Patent Document

CROSS-REFERENCE 
     This application is the U.S. National Phase under 35 U.S.C. §371 of International Application No. PCT/JP2013/065772, filed Jun. 7, 2013, to which the entire contents are hereby incorporated by reference. 
     TECHNICAL FIELD 
     The present invention relates to a terminal device and a remote control method. 
     BACKGROUND ART 
     Japanese Patent Application Publication No. 2008-306667 (Patent Literature 1) is the background art of the present technical field. This publication discloses the following problem. “There is provided an information communication terminal which functions as a remote controller of other equipment in an available range.” 
     A solution to this problem is disclosed as follows. “When TVs  3 A and  3 B as operation target devices are registered, a cellular phone  1  stores information regarding equipment and also information related to positions P 1  and P 2  at the time of registration operation. The cellular phone  1  acquires the present location at a predetermined timing. When the present location shifts from the position P 1  registered in relation to the TV  3  to an area B in a predetermined range, it displays an icon (equipment C) for activating an application for a remote control mode of the TV  3 .” 
     CITATION LIST 
     Patent Literature 
     Patent Literature 1: Japanese Patent Application Publication No. 2008-306667 
     SUMMARY OF INVENTION 
     Technical Problem 
     The above-described Patent Literature 1 discloses the following effect. “According to the present invention, the information communication terminal can be controlled to function as a remote controller for a target device in an operation available range, with a simple configuration without requiring a complicated operation or transmission/reception of a large amount of information.” 
     However, there is a problem. If the operation available range is made narrow, nearby equipment can easily be selected, while distant equipment cannot easily be selected. If the operation available range is made wide, distant equipment can easily be selected, while nearby equipment cannot easily be selected. 
     It is accordingly an object of the present invention to provide an easy-to-use terminal device and a remote control method. 
     Solution to Problem 
     To solve the above problem, adopted is, for example, a configuration described in the scope of claims. 
     The present application includes a plurality of means for solving the above problem, and an example thereof is a terminal device having a remote control function for electric equipment. The terminal device may include a location information detection means for acquiring a present location of the terminal device, a storage means for storing location information of the electric equipment, a distance calculation means for calculating a distance between the terminal device and the electric equipment, from location information of the terminal device which is acquired by the location information detection means and the location information of the electric equipment which is stored in the storage means, and a switching means for performing switching in accordance with whether the electric equipment is a target device to be operated, based on the distance calculated by the distance calculation means. 
     Advantageous Effects of Invention 
     According to the present invention, the electric equipment can be controlled by an easy operation. 
     Any matters, configurations, and effects other than the above will be apparent from the descriptions of the following embodiments. 
    
    
     
       BRIEF DESCRIPTION OF DRAWINGS 
         FIG. 1  is a diagram illustrating a configuration of a remote control system according to a first embodiment. 
         FIG. 2  is a hardware configuration diagram of a terminal device of the first embodiment. 
         FIG. 3  is a flowchart for explaining a process for registering electric equipment of the first embodiment. 
         FIG. 4  is a flowchart for explaining a process for registering the electric equipment of the first embodiment. 
         FIG. 5  is a flowchart for explaining a process for registering the electric equipment of the first embodiment. 
         FIG. 6  is a flowchart for explaining a process for selecting electric equipment of the first embodiment. 
         FIGS. 7A-7B  are display examples of a liquid crystal panel of the terminal device of the first embodiment. 
         FIG. 8  is a diagram illustrating the position of a case of the terminal device of the first embodiment. 
         FIG. 9  is a display example of the liquid crystal panel of the terminal device of the first embodiment. 
         FIG. 10  is a layout diagram of a room layout and electric equipment of the first embodiment. 
         FIGS. 11A-11D  are display examples of a liquid crystal panel of the terminal device of the first embodiment. 
         FIG. 12  is a flowchart for explaining a process for selecting electric equipment of a second embodiment. 
         FIG. 13  is a diagram illustrating a position of a case of a terminal device of the second embodiment. 
         FIGS. 14A-14D  are display examples of a liquid crystal panel of a terminal device of the second embodiment. 
         FIG. 15  is a layout diagram of a room layout and the electric equipment of the second embodiment. 
         FIG. 16  is a flowchart for explaining a process for selecting electric equipment of a third embodiment. 
         FIGS. 17A-17D  are display examples of a liquid crystal panel of terminal device of the third embodiment. 
         FIGS. 18A-18D  are display examples of a liquid crystal panel of the terminal device of the third embodiment. 
         FIG. 19  is a layout diagram of a room layout and electric equipment of the third embodiment. 
         FIGS. 20A-20D  are display examples of a liquid crystal panel of a terminal device of a fourth embodiment. 
         FIG. 21  is a functional block diagram of the terminal device of the first embodiment. 
     
    
    
     DESCRIPTION OF EMBODIMENTS 
     Embodiments will hereinafter be described using drawings. 
     First Embodiment 
       FIG. 1  is a diagram illustrating a configuration of a remote control system of a first embodiment of the present invention. The remote control system of this embodiment includes at least one terminal device and plural pieces of electric equipment. 
     A terminal device  1  has a wireless communication function to transmit/receive various information to/from an Internet network. Further, it has a function for performing remote control for electric equipment  3 . A user can perform remote control for the electric equipment such as illumination equipment  3   a , an air conditioner  3   b , a video monitor  3   c , and a bathroom water heater  3   d , using the terminal device  1 . The illumination equipment and the air conditioner are described as examples of the electric equipment to be remotely controlled. However, any other equipment that can utilize electricity for at least a part of controls are possible, and electric locks, gas appliances, such as gas heaters or gas ranges, and automobiles are also possible. 
     Remote controllers  2  are control devices dedicated respectively to the electric equipment, and can perform remote control for the corresponding electric equipment with infrared radiation. The remote controller  2   a  is dedicated to the illumination equipment  3   a , the remote controller  2   b  is dedicated to the air conditioner  3   b , the remote controller  2   c  is dedicated to the video monitor  3   c , and the remote controller  2   d  is dedicated to the bathroom water heater  3   d.    
     The illumination equipment  3   a  can be set to ON/OFF, or its brightness is set, by the terminal device  1  or remote controller  2   a . The air conditioner  3   b  can be set to ON/OFF, a mode, or a temperature by the terminal device  1  or the remote controller  2   b . The video monitor  3   c  can be set to ON/OFF, a channel, or a sound volume by the terminal device  1  or the remote controller  2   c . The video monitor  3   c  can receive and display video contents, and receive, for example, a television signal wirelessly or by wire from a broadcast station, and display the video contents based on the television signal. It is also possible to display video contents, including Internet contents of a URL (Uniform Resource Locator) specified by a user, received from a network  5  through a wireless router  4 . The bathroom water heater  3   d  can be set to a hot water supply mode or a temperature. 
     The wireless router  4  includes a wireless LAN (Local Area Network) function, such as Wi-Fi (Wireless Fidelity), and can be connected to the network  5  through a communication line. The terminal device  1  or the video monitor  3   c  is connected to the wireless router  4  to acquire video contents or various information from an Internet network, and can display it. 
       FIG. 2  is a hardware configuration diagram of the terminal device  1  of  FIG. 1 . 
     The terminal device  1  may be a cellular phone or a tablet terminal, or may be PDA (Personal Digital Assistants) or a notebook PC (Personal Computer). The device may be a music player, a digital camera, a portable game player, or any other portable digital equipment, with a communication function. 
     Units of the terminal device  1  are controlled by a CPU (Central Processing Unit)  201 . The CPU  201  may be an arbitrary control circuit, or may be a dedicated circuit, such as an ASIC (Appreciation Specific IC), and controls the terminal device  1  entirely in accordance with a predetermined program. 
     A memory  202  is configured with a ROM (Read Only Memory), a RAM (Random Access Memory), or a flash ROM, and stores a program for controlling the terminal device  1  and various setting values. 
     A GPS (Global Positioning System) receiver  203  includes an antenna, a decoding circuit, and the like, and is a reception device of a global positioning system which receives radio waves from a satellite to detect the location of the terminal device  1  on the earth. 
     It is possible to enhance the location accuracy by a DGPS (Differential GPS) receiving a correction signal of a GPS satellite from a base station and compensating the GPS information. It is possible to further enhance the location accuracy by a QZSS (Quasi-Zenith Satellite System) receiving a correction signal from a geosynchronous orbit satellite and complementing/reinforcing the GPS information. It is also possible to seamlessly perform indoor/outdoor positioning by an IMES (Indoor MEssaging system) receiving a signal having compatibility with the GPS satellite from an indoor GPS transmitter and acquiring location information. 
     A geomagnetism sensor  204 , an acceleration sensor  205 , and a gyro sensor  206  are a group of sensors for detecting the position or movement of a case of the terminal device  1 . By this group of sensors, it is possible to detect the location, orientation, inclination, and movement of the terminal device  1 . Any other sensor may further be included. 
     An operation device  207  is, for example, a touch pad, accepts a user operation, and transmits an instruction based on the operation to the CPU  201 . 
     A display  208  is, for example, a liquid crystal panel, and displays various information. An integrated unit of a combination of a liquid crystal panel and a touch pad is generally called a touch panel, and this embodiment employs a usage example of a touch panel. 
     A video input device  209  is, for example, a camera, and converts light input from its lens into an electrical signal, thereby inputting image data of the surrounding or a target object. 
     An audio output device  210  is, for example, an amplifier and a speaker, and outputs various voices. 
     An audio input device  211  is, for example, a microphone, converts a user voice into voice data, and inputs it. 
     A near field communication device  212  performs near field wireless communication, for example, NFC (Near Field Communication), and can input/output various data. 
     A LAN communication device  213  can acquire various information from an Internet network through the wireless router  4 , using, for example, Wi-Fi. Remote control of the electric equipment  3  can be performed by transmitting/receiving a control command or status, to/from the electric equipment  3  through the wireless router  4 . The control command or status may be transmitted/received directly to/from the electric equipment  3  without through the wireless router  4 , using, for example, Wi-Fi Direct, Bluetooth (registered trademark), or the like. 
     The near field communication device  212  and the LAN communication device  213  include an antenna, an encoding circuit, and a decoding circuit. 
       FIG. 21  is a functional block diagram of the terminal device  1  of  FIG. 1 . The function blocks of the terminal device  1  operate, for example, on the CPU  201  included in the terminal device  1  illustrated in  FIG. 2 . 
     A control unit  2101  includes a distance calculation unit  2121 , an icon extraction unit  2122 , a display switching unit  2123 , and an application activation unit  2124 , controls a storage unit  2102 , a location information acquisition unit  2103 , a case position detection unit  2104 , a near field wireless communication unit  2112 , and a LAN communication unit  2113 , registers the electric equipment  3  before usage of the remote controller, selects the electric equipment  3  at the usage of the remote controller, and performs remote control, based on an instruction from a user interface unit  2108 . The user interface unit  2108  is, for example, the operation device  207 , the display  208 , the video input device  209 , the audio output device  210 , the audio input device  211 , or the like. 
     Before usage of the remote controller, the control unit  2101  acquires information necessary for remotely controlling the electric equipment  3 , and registers it in the storage unit  2102 . It acquires an identification signal, an icon, and a URL of a remote controller application of the electric equipment  3  through the near field wireless communication unit  2112 , and stores them in an identification signal list  2134  and an icon list  2132  of the storage unit  2102 . At the same time, the location information acquisition unit  2103  acquires location information of the electric equipment  3 , and stores it in a location information list  2131  of the storage unit  2102 . A remote controller application is acquired in accordance with the URL from the network  5  through the LAN communication unit  2113 , and is stored in an application list  2133  of the storage unit  2102 . 
     The remote controller application is application software for remotely controlling the electric equipment  3 . Plural pieces of electric equipment  3  may be registered in the lists of the storage unit  2102 . That is, location information, the icons, and remote controller applications are registered in relation to various identification information items. 
     At the usage of the remote controller, the control unit  2101  selects the electric equipment  3  to be remotely controlled, of the electric equipment registered in the storage unit  2102 . The location information acquisition unit  2103  acquires the location information while the distance calculation unit  2121  calculates the distances to the plural pieces of electric equipment  3  in the location information list  2131 . The icon extraction unit  2122  extracts icons of the electric equipment  3  in a preset predetermined distance A and icons of the electric equipment  3  in a preset predetermined distance B, from the icon list  2132 , based on the distances. The case position detection unit  2104  detects a position (direction) of a case of the terminal device  1  while the display switching unit  2123  switches outputs to be displayed on the user interface unit  2108  based on the position (direction) of the case. For example, when the case is in a vertical attitude, the icons of the electric equipment  3  in the predetermined distance A are displayed. When the case is in a horizontal attitude, the icons of the electric equipment  3  in the predetermined distance B are displayed. 
     Of the icons displayed on the user interface unit  2108 , the user selects an icon of desired electric equipment  3 , and the application activation unit  2124  activates the remote controller application corresponding to this icon in the application list  2133 . 
     Accordingly, the user can remotely control the desired electric equipment  3 .  FIG. 3  is a flowchart illustrating a process for registering electric equipment  3  by the terminal device  1  of the first embodiment of the present invention. For remote control of the electric equipment  3 , it is necessary to register this electric equipment  3 . In the present invention, the application software for calling the remote controller application is called a launcher application in order to distinguish it from the remote controller application. In the present invention, the remote controller application is to be registered and called with using the launcher application. In Step S 301 , in the terminal device  1 , the near field communication unit  2112  confirms whether the electric equipment  3  exists in a communication area of the near field wireless communication. When the electric equipment  3  exists in the communication area, the launcher application is activated, and the electric equipment is registered. 
     In Step S 302 , the identification information is confirmed. 
     In Step S 304 , the location information acquisition unit  2103  acquires the present location information. At present, the corresponding electric equipment  3  exists in the same location as that of the terminal device  1 . Thus, the acquired location information is location information of the corresponding electric equipment  3 . 
     In Step S 305 , the terminal device  1  acquires the remote controller application of the corresponding electric equipment  3 . The remote controller application may be acquired from an Internet network in accordance with the URL specified by the electric equipment  3 , or may be acquired directly from the electric equipment  3 . Further, product information may be acquired from the Internet network or the corresponding electric equipment  3 . 
     In Step S 306 , identification information of the electric equipment  3 , the remote controller application, the location information, and the product information are registered in the lists, and the process is ended. 
     When the electric equipment  3  exists in the communication area of the near field wireless communication, the remote controller application can also be activated. 
       FIG. 4  is a flowchart illustrating another example of a process for registering the electric equipment  3  by the terminal device  1  of the first embodiment of the present invention. In this process, a process for activating the remote controller application is added to the registration process of  FIG. 3 . 
     In Step S 401  to Step S 402 , the same procedures as those of Step S 301  to Step S 302  are performed, and thus will not be described again. 
     In Step S 403 , the terminal device  1  confirms whether the electric equipment  3  has already been registered in the list stored in a memory  202 . If the electric equipment  3  exists in the list, it has already been registered. If the electric equipment does not exist in the list, it has not been registered. When the electric equipment  3  has already been registered, the flow proceeds to Step S 408 . When it has not been registered, the flow proceeds to Step S 404 . 
     In Step S 404  to S 406 , the same procedures as those of Step S 304  to Step S 306  are performed. The present location information and the remote controller application are acquired. The identification information of the electric equipment  3 , the remote controller application, the location information, and the product information are registered in the lists. 
     The flow proceeds to Step S 408 , in which the terminal device  1  activates the remote controller application. In Step S 409 , the electric equipment  3  is remotely operated. Upon completion of the remote operation, the process is ended. 
     When the electric equipment  3  has already been registered in the list, confirmation is made as to whether the location information is the latest information. When the location shifts, the location information may be registered again. 
       FIG. 5  is a flowchart illustrating another example of a process for registering the electric equipment  3  by the terminal device  1  of the first embodiment of the present invention. In this process, a process for confirming whether the location information is the latest information is added to the registration process of  FIG. 3 . 
     In Step S 501  to Step S 502 , the same procedures as those of Step S 301  to Step S 302  are performed, and thus will not be described again. 
     In Step S 504 , the same procedure as that of Step S 304  is performed, and the present location information is acquired. 
     In Step S 503 , the terminal device  1  confirms whether the electric equipment  3  has already been registered in the list stored in the memory  202 . When the electric equipment  3  has already been registered in the list, the flow proceeds to Step S 507 . When the electric equipment  3  has not been registered, the flow proceeds to Step S 505 . 
     In Step S 505  to Step S 506 , the same procedures as those of Step S 305  to Step S 306  are performed, and a remote controller application of the electric equipment  3  is acquired. The identification information of the electric equipment  3 , the remote controller application, the location information, and the product information are registered in the lists. 
     In Step S 507 , the terminal device  1  confirms whether there is a coincidence between registered location information of the electric equipment  3  and the location information acquired in Step S 504 . When there is no coincidence therebetween, the flow proceeds to Step S 506 , in which the latest location information acquired in Step S 504  is registered again in the list. 
       FIG. 6  is a flowchart illustrating a process for selecting electric equipment  3  by the terminal device  1  of the first embodiment of the present invention. This flowchart illustrates a process for selecting a desired remote controller application with using the launcher application. 
     In Step S 601 , the terminal device  1  waits for a remote controller launcher activation button to be pressed by the user. For the remote controller launcher activation button, it is possible to assign, for example, a physical switch like a home button of the terminal device  1 , or to assign an icon on the touch panel. 
       FIGS. 7A-7B  are display examples of a touch panel of the terminal device  1 .  FIG. 7A  is an example of a home screen of the terminal device  1  which displays a “remote controller” launcher icon included in icons of various applications displayed on the touch panel. Touching this icon is equivalent to pressing on the remote controller launcher activation button. Only when the terminal device  1  is at home, the “remote controller” launcher icon is displayed, as illustrated in  FIG. 7A . When it is outside the home, the “remote controller” launcher icon is not displayed, as illustrated in  FIG. 7B . This will prevent the user from activating the launcher application by touching the “remote controller” launcher icon unintentionally outside the home. Whether the terminal device  1  is at home or outside the home can be confirmed in accordance with whether the terminal device  1  is inside the communication area of the wireless router  4 , or can be confirmed using the GPS or the like. 
     Upon pressing on the remote controller launcher activation button, the launcher application is activated, and the remote controller application is selected and activated. 
     The flow proceeds to Step S 602 , in which the location information acquisition unit  2103  acquires location information of the terminal device  1 . The acquired location information represents the present location information of the terminal device  1  at the timing of pressing on the remote controller launcher activation button. 
     In Step S 603 , a distance between the terminal device  1  and the electric equipment  3  is calculated. The distance between the terminal device  1  and the electric equipment  3  is obtained based on the location information of the registered electric equipment  3  and the present location information of the terminal device  1 . 
     In Step S 604 , the acceleration sensor  205  detects the gravitational acceleration, and the position (direction) of the case of the terminal device  1  is calculated. Inclination detection may also be performed using the gyro sensor  206 , or any other sensors. 
       FIG. 8  is a schematic diagram illustrating a position of the case of the terminal device  1 . A calculation is made as to whether the position of the case of the terminal device  1  is in a vertical attitude (the short side end of the case is nearer to the ground surface than the long side end) as illustrated in  FIG. 8( a ) , or it is in a horizontal attitude (the long side end of the case is nearer to the ground surface than the short side end) as illustrated in  FIG. 8( b ) . When the position of the case is calculated, there is no need to keep the case vertically. 
     In Step S 605 , the process is changed in accordance with whether the position of the case of the terminal device  1  is in a vertical attitude or a horizontal attitude. When it is in a vertical attitude, the flow proceeds to Step S 606 , in which only the electric equipment  3  in a preset predetermined distance A is displayed on the user interface unit  2108 . When it is in a horizontal attitude, the flow proceeds to Step S 607 , in which the electric equipment  3  in a preset predetermined distance B is displayed. Alternatively, the registered electric equipment may entirely be displayed. 
       FIG. 9  is a display example of a liquid crystal panel of the terminal device  1 .  FIG. 9( a )  is a display example of the liquid crystal panel when the position of the terminal device  1  is in a vertical attitude. The liquid crystal panel displays icons of illumination equipment, an air conditioner, and a video monitor, and shows that illumination equipment  3   a   1 , an air conditioner  3   b   1 , and a video monitor  3   c   1  exist in a predetermined distance A. Touching any of these icons activates the remote controller application of desired electric equipment  3 , thereby enabling to remotely control the desired electric equipment  3 . 
       FIG. 9( b )  is a display example of a liquid crystal panel, when the position of the terminal device  1  is in a horizontal attitude. The liquid crystal panel displays icons of plural pieces of electric equipment  3 . The pieces of electric equipment  3  existing in the predetermined distance A are displayed on the left end, and the pieces of electric equipment  3  existing in the predetermined distance are displayed side by side sequentially in an order away therefrom. The pieces of electric equipment  3  near to each other are displayed and arranged in a vertical manner. 
     In the illustration, the illumination equipment  3   a   1 , the air conditioner  3   b   1 , and the video monitor  3   c   1  exist in the predetermined distance A, and illumination equipment  3   a   2 , an air conditioner  3   b   2 , an air conditioner  3   b   3 , and a bathroom water heater  3   d   1  exist in positions beyond the predetermined distance A. When plural pieces of illumination equipment  3   a  and air conditioners  3   b  exist, the description is made like the illumination equipment  3   a   1 ,  3   a   2 ,  3   a   3 , and the air conditioners  3   a   1 ,  3   a   2 ,  3   a   3 , 
       FIG. 10  illustrates a room layout and an arrangement example of electric equipment  3 . The electric equipment  3  is arranged in a plurality of rooms. The electric equipment  3  is selected by the terminal device  1  for a remote controller operation. 
     In a room where the terminal device  1  exists, the illumination equipment  3   a   1 , the air conditioner  3   b   1 , and the video monitor  3   c   1  are provided. They are located in a predetermined distance A. In another room, the illumination equipment  3   a   2  and the air conditioner  3   b   2  are arranged. In still another room, the illumination equipment  3   a   3  and the bathroom water heater  3   d   1  are arranged. They are located in a predetermined distance B. 
     In Step S 608 , if the user has selected electric equipment  3  to be remotely operated, the flow proceeds to Step S 609 . If no selection has been made, the flow returns to Step S 602 , and continues the procedures. 
     In Step S 609 , the remote controller application corresponding to the selected electric equipment  3  is activated. At this time, information about the electric equipment  3  is given to the activated remote controller application, as needed. For example, the remote controller application corresponding to plural pieces of electric equipment  3  may require some kind of specifications of the electric equipment at the activation. 
     In Step S 610 , the user performs a remote controller operation of the electric equipment  3 . Upon completion of the remote controller operation, the process is ended. 
       FIGS. 11A-11D  are display examples of a liquid crystal panel when the remote controller application of the selected electric equipment  3  is activated.  FIG. 11A  is a display example of the liquid crystal panel, when a remote controller application of the illumination equipment  3   a  is activated.  FIG. 11B  is a display example of the liquid crystal panel, when a remote controller application of the air conditioner  3   b  is activated.  FIG. 11C  is a display example of the liquid crystal panel, when a remote controller application of the video monitor  3   c  is activated.  FIG. 11D  is a display example of the liquid crystal panel, when a remote controller application of the bathroom water heater  3   d  is activated. 
     If the predetermined distance A in Step S 606  is set in consideration of, for example, the size of the room where the electric equipment  3  is provided, only the electric equipment  3  in the room can be displayed on the user interface unit  2108  when the position of the terminal device  1  is in a vertical attitude. The predetermined distance may be changed in accordance with location information. For example, even when there are a plurality of rooms and the rooms have respectively different room sizes, only the electric equipment  3  in each room can be displayed when the position of the terminal device  1  is in a vertical attitude. Further, when the remote controller launcher activation button is pressed, the room size is estimated based on the distance, for example, up to the registered nearest air conditioner  3   b   1 . Then, the predetermined distance A may automatically be determined. 
     The predetermined distance B in Step S 607  may be set in consideration of the size of, for example, an occupying part of a building. The size of the occupying part of the building is estimated based on the distance, for example, up to the registered farthest bathroom water heater  3   d . Then, the predetermined distance B may automatically be determined. 
     According to the above configuration, in the first embodiment of the present invention, the terminal device acquires information necessary for remotely controlling the electric equipment in advance from the electric equipment. The information acquisition is performed, for example, by proximity wireless communication. At this time, the location information of the electric equipment is acquired using a function of the terminal device. The terminal device registers the information in the storage unit. 
     The terminal device acquires the location information upon pressing on the remote controller launcher activation button, and calculates the distance to the registered electric equipment. 
     Further, the terminal device calculates the position of the case, and switches the display in accordance with whether it is in the vertical attitude or the horizontal attitude. When it is in the vertical attitude, only the icon of the electric equipment in the predetermined distance A is displayed on the user interface. When it is in the horizontal attitude, the icon of the electric equipment in the predetermined distance B is displayed. Alternatively, when it is in the horizontal attitude, it is possible to display any icons of the electric equipment in the predetermined distance B except the pieces of electric equipment in the predetermined distance A. Alternatively, when it is in the horizontal attitude, it is possible to display the icons of all the pieces of electric equipment. When there is nearby electric equipment to be remotely controlled, the terminal device is made in the vertical attitude. When there is distant electric equipment, it is made in the horizontal attitude. As a result, it is possible to find an icon of desired electric equipment from among the icons of the plural pieces of electric equipment as soon as possible. 
     Upon selection of the icon, a corresponding remote controller application is activated, and the desired electric equipment is remotely controlled. 
     Alternatively, when it is in the horizontal attitude, only the icon of the electric equipment in the predetermined distance may be displayed on the user interface unit. When it is in the vertical attitude, the icons of all the pieces of electric equipment may be displayed. 
     Second Embodiment 
       FIG. 12  is a flowchart illustrating a process for selecting electric equipment  3  by a terminal device  1  of a second embodiment of the present invention. This flowchart illustrates a process for selecting a desired remote controller application with using a launcher application. 
     Step S 1201  to Step S 1204  are the same as Step S 601  to Step S 604  of  FIG. 6 . 
     In Step  1204 , a gyro sensor  206  calculates the inclination of a case of a terminal device  1 . Based on the calculated inclination information, procedures of the terminal device  1  are switched in Step S 1211  to S 1219 . 
     In Step S 1211 , when the inclination “m” of the case of the terminal device  1  is 90°≧m≧67.5°, the flow proceeds to Step S 1212 , in which only the electric equipment in a predetermined distance A 1  is displayed. 
       FIG. 13  is a schematic diagram illustrating a position of the case of the terminal  1 , and illustrates its side surface when the case is inclined. 
       FIGS. 14A-14D  are display examples of a liquid crystal panel of the terminal device  1 . 
       FIG. 13( a )  is a diagram illustrating the position of the case of the terminal device  1 , when the inclination “m” of the case of the terminal device  1  is 90°≧m&gt;67.5°.  FIG. 14A  is a display example of the liquid crystal of the terminal device  1  at this time. The liquid crystal panel displays an icon of illumination equipment, and shows that only illumination equipment  3   a   1  exists in the predetermined distance A 1 . Touching this icon causes activation of the remote controller application of the desired electric equipment  3 , thereby enabling to remotely control the desired electric equipment  3 . 
       FIG. 15  is a room layout diagram and illustrates a layout example of electric equipment  3 . The electric equipment  3  is arranged in a plurality of rooms. The electric equipment  3  is selected by the terminal device  1  for a remote controller operation. 
     In a room where the terminal device  1  exists, the illumination equipment  3   a   1 , an air conditioner  3   b   1 , and a video monitor  3   c   1  are provided. The illumination equipment  3   a   1  is located in a predetermined distance A 1  while the air conditioner  3   b   1  and the video monitor  3   c   1  are located in a predetermined distance A 2 . Illumination equipment  3   a   2  and an air conditioner  3   b   2  provided in another room are located in a predetermined distance B 1 . Illumination equipment  3   a   3  and a bathroom water heater  3   d   1  provided in still another room are located in a predetermined distance B 2 . 
     In Step S 1213 , when the inclination “m” of the terminal device  1  is 67.5°≧m&gt;45°, the flow proceeds to Step S 1214 , in which only the electric equipment  3  in the predetermined distance A 2  is displayed. 
       FIG. 13( b )  is a diagram illustrating the position of the case of the terminal device  1  when the inclination “m” of the case of the terminal device  1  is 67.5°≧m&gt;45°.  FIG. 14B  is a display example of the liquid crystal panel of the terminal device  1  at this time. The liquid crystal panel displays icons of the plural pieces of electric equipment  3 , and shows that the illumination equipment  3   a   1 , the air conditioner  3   b   1 , and the video monitor  3   c   1  exist in the predetermined distance A 2 . 
     In Step S 1215 , when the inclination of the terminal device  1  is 45°≧m&gt;22.5°, the flow proceeds to Step S 1216 , and only the electric equipment  3  in the predetermined distance B 1  is displayed. 
       FIG. 13( c )  is a diagram illustrating the position of the case of the terminal device  1  when the inclination “m” of the case of the terminal device  1  45°≧m&gt;22.5°.  FIG. 14C  is a display example of the liquid crystal panel of the terminal device  1  at this time. The liquid crystal panel displays icons of the plural pieces of electric equipment  3 , and shows that the illumination equipment  3   a   1 , the air conditioner  3   b   1 , the video monitor  3   c   1 , the illumination equipment  3   a   2 , and the air conditioner  3   b   2  exist in the predetermined distance B 1 . 
     When the inclination “m” of the terminal device  1  is 22.5°≧m, the flow proceeds to Step S 1217 , in which the electric equipment  3  in the predetermined distance B 2  is displayed. Alternatively, all the pieces of registered electric equipment may be displayed. 
       FIG. 13( d )  is a diagram illustrating the position of the case of the terminal device  1 , when the inclination of the case of the terminal device  1  is 22.5°≧m.  FIG. 14D  is a display example of the liquid crystal panel of the terminal device  1  at this time. The liquid crystal panel displays icons of the plural pieces of electric equipment  3 , and shows that the illumination equipment  3   a   1 , the air conditioner  3   b   1 , the video monitor  3   c   1 , the illumination equipment  3   a   2 , the air conditioner  3   b   2 , the illumination equipment  3   a   3 , and the bathroom water heater  3   d   1  exist. 
     Step S 1208  to Step S 1210  are the same as Step S 608  to Step S 610  of  FIG. 6 . 
     In the example of this embodiment, the terminal device  1  is used in a vertical attitude. However, it may be used similarly even in a horizontal attitude. 
     In the example of this embodiment, the inclination of the terminal device  1  is classified into four ranges, and the display of the icons is switched between four manners. However, the inclination may be classified into any other ranges. As more ranges are made, the icon displays can be switched more smoothly. 
     In this embodiment, when the terminal device is vertically kept, only the icon of the electric equipment in a narrow range is displayed on the user interface unit. As the terminal device is horizontally inclined, the number of icons of the electric equipment to be displayed gradually increases. When it is in a horizontal attitude, the icons of the entire electric equipment are displayed. However, when the terminal device is vertically kept, only the icon of the nearby electric equipment is displayed. As the terminal device is horizontally inclined, the icons of the distant electric equipment are gradually displayed. When it is in the horizontal attitude, the icon of the farthest electric equipment may be displayed. 
     According to the above configuration, in the second embodiment of the present invention, the same effect as that of the first embodiment can be attained. 
     Further, the terminal device calculates the inclination of the case, and switches displays in accordance with its inclination. When the terminal device is vertically kept, only the icon of the electric equipment in a narrow range is displayed on the user interface unit. As the terminal device is inclined in a horizontal direction, the number of icons of the electric equipment to be displayed gradually increases. When it is in the horizontal attitude, the icons of all the pieces of electric equipment are displayed. When there is nearby electric equipment to be remotely controlled, the terminal device is brought closer into a vertical attitude. When there is distant electric equipment, it is brought closer into a horizontal attitude. As a result, it is possible to find an icon of desired electric equipment from among the icons of the plural pieces of electric equipment as soon as possible. 
     Upon selection of the desired icon, a corresponding remote controller application is activated, and the desired electric equipment can remotely be controlled. 
     Alternatively, when the terminal device is horizontally kept, only the icon of the electric equipment in a narrow range is displayed on the user interface unit. As the terminal device is inclined in a vertical direction, the number of icons of the electric equipment to be displayed gradually increases. When it is in the vertical attitude, the icons of all the pieces of electric equipment may be displayed. 
     Third Embodiment 
       FIG. 16  is a flowchart illustrating a process for selecting electric equipment by a terminal device  1  of a third embodiment of the present invention. This flowchart illustrates a process for selecting a desired remote controller application with using a launcher application. 
     Step S 1601  to Step S 1604  are the same as Step S 601  to Step S 604  of  FIG. 6 . 
     In Step S 1611 , when the inclination “m” of the case of a terminal device  1  is 90°≧m&gt;67.5°, the flow proceeds to Step S 1612 , in which only the electric equipment  3  in a predetermined distance A 1  is displayed. 
       FIGS. 17A-17D  are display examples of a liquid crystal panel of the terminal device  1 .  FIG. 17A  is a display example of the liquid crystal panel of the terminal device  1  at this time. The liquid crystal panel displays an icon of illumination equipment, and shows that only illumination equipment  3   a   1  exists in a predetermined distance A 1 . Touching this icon activates a remote controller application of desired electric equipment  3 , thereby enabling to remotely control the desired electric equipment  3 . 
     In Step S 1613 , when the inclination “m” of the terminal device  1  is 67.5°≧m&gt;45°, the flow proceeds to Step S 1614 , in which only the electric equipment  3  in a predetermined distance A 2 -A 1 , that is, in A 2  excluding A 1 , is displayed. 
       FIG. 17B  is a display example of the liquid crystal panel of the terminal device  1  at this time. The liquid crystal panel displays icons of plural pieces of electric equipment  3 , and shows that an air conditioner  3   b   1  and a video monitor  3   c   1  exist in the predetermined distance A 2 -A 1 . 
     In Step S 1615 , when the inclination “m” of the terminal device  1  is 45°≧m&gt;22.5°, the flow proceeds to Step S 1616  in which only the electric equipment  3  in a predetermined distance B 1 -A 2 , that is in B 1  excluding A 2 , is displayed. 
       FIG. 17C  is a display example of the liquid crystal panel of the terminal device  1  at this time. The liquid crystal panel displays icons of plural pieces of electric equipment  3 , and shows that illumination equipment  3   a   2  and an air conditioner  3   b   2  exist in a predetermined distance B 1 -A 2 . 
     When the inclination “m” of the terminal device  1  is 22.5°≧m, the flow proceeds to Step S 1617 , in which the electric equipment  3  in a predetermined distance B 2 -B 1 , that is, in B 2  excluding B 1 , is displayed. 
       FIG. 17D  is a display example of the liquid crystal panel of the terminal device  1  at this time. The liquid crystal panel displays icons of plural pieces of electric equipment  3 , and shows that illumination equipment  3   a   3  and a bathroom water heater  3   d   1  exist. 
     Step S 1608  to Step S 1610  are the same as Step S 1208  to Step S 1210  of  FIG. 12 . 
     In the example of this embodiment, the terminal device  1  is used in a vertical attitude. However, it may be used similarly in a horizontal attitude. 
     In the example of this embodiment, the inclination of the terminal device  1  is classified into four ranges, and the display of the icons is switched between four manners. However, the inclination may be classified into any other ranges. As more ranges are made, the icon displays can be switched more smoothly. For example, pieces of the electric equipment  3  are displayed sequentially in an order near to the terminal device  1 , in accordance with the inclination of the terminal device  1 . 
       FIGS. 18A-18D  are other display examples of the liquid crystal panel of the terminal device  1 .  FIG. 18A  is another display example of the liquid crystal panel of the terminal device  1 , when the inclination of the case of the terminal device  1  is about vertical (90°). 
       FIG. 18B  is the display example of the liquid crystal panel, when the inclination of the case of the terminal device  1  is made a little closer to a horizontal attitude from a vertical attitude.  FIG. 18C  is the display example thereof, when the inclination of the case of the terminal device  1  is made further closer to the horizontal attitude.  FIG. 18D  is the display example thereof, when the inclination of the case of the terminal device  1  is about horizontal (0°). 
       FIG. 19  is a layout diagram, and illustrates a layout example of the electric equipment  3 . The electric equipment  3  is provided in a plurality of rooms, and the electric equipment  3  is selected by the terminal  1  for a remote controller operation. In this example, illumination equipment  3   a   1 , a video monitor  3   c   1 , an air conditioner  3   b   1 , illumination equipment  3   a   2 , an air conditioner  3   b   2 , illumination equipment  3   a   3 , and a bathroom water heater  3   d   1  are provided, in the order near to the terminal device  1 . 
     According to the above configuration, in the third embodiment of the present invention, the same effect as that of the first embodiment can be attained. 
     Further, the terminal device calculates the inclination of the case, and switches the displays in accordance with the inclination. When the terminal device is vertically kept, only the electric equipment in a nearby range is displayed on the user interface unit. As the terminal device is inclined in a horizontal direction, the icon of the electric equipment in a distant range is gradually displayed. When it is in a horizontal attitude, the icon of the electric equipment in a range farthest from it is displayed. 
     Alternatively, when the terminal device is vertically kept, only the icon of the nearest electric equipment is displayed on the user interface unit. As the terminal device is inclined in a horizontal direction, the icon of the distant electric equipment gradually is displayed. When it is in a horizontal attitude, the icon of the farthest electric equipment is displayed. 
     When there is nearby electric equipment to be remotely controlled, the terminal device is brought closer to a vertical attitude. When there is distant electric equipment, it is brought closer to a horizontal attitude. As a result, it is possible to find an icon of desired electric equipment from among the icons of the plural pieces of electric equipment as soon as possible. 
     Fourth Embodiment 
       FIGS. 20A-20D  are display examples of a liquid crystal panel of a terminal device  1  of a fourth embodiment of the present invention. The liquid crystal panel displays icons of plural pieces of electric equipment  3 . The icons of the electric equipment  3  are arranged in the order near to the terminal device  1 . The liquid crystal panel is an integrated touch panel with a touch pad. An operation of a scroll bar displayed on the right side can cause a shift of a display range. 
       FIG. 20A  is the display example, when the position of the scroll box of the scroll bar is shifted down to the lowest, and it displays the nearest illumination equipment  3   a   1 , a video monitor  3   c   1 , an air conditioner  3   b   1 , up to illumination equipment  3   a   2 . 
       FIG. 20B  is the display example, when the position of the scroll box of the scroll bar is shifted a little upward, and it displays the video monitor  3   c   1 , the air conditioner  3   b   1 , the illumination equipment  3   a   2 , up to an air conditioner  3   b   2 . 
       FIG. 20C  is the display example, when the position of the scroll box of the scroll bar is shifted further upward, and it displays the air conditioner  3   b   1 , the illumination equipment  3   a   2 , the air conditioner  3   b   2 , up to illumination equipment  3   a   3 . 
       FIG. 20D  is the display example when the position of the scroll box of the scroll bar is shifted up to the top, and it displays the illumination equipment  3   a   2 , the air conditioner  3   b   2 , the illumination equipment  3   a   3 , up to a bathroom water heater  3   d   1 . 
     In the example of this embodiment, the terminal device  1  is used in a vertical attitude. However, it may be used similarly in a horizontal attitude. 
     According to the above configuration, in the fourth embodiment of the present invention, the same effect as that of the first embodiment can be attained. 
     Further, the terminal device displays the electric equipment in the order of distance. The display position changes in accordance with whether electric equipment to be remotely controlled exists near thereto or far therefrom. Thus, it is possible to find an icon of desired electric equipment from among the icons of the plural pieces of electric equipment as soon as possible. 
     Upon selection of a desired icon, a corresponding remote controller application is activated, and the desired electric equipment can remotely be controlled. 
     The above-described embodiments have specifically been described to easily describe the present invention, but are not necessarily limited to any of those including all the above-described constituents. A partial configuration of an embodiment may be replaced with a configuration of another embodiment, or a configuration of an embodiment may be added to a configuration of another embodiment. A partial configuration of each embodiment may be added to, deleted from, or replaced with a configuration of another embodiment. 
     Each of the above-described configurations, functions, processing units, and processing means may partially or entirely be realized with hardware, for example, by designing it with an integrated circuit with an integrated circuit. The above-described configurations and functions may be realized with software by a processor interpreting a program for realizing and executing the functions. Information of the program, table, and file for realizing the functions may be placed in a recording device such as a memory, hard disk, or SSD (Solid State Drive), or on a recording medium such as an IC card, SD card or the like. 
     The control lines and the information lines have been described as those considered necessary for the sake of descriptions. However, all the control lines and the information lines may not necessarily be described for the products. In fact, it may be considered that almost all the configurations are mutually connected with each other. 
     REFERENCE SIGNS LIST 
     
         
           1  . . . Terminal Device 
           2  . . . Remote Controller 
           3  . . . Electrical Device 
           4  . . . Wireless Router 
           5  . . . Network

Technology Category: g