registered identification information  350  to the IC card  50 .  
         [0167]    The control unit  40  of the mobile device  10  sets a predetermined time interval t1 in a timer (S 171 ). It checks whether the identification information  350  is received from the IC card  50  (S 172 ). The reception of the identification information  350  is repeatedly checked until the time interval t1 elapses (S 173 ). When the reception of the identification information  350  from the IC card  50  is not completed after the lapse of the time interval t1, then a message indicating that the card cannot be identified is displayed (S 180 ).  
         [0168]    When the reception of the identification information  350  is completed, the received identification information is compared with the identification information that is previously registered in the memory  30 . When there is a match (S 174 ), it is determined that the IC card is the registered IC card  50 . On the other hand, when there is no match (S 174 ), the IC card is not the registered IC card  50 . Therefore, a message indicating that nothing can be written in is displayed (S 181 ).  
         [0169]    For the registered IC card  50 , a write-in counter C is set (S 175 ). Then, writing operation (S 176 ) is carried out. When the writing operation is not finished correctly (S 177 ), the writing operation is again performed (S 176 ) until the write-in counter C is indicates  0  (S 178 ). When nothing can be written even after the write-in counter C indicates 0, a message indicating a writing failure is displayed (S 182 ).  
         [0170]    When the writing operation is finished without any problem, completion of the writing is displayed (S 179 ).  
         [0171]    As described above, in the mobile device  10  with the RFID interface, digital information such as received digital tickets can be written into the IC card  50 . Further, the cashing service may be used through the Internet by using the mobile device  10  and the amount of the credits may be written into the IC card  50 .  
         [0172]    As in a carriable recording element write-in system  13 ′ shown in FIG. 25, the red badge  70  may be used to verify that the user of the mobile device  10  is a valid user in writing data in the IC card  50 .  
         [0173]    This allows only the proper customer of the mobile device  10  to write data in the IC card  50 .  
         [0174]    In a fifth embodiment, a first log management system is described wherein log histories of the mobile device  10  and the IC card  50  are managed through a line such as the Internet. The components and parts that are similar to those in the above-mentioned embodiments are denoted by like reference numerals, and detailed description thereof will be omitted.  
         [0175]    A log management system  14  in the fifth embodiment comprises, as shown in FIG. 26, the mobile device  10 , a device  90  in which the recording element such as the IC card  50  and the transponder unit of the RFID interface are incorporated, and management server  100 , which are connected to each other via a communication line  110 . The communication line  110  may be connected to banking facilities  120  such as bank terminals or net banks.  
         [0176]    Each of the mobile device  10  and the recording element such as the IC card  50  stores non-rewritably the identification information  350  to identify them uniquely. The mobile device  10  comprises the transponder unit  20  of the RFID interface. It has a function to send out the identification information  350 . The mobile device  10  comprises a communication line transmitter unit  25 . It has a function of connecting to the Internet or other networks via a communication line.  
         [0177]    In this specification, the device  90  is exemplified as a vending machine in which the transponder unit of the RFID interface is incorporated. The device  90  can communicate with the mobile device  10  having the RFID interface and the IC card  50 . The device has a function of collecting costs by deducting the amount from a prepaid card or a cash card that is recorded on the mobile device  10  or the IC card  50 .  
         [0178]    The device  90  also comprises a server connection unit  80  that communicates with the management server  100  through the communication line  110 . Further, the device  90  has a device number  91  that is allocated to each device.  
         [0179]    The management server  100  comprises a management unit that receives the identification information  350  of the mobile device  10  and the IC card  50  along with the log information thereof through the communication line  110  and manages log information indicating the details about the log histories.  
         [0180]    The communication line  110  may be a leased line or the Internet. It is preferable that the communication line is a secure one from the reliability concern for the information management.  
         [0181]    Operations of this embodiment are described for the mobile device  10  with reference to the flow chart shown in FIG. 27 and the details on the display screen of the mobile device  10  shown in FIG. 28.  
         [0182]    In the mobile device  10 , a user chooses a prepaid card mode  1000  from a menu and then shifts to a purchasing mode  1001  and to a vending machine mode  1002  (S 300 ), as shown in the details on the display screen in FIG. 28. At this time, the identification information  350  is supplied from the RFID interface of the mobile device  10  to the vending machine  90 . In response to this, a display screen  1003  indicating that the vending machine is under identity authentication is displayed on the mobile device  10  (S 301 ). The vending machine  90  and the mobile device  10  communicate with each other through the RFID interfaces.  
         [0183]    The vending machine  90  supplies the identification information  350  of the mobile device  10  and the device number  91  of the vending machine  90  to the management server  100  by the server connection unit  80  in response to the reception of the identification information  350 . Thus, the vending machine checks the remaining credits and compares the received information with a blacklist (S 400 ). The management server  100  checks personal data of the owner of the mobile device  10  based on the identification number  350 . Then, it checks out the blacklist (S 500 ).  
         [0184]    Alternatively, a blacklist may be supplied to and stored in the vending machine  90 . The vending machine  90  may then check out the blacklist. This reduces the time required for the communication with the management server  100 , enhancing the convenience.  
         [0185]    In the following description, the vending machine  90  and the management server  100  communicate with each other through the server connection unit  80 .  
         [0186]    In the vending machine  90 , when the result of the check obtained by the management server  100  indicates that there is a problem in the personal data or the blacklist (S 400 ), the vending machine supplies a message to the mobile device  10  indicating that transaction is not disabled. The mobile device  10  displays a display screen  1007  indicating that the vending machine is not available (S 302 ).  
         [0187]    When there is no problem in the personal data and the blacklist (S 400 ), the vending machine supplies a message indicating that the transaction is enabled to the mobile device  10 . The mobile device  10  displays a display screen  1004  to allow the user to choose an item (S 303 ).  
         [0188]    When an item is selected on the vending machine  90  (S 401 ), debit data for the costs, or price, of the item(s) are supplied from the vending machine  90  to the mobile device  10  (S 402 ). In the mobile device  10 , the costs are deducted and a processing display screen  1005  is displayed (S 304 ). When the costs cannot be deducted correctly from the mobile device  10  (S 402 ), a “no good” indication is supplied as the log information from the vending machine  90  to the management server  100 . Then, the personal data or the blacklist is updated (S 501 ).  
         [0189]    When the costs are deducted without any problem from the mobile device  10  (S 402 ) but the item is not dispensed correctly (S 403 ) in the vending machine  90 , a “no good” indication is supplied as the log information from the vending machine  90  to the management server  100 . The device number  91  of the troubled vending machine  90  is recorded (S 502 ).  
         [0190]    When the costs are deducted from the mobile device  10  (S 402 ) and the item is dispensed without any problem (S 403 ), the end of transaction is notified from the vending machine  90  to the mobile device  10 . The mobile device  10  displays the remaining credits, or the balance, on a display screen  1006  (S 305 ). Purchase information is supplied from the vending machine  90  to the management server  100  as the log information and is recorded as a history (S 503 ).  
         [0191]    While the description is made for the mobile device  10 , similar operations can be applied to the IC card  50 .  
         [0192]    When an item is not dispensed correctly from the vending machine  90 , the costs may be refunded when the user connects to the management server  100  using the communication line transmitter unit  25  of the mobile device  10  through the communication line  110  and identifies which vending machine  90  he or she used, based on the device number  91 , from the identification number  350  of the mobile device  10  and the log information associated with the vending machine  90 .  
         [0193]    It is also possible to receive the device number  91  of the vending machine  90  through the transponder unit  20  of the RFID interface of the mobile device  10 , and to send the log information, the identification information  350  of the mobile device  10 , and the device number  91 , from the communication line transmitter unit  25  of the mobile device  10  to the management server  100  through the communication line  110 .  
         [0194]    The description is made for the case where the mobile device  10  is used as a prepaid card. However, similar operations can be applied when the mobile device  10  is used as a cash card, a debit card, a reward card, a smart card, or a credit card.  
         [0195]    It is preferable by the security considerations that the information is encrypted before sent out to the management server.  
         [0196]    As described above, it is possible to keep the log histories of the mobile device  10  by managing combinations of the identification information  350  uniquely allocated to the mobile device  10  and the log information.  
         [0197]    The mobile device  10  may exploit features of the global positioning system (GPS). With such a configuration, a highly accurate position of the mobile device  10  can be obtained by means of the position information. The information may be compared with the device number  91  to prevent illegal use of the device.  
         [0198]    In addition, the mobile device  10  may be used as in a log management system  14 ′ shown in FIG. 29. In such a case, the red badge  70  may be used to verify that the user of the mobile device  10  is a valid user as described in the third embodiment.  
         [0199]    This allows only the proper customer of the mobile device  10  to use the mobile device  10 .  
         [0200]    In a sixth embodiment, a second log management system is described wherein features of a cash card or a prepaid card are registered to the mobile device  10  or the IC card  50  using a line such as the Internet. The components and parts that are similar to those in the above-mentioned embodiments are denoted by like reference numerals, and detailed description thereof will be omitted.  
         [0201]    A log management system  15  in the sixth embodiment comprises, as shown in FIG. 30, the mobile device  10 , a device  90 ′ in which the IC card  50  and the transponder unit  20  of the RFID interface are incorporated, and management server  100 , which are connected to each other via a communication line  110 . The communication line  110  is connected to banking facilities  120  such as bank terminals or net banks.  
         [0202]    The device  90 ′ herein is a prepaid vending machine  90 ′ having the transponder unit  20  of the RFID interface. The remaining credits, or the balance, of a prepaid card recorded on the mobile device  10  or the IC card  50  is updated. The device  90 ′ has a device number  91  that is allocated to each device.  
         [0203]    Operations of this embodiment are described with reference to the flow chart shown in FIG. 31 and the details on the display screen of the mobile device  10  shown in FIG. 32.  
         [0204]    In the mobile device  10 , a user chooses a prepaid card mode  1100  from a menu and then shifts to a credit addition mode  1101  (S 310 ), as shown in the details on the display screen in FIG. 32. At this time, the identification information  350  is supplied from the mobile device  10  to the prepaid vending machine  90 ′ through the RFID interface. In response to this, a display screen  1102  indicating that the vending machine is under identity authentication is displayed on the mobile device  10  (S 311 ).  
         [0205]    The prepaid vending machine  90 ′ supplies the identification information  350  of the mobile device  10  to the management server  100  by the server connection unit  80  in response to the reception of the identification information  350 . Thus, the vending machine checks the remaining credits and compares the received information with a blacklist (S 410 ). The management server  100  checks personal data of the owner of the mobile device  10  based on the identification number  350 . Then, it checks out the blacklist (S 510 ). In the following description, the prepaid vending machine  90 ′ and the management server  100  communicate with each other through the server connection unit  80 .  
         [0206]    In the prepaid vending machine  90 ′, when there is a problem in the personal data or the blacklist (S 410 ), the vending machine supplies a message to the mobile device  10  indicating that no credit can be added. The mobile device  10  displays a display screen  1106  indicating that the credit cannot be added (S 312 ).  
         [0207]    When there is no problem in the personal data and the blacklist (S 410 ), the vending machine supplies a message indicating that the transaction is enabled to the mobile device  10 . The mobile device  10  displays a display screen  1103  to allow the user to choose the amount to be added (S 313 ). In the prepaid vending machine  90 ′, when the amount to be added is determined (S 411 ), the data corresponding to that amount are supplied to the mobile device  10  (S 412 ).  
         [0208]    It is checked that a bank account balance in a banking facility  120  is big enough to support the designated amount (S 412 ). If it is not, a message indicating insufficient funds is supplied to the mobile device  10  to display an error display screen  1107  indicating the insufficient funds (S 314 ). When the bank account balance is big enough, the amount is added and a processing display screen  1104  is displayed (S 315 ). When the addition cannot be made correctly from the mobile device  10  (S 413 ), a “no good” indication is supplied as the log information to the management server  100 . Then, an error is recorded on the personal data (S 511 ). The mobile device  10  displays an error display screen  1008  indicating that addition is aborted (S 316 ).  
         [0209]    When the addition is performed without any problem from the mobile device  10  (S 413 ), the balance is displayed on the display screen  1108  of the mobile device  10  (S 317 ). Addition information and the device number  91  of the prepaid vending machine  90 ′ are supplied to the management server  100  as the log information and are recorded as a history (S 512 ).  
         [0210]    The above-mentioned description is for the case where the credits are added to the mobile device  10  by means of deducting the corresponding amount from the bank account balance in a banking facility  120  such as a bank. However, cash may be thrown into the prepaid vending machine  90 ′ to add the credits to the mobile device  10 .  
         [0211]    The vending machine  90  may be used as the prepaid card vending machine  90 ′.  
         [0212]    The description is made for the case where the mobile device  10  is used as a prepaid card. However, similar operations can be applied when the mobile device is used as a cash card, a debit card, a credit card, a membership card, clinical records and tickets, a health insurance card, an ID card, or a season ticket for entertainment facilities.  
         [0213]    In this embodiment, the purpose-oriented machine  90 ′ having the RFID interface is used as an example. However, the amount may be deducted directly from a bank account in a banking facility  120  through the communication line  110  to add the credits to the mobile device  10 . The identification information  350  of the mobile device  10  and the log information may be supplied to the management server  100 .  
         [0214]    Interconnection with credit card companies through the communication line  110  may be used to add features of a credit card to the mobile device  10 .  
         [0215]    As described above, it is possible to combine the mobile device  10  with features of, for example, different cards. All log histories stored in the mobile device  10  can be managed by using the identification number  350 .  
         [0216]    In addition, credits may be added to the mobile device  10  as in a log management system  15 ′ shown in FIG. 33. In such a case, the red badge  70  may be used to verify that the user of the mobile device  10  is a valid user as described in the third embodiment.  
         [0217]    This allows only the proper customer of the mobile device  10  to add credits to the mobile device  10 .  
         [0218]    In a seventh embodiment, communication between the mobile devices  10  each having the RFID interface is described. The components and parts that are similar to those in the above-mentioned embodiments are denoted by like reference numerals, and detailed description thereof will be omitted.  
         [0219]    As shown in FIG. 34, it is possible to perform communication using RFID interface when the mobile device  10  is close to another mobile device  10 . With this configuration, digital information may be transferred to a receiving mobile device  10 , such as digital money, “chaku mero” indicating cellular phone ring melodies or programs to get various melodies, or “machiuke gamen” indicating a standby screen that shows by default when no other activity is going on.  
         [0220]    As described above, according to the present invention, sensitive personal information can be registered on a mobile device, such as the one associated with commuter passes, credit cards, driver&#39;s licenses.  
         [0221]    Log histories of a mobile device can be obtained positively and reliably based on identification information that is uniquely allocated to each mobile device. This prevents abuse of the device.  
         [0222]    Even in case where the mobile device is passed into a malicious third party&#39;s possession, he or she cannot use the device for the wrong purposes unless he or she obtain the corresponding red badge (IC chip).  
         [0223]    This prevents the owner from paying for something that he or she didn&#39;t buy.  
         [0224]    Alternatively, leakage of the personal data on the mobile device can be avoided.  
         [0225]    The mobile device can communicate with a contactless IC chip. This means that the IC card can be identified from the mobile device. Re-writing can be made to provide an RFID system easily.