JP2005033776A - Mobile communication terminal and external apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a mobile communication terminal and an external apparatus to execute various actuations from the external apparatus when a user operates each of a plurality of keys of the mobile communication terminal. <P>SOLUTION: A moving machine 20 is provided with a control means 211 to execute a usual key operation actuation mode and with a data storage means 212. The data storage means 212 stores an identification information of a plurality of keys operation and a key command corresponding data mutually related to a plurality of command data transmitted from the external apparatus 10 by corresponding to each of the plurality of keys operation. The control means 211 specifies the key operation corresponding to the command data based on either of the plurality of command data received from the external apparatus by a data sending-receiving means 210 and the key command corresponding data stored in the data storage means 212, has a key-emulated operation mode operated as well as when the specified key operation is conducted, and executes the key-emulated operation mode and the usual key operation mode selectively. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a mobile communication terminal such as a mobile phone having a plurality of keys to be operated by a user, and an external device capable of transmitting / receiving data to / from the mobile communication terminal.

2. Description of the Related Art Conventionally, an external character input device that is connected to an external connection terminal of a mobile phone and can transfer character information input by operating a keyboard to the mobile phone is known (see, for example, Patent Document 1 and Patent Document 2). The character information input from the external character input device is transferred to the mobile phone via the interface cable. The character information transferred from the external character input device is received by a character data input / output unit provided in the mobile phone and stored in a memory unit in the mobile phone. By using an external character input device in this way, character information is input with the same operability as when operating a normal personal computer keyboard, and data such as memo documents, e-mail texts, and telephone books are created. Can be used on mobile phones.
Recently, an external device is also known that can execute a mail transmission operation for creating and transmitting a mail text from the outside.
JP 2000-244623 A JP 2001-142614 A

  Since the above mobile phone has been reduced in size and weight in order to ensure portability, the number and size of keys operated by the user are limited, and the operability is sacrificed. ing. Although the operability of such a mobile phone can be tolerated to some extent when the user is on the go, etc., there are many cases when the mobile phone is used when returning to the home or office. When the conventional mobile phone and the external device (external character input device) are used, the operability when performing a specific operation such as character input or mail transmission can be improved. However, depending on the user of the mobile phone, not only specific operations such as character input and mail transmission, but also various operations when each of a plurality of keys on the mobile phone is operated can be executed from the external device side. In some cases, it may be desirable to improve operability.

In recent years, with the widespread use of mobile phones, various forms of use have been considered. For example, instead of directly operating a mobile phone by a user, an external device having various sensors installed in a remote place is connected to the mobile phone, and the external device is operated by operating the mobile phone with the external device. A form of use is also conceivable in which data measured by this sensor is automatically transmitted to a user far away from the mobile phone. In such a case, if various operations can be performed from the external device side when each of a plurality of keys on the mobile phone is operated, the range of usage forms of the mobile phone is widened.
The present invention has been made under the above background, and its object is to enable a mobile device to perform various operations when an individual device operates each of a plurality of keys of a mobile communication terminal from an external device. It is to provide a body communication terminal and an external device.

In order to achieve the above object, the invention of claim 1 is a data transmission / reception means for transmitting / receiving data to / from an external device, a plurality of keys for operation by a user, and a user using the key. A mobile communication terminal comprising a control means capable of executing a normal key operation mode that operates according to the key operation when operated, identification information of a plurality of key operations that a user can operate, Data storage means for storing key command correspondence data associated with a plurality of command data transmitted from the external device in correspondence with each of the plurality of key operations is provided, and the control means includes the data Based on one of the plurality of command data received from the external device by the transmission / reception means and the key command corresponding data stored in the data storage means, the command data A key emulation operation mode that allows the key operation corresponding to the specified key operation to be performed and to be operated in the same manner as when the specified key operation is performed, and this key emulation operation mode and the normal key operation operation mode are selected. It is characterized by being executable.
According to a second aspect of the present invention, in the mobile communication terminal of the first aspect, the control means manufactures the mobile communication terminal when transitioning from the normal key operation operation mode to the key emulation operation mode. The data transmission / reception means is controlled to receive a serial number read request for reading the serial number from the external device and to transmit a serial number read response in response to the serial number read request together with the serial number to the external device. It is characterized by doing.
The invention according to claim 3 is the mobile communication terminal according to claim 1, wherein the control means communicates with the mobile communication terminal when transitioning from the normal key operation operation mode to the key emulation operation mode. Controls the data transmission / reception means to receive a capability notification request for requesting capability notification from the external device and to transmit a capability notification response to the capability notification request to the external device together with the communication capability notification data. Then, based on the communication capability notification data, communication conditions for data transmission / reception with the external device in the key emulation operation mode are set.
According to a fourth aspect of the present invention, in the mobile communication terminal of the first aspect, the control means is executed based on the command data when transitioning from the normal key operation operation mode to the key emulation operation mode. A key emulation support information request for requesting key emulation support information relating to a possible operation is received from the external device, and a key emulation support information response in response to the key emulation support information request is sent together with the key emulation support information The data transmitting / receiving means is controlled to transmit to the external device.
The invention according to claim 5 is the mobile communication terminal according to claim 1, 2, 3 or 4, further comprising image display means for displaying an image, wherein the control means is executing the key emulation operation mode. When the specific function shortcut request is received from the external device, the image display means is controlled so that the screen of the function specified by the specific function shortcut request is displayed as a shortcut on the image display means. To do.
According to a sixth aspect of the present invention, in the mobile communication terminal according to the first, second, third, or fourth aspect, the control means batches text information composed of a plurality of characters transmitted together with a text input request from the external device. A text input mode for input, and when a text input mode start request is received from the external device during execution of the key emulation operation mode, the key emulation operation mode is changed to the text input mode. It is characterized by being configured to transition.
Further, in the mobile communication terminal of claim 1, 2, 3 or 4, the invention of claim 7 is a mail data transmission / reception means for transmitting / receiving mail to / from a mail server via the mobile communication network, Mail data storage means for storing the mail data, and the control means has a mail output mode in which the mail information acquired at the timing when the mail is completely acquired from the mail server is independently transmitted from the mobile device to the external device. And when a mail output mode start request is received from the external device during execution of the key emulation operation mode, the key emulation operation mode is changed to the mail output mode. Is.
Further, the invention of claim 8 is the mobile communication terminal of claim 1, 2, 3 or 4, wherein mail data transmitting / receiving means for transmitting / receiving mail to / from a mail server via the mobile communication network; Mail data storage means for storing the mail data, and the control means uses the mail acquisition request transmitted from the external device to acquire the acquired mail information from the mail server to the external device. A mail acquisition mode to be transmitted to the device, and when a mail acquisition mode start request is received from the external device during execution of the key emulation operation mode, the key emulation operation mode is changed to the mail acquisition mode. It is characterized by comprising.
Further, the invention of claim 9 is the mobile communication terminal of claim 1, 2, 3 or 4, wherein mail data transmitting / receiving means for transmitting / receiving mail to / from a mail server via the mobile communication network; Mail data storage means for storing the mail data, and the control means receives the mail data together with a mail transmission setting request from an external device during execution of the key emulation operation mode. Is stored in the mail data storage means, and when the command data corresponding to the key operation for transmitting the mail data to the mail server is received from the external device, the mail data stored in the mail data storage means is stored. The mail data transmitting / receiving means is controlled to transmit data to the mail server.

The invention of claim 10 is an external device comprising a data transmission / reception means for transmitting / receiving data to / from a mobile communication terminal having a plurality of keys, wherein the plurality of key operations in the mobile communication terminal are performed. Data storage means for storing key command correspondence data in which the identification information of each of the plurality of command data to be transmitted to the mobile communication terminal in association with each of the plurality of key operations is associated with each other, and the key command correspondence data And a control means for controlling the data transmission / reception means so as to transmit command data corresponding to any one of a plurality of key operations in the mobile communication terminal to the mobile communication terminal. It is characterized by this.
The invention of claim 11 is the external device of claim 10, wherein the data storage means stores a plurality of sets of the key command corresponding data so as to correspond to a plurality of types of mobile communication terminals, and the control means From the normal key operation operation mode that operates according to the key operation when the user operates the key, to the key emulation operation mode that operates in the same manner as when the key operation specified by the command data is performed, When the operation mode of the mobile communication terminal transitions, a manufacturing number reading request for requesting reading of the manufacturing number of the mobile communication terminal is transmitted to the mobile communication terminal, and the manufacturing responding to the manufacturing number reading request The data transmission / reception means is controlled to receive a number reading response together with the manufacturing number from the mobile communication terminal, and the command data is based on the manufacturing number. It is characterized in that selecting a set of key commands corresponding data to be used for transmission of.
According to a twelfth aspect of the present invention, in the external device of the tenth aspect, the control means uses the command data from a normal key operation mode in which a user operates a key when the key is operated. A capability notification requesting notification of the communication capability of the mobile communication terminal when the operation mode of the mobile communication terminal transitions to a key emulation operation mode that operates in the same manner as when the specified key operation is performed. Transmitting the request to the mobile communication terminal, controlling the data transmission / reception means so as to receive a capability notification response in response to the capability notification request together with the communication capability notification data from the mobile communication terminal; A communication condition at the time of data transmission / reception with the mobile communication terminal is set based on capability notification data.
The invention according to claim 13 is the external device according to claim 10, wherein the control means uses the command data from a normal key operation mode in which the user operates according to the key operation when the user operates the key. Key emulation support related to operations that can be performed based on the command data when the mobile communication terminal operation mode transitions to the key emulation operation mode that operates in the same manner as when the specified key operation is performed A key emulation support information request for requesting information is transmitted to the mobile communication terminal, and a key emulation support information response in response to the key emulation support information request is transmitted from the mobile communication terminal together with the key emulation support information. The data transmission / reception means is controlled to receive data.
The invention according to claim 14 is the external device according to claim 10, 11, 12 or 13, wherein the control means causes the screen display means of the mobile communication terminal to display a screen of a specific function with a shortcut. The data transmission / reception means is controllable so as to transmit a specific function shortcut request to a mobile communication terminal executing the key emulation operation mode.
The invention according to claim 15 is the external device according to claim 10, 11, 12, or 13, wherein the control means inputs the text information consisting of a plurality of characters at once from the key emulation operation mode. The data transmission / reception means is controllable so as to transmit a text input mode start request for shifting to the text input mode to a mobile communication terminal executing the key emulation operation mode. It is.
The invention according to claim 16 is the timing at which the control means acquires the mail information acquired from the mail server via the mobile communication network from the mail server in the external device according to claim 10, 11, 12, or 13. So as to transmit a mail output mode start request for making a transition to a mail output mode for autonomously transmitting to the external device from the mobile device to the mobile communication terminal executing the key emulation operation mode. The data transmitting / receiving means can be controlled.
The invention according to claim 17 is the external device according to claim 10, 11, 12 or 13, wherein the control means shifts to a mail acquisition mode for acquiring mail from a mail server via a mobile communication network. The data transmission / reception means can be controlled so as to transmit a mail acquisition mode start request for transmission to a mobile communication terminal that is executing the key emulation operation mode.
The invention according to claim 18 is the external device according to claim 10, 11, 12 or 13, wherein the control means sets the mail transmission data to be transmitted to the mail server via the mobile communication network. Along with the request, it is transmitted to the mobile communication terminal executing the key emulation operation mode, and the command data corresponding to the key operation for transmitting the mail data to the mail server is transmitted to the mobile communication terminal. Thus, the data transmission / reception means can be controlled.
The invention according to claim 19 is the external device according to claim 10, 11, 12, 13, 14, 15, 16, 17 or 18, comprising a plurality of external operation keys for the user to operate. The key command corresponding data is the identification information of the plurality of external operation keys, the identification information of the plurality of key operations in the mobile communication terminal, and the command data, and the control means Controlling the data transmission / reception means so that when the user operates one of the plurality of external operation keys, command data corresponding to the external operation key is transmitted to the mobile communication terminal. It is characterized by.

In the mobile communication terminal according to claim 1, when the normal key operation mode is selected and executed, the mobile communication terminal operates according to the key operation when the user operates the key. On the other hand, when the key emulation operation mode is selected and executed, one of a plurality of command data transmitted from the external device corresponding to each of the plurality of key operations is received by the data transmission / reception means. The key operation corresponding to the received command data is specified based on one of the command data and the key command corresponding data stored in the data storage means, and the same as when the specified key operation is performed. Make it work.
In the mobile communication terminal according to claim 2, when the normal key operation mode is changed to the key emulation operation mode, the serial number of the mobile communication terminal is set in response to the serial number reading request from the external device. Send to. The external apparatus can select and transmit appropriate command data corresponding to the model of the mobile communication terminal based on the received manufacturing number.
In the mobile communication terminal according to claim 3, when the normal key operation mode is changed to the key emulation operation mode, in response to the capability notification request from the external device, the communication capability notification data of the mobile communication terminal is received. Send to external device. The external device can set communication conditions for data transmission / reception with the mobile communication terminal in the key emulation operation mode based on the received communication capability notification data. The mobile communication terminal sets communication conditions for data transmission / reception with the external device in the key emulation operation mode based on the communication capability notification data transmitted to the external device. Thus, in the external device and the mobile communication terminal, communication in the key emulation operation mode can be reliably performed by setting the communication condition based on the notification data having the same communication capability.
In the mobile communication terminal of claim 4, when the normal key operation mode is changed to the key emulation operation mode, the key communication of the mobile communication terminal is performed in response to the key emulation support information request from the external device. Send support information to an external device. The external device can confirm the type of operation when the key operation supported by the mobile communication terminal is performed based on the received key emulation support information. By transmitting only the command data corresponding to the key operation supported by the mobile communication terminal based on the confirmation result, it is possible to prevent an operation error from occurring at the mobile communication terminal.
In the mobile communication terminal according to claim 5, when a specific function shortcut request is received from an external device during execution of the key emulation operation mode, a screen of a function specified by the specific function shortcut request is displayed on the image display means as a shortcut. indicate.
In the mobile communication terminal according to the sixth aspect, when a text input mode start request is received from an external device during execution of the key emulation operation mode, the key emulation operation mode is changed to the text input mode. In this text input mode, text information composed of a plurality of characters transmitted from an external device can be input at once.
In the mobile communication terminal according to the seventh aspect, when the mail output mode start request is received from the external device during execution of the key emulation operation mode, the key emulation operation mode is changed to the mail output mode. In this mail output mode, mail information acquired from the mail server via the mobile communication network is autonomously transmitted from the mobile device to the external device at the timing acquired from the mail server.
In the mobile communication terminal according to the eighth aspect, when a mail acquisition mode start request is received from an external device during execution of the key emulation operation mode, the key emulation operation mode is changed to the mail acquisition mode. In this mail acquisition mode, mail is received from the mail server via the mobile communication network, stored in the mail data storage means, and the received mail information is transmitted to the external device.
In the mobile communication terminal according to the ninth aspect, when the mail data to be transmitted is received from the external device during execution of the key emulation operation mode, the received mail data is temporarily stored in the mail data storage means. Thereafter, when a mail transmission command is received from the external device, the mail data once stored in the mail data storage means is transmitted to the mail server via the mobile communication network.

According to another aspect of the present invention, command data corresponding to any one of a plurality of key operations in the mobile communication terminal is transmitted to the mobile communication terminal executing the key emulation operation mode. Send to the terminal. By transmitting this command data, the mobile communication terminal can perform the same operation as when a specific key corresponding to the command data is operated.
The external device according to claim 11 selects and transmits appropriate command data corresponding to the model of the mobile communication terminal based on the manufacture number transmitted from the mobile communication terminal in response to the request for reading the manufacture number. it can.
The external device according to claim 12 sets communication conditions for data transmission / reception with the mobile communication terminal based on the communication capability notification data transmitted from the mobile communication terminal in response to the capability notification request. Thus, communication in the key emulation operation mode can be performed reliably.
The external device according to claim 13 performs a key operation supported by the mobile communication terminal based on the key emulation support information transmitted from the mobile communication terminal in response to the key emulation support information request. You can check the type of operation when. By transmitting only the command data corresponding to the key operation supported by the mobile communication terminal based on the confirmation result, it is possible to prevent an operation error from occurring at the mobile communication terminal.
In the external device according to the fourteenth aspect, by transmitting the specific function shortcut request, the screen of the function specified by the specific function shortcut request can be displayed on the image display means of the mobile communication terminal as a shortcut.
In the external device of claim 15, by transmitting a text input mode start request, the key emulation operation mode of the mobile communication terminal is shifted to the text input mode, and text information consisting of a plurality of characters is collectively transmitted to the mobile communication. It can be sent to the terminal for input.
In the external device of claim 16, by transmitting a mail output mode start request, the key emulation operation mode of the mobile communication terminal is shifted to the mail output mode, and the mobile communication terminal is independent from the timing acquired from the mail server. Email information sent automatically can be received and used.
In the external device of claim 17, by transmitting a mail acquisition mode start request, the key emulation operation mode of the mobile communication terminal is shifted to the mail acquisition mode, and mail is received from the mail server to It can be stored in the mail data storage means, and mail information can be received and stored in an external device.
In the external device of claim 18, by transmitting the mail data to be transmitted to the mobile communication terminal that is executing the key emulation operation mode, the mail data is stored in the mail data storage means in the data mobile communication terminal. Save it once. Thereafter, by sending a mail transmission command to the mobile communication terminal, the mail data once stored in the mail data storage means is transmitted to the mail server via the mobile communication network.
In the external device according to claim 19, when a user operates an external operation key, command data corresponding to the external operation key is transmitted to the mobile communication terminal, and the key corresponding to the external operation key is operated. The mobile communication terminal can be operated in the same way as sometimes. And, unlike the keys of mobile communication terminals, the external operation keys of this external device do not need to be reduced in size and weight to ensure portability, and therefore are configured with priority on operability. Can do. By operating the external operation keys of the external device, various operations can be performed from the external device when the user operates each of the plurality of keys of the mobile communication terminal while ensuring good operability. .

The above “key operation” may be a key operation by a user operating one of a plurality of keys of a mobile communication terminal, or a key operation by a user operating two keys or three or more keys. A key operation by the user may be used. In the case of “key operation” in which a user operates one key, this “key operation” and the physical “key” on the mobile communication terminal correspond one-to-one.
Further, as the “mobile communication terminal”, mobile phones such as PDC (Personal Digital Cellular) system, GSM (Global System for Mobile Communication) system, TIA (Telecommunications Industry Association) system, IMT (International Mobile Telecommunications) -2000, etc. Mobile phones standardized by TD-SCDMA (Time Division Synchronous Code Division Multiple Access) TD-SCDMA (MC: Multi Carrier) mobile phone, PHS (Personal Handyphone Service), automobile phone, etc. Among telephones, there are telephones that can execute application programs. Examples of the “mobile communication terminal” include a mobile mobile communication terminal such as a PDA (Personal Digital Assistance) that does not have a telephone function in addition to the above-described telephone.
The "external device" includes a computer device such as a personal computer, a PDA, and a key that is operated by a user and includes a data transmission / reception unit and a control unit for transmitting / receiving data to / from a mobile communication terminal. A keyboard device having In addition, as this “external device”, data transmission / reception means for transmitting / receiving data to / from a mobile communication terminal, a telemetry device incorporating a microcomputer, and home appliances are centrally controlled and managed at home or the like. Home appliance management device etc. are also mentioned.
The communication for transmitting and receiving data between the mobile communication terminal and the external device may be wired communication using a 16-core interface cable or the like, or may be short-distance wireless communication or infrared communication. Communication may have been used.
The control and data processing in the mobile communication terminal and the external device can also be realized by executing a predetermined program on a computer provided in the mobile communication terminal and the external device. Delivery of the program used in the computer may be performed using a recording medium such as an FD or CD-ROM in which the program is recorded as digital information, or may be performed using a communication network such as a computer network.

According to the inventions of claims 1 to 19, when any one of a plurality of command data corresponding to each of a plurality of key operations of the mobile communication terminal is transmitted from the external device to the mobile communication terminal, the command received from the external device The mobile communication terminal operates in the same manner as when a key operation corresponding to data is performed. Therefore, there is an effect that various operations when the user operates each of the plurality of keys of the mobile communication terminal can be executed from the external device.
In particular, according to the inventions of claims 2 and 11, the model of the mobile communication terminal that communicates with the external connection device is changed by selecting and transmitting appropriate command data corresponding to the model of the mobile communication terminal. Even in some cases, the key emulation operation mode can be surely executed.
In particular, according to the inventions of claims 3 and 12, there is an effect that the communication between the mobile communication terminal and the external device in the key emulation operation mode can be reliably performed.
Particularly, according to the inventions of claims 4 and 13, there is an effect that it is possible to prevent the occurrence of an operation error when the operation of the mobile communication terminal is executed from an external device.
In particular, according to the inventions of claims 5 and 14, there is an effect that an operation for displaying a screen of a specific function on the image display means of the mobile communication terminal by a shortcut can be executed from an external device.
In particular, according to the sixth and fifteenth inventions, there is an effect that text information composed of a plurality of characters can be transmitted and input in a batch from an external device to the mobile communication terminal.
In particular, according to the inventions of claims 7 and 16, there is an effect that the mobile communication terminal autonomously transmits the mail information acquired at the timing when the mail has been acquired from the mail server to the external device.
In particular, according to the inventions of claims 8 and 17, there is an effect that, based on a request from the external device, the mobile device can transmit the received mail information received from the mail server to the external device.
In particular, according to the inventions of claims 9 and 18, there is an effect that mail created by the external device can be transmitted from the mobile device to the mail server.
In particular, according to the invention of claim 19, when a user operates each of the plurality of keys of the mobile communication terminal while operating the external operation key of the external device while ensuring good operability. There is an effect that various operations can be executed from an external device.

Hereinafter, embodiments in which the present invention is applied to a mobile communication terminal (hereinafter referred to as a “mobile device”) such as a mobile phone or a PHS and an external device such as a personal computer in which an interface cable is connected to the mobile device will be described.
First, a schematic configuration of a mobile device operation system using the external device 10 and the mobile device 20 and a communication system including the mobile device operation system will be described.
FIG. 2 is an explanatory diagram of the entire communication system including a mobile device operating system in which the mobile device 20 and the external device 10 according to the present embodiment are configured by connecting the interface cable 11. In this mobile device external operation system, by transmitting a predetermined command from the external device 10 to the mobile device 20, various operations when the user operates each of the plurality of keys of the mobile device 20 are performed from the external device 10. Can be executed. For example, the text information is sent from the external device 10 to the mobile device 20 in a lump and is input, or the mail text is created by the external device 10 and sent to the mobile device 20 to activate the mail function of the mobile device 20 to move the mobile body. A mail can be transmitted to the mail server 43 of the communication network 40. It is also possible to operate the mobile device 20 from the external device 10 and download an application program such as JAVA (registered trademark) from the download server 41 and store it in the mobile device 20. Furthermore, the mobile device 20 can be operated from the external device 10 to access the Web server 42 and browse various WEB pages. In the present embodiment, as the interface cable 11, a 16-core serial interface cable widely used in ordinary mobile phones is used.

FIG. 3 is an external view of the mobile device 20, and FIG. 4 is a schematic configuration diagram illustrating a hardware configuration of the mobile device 20. The mobile device 20 includes a system bus 200, a CPU 201, a data storage means including a RAM 202 and a ROM 203, an input device 204, an output device 205, a mobile communication network communication device 206, an external connection interface device 207, and an imaging means. An imaging device 29 is provided. Components such as the CPU 201 and the RAM 202 exchange various data and instructions of a program to be described later via the system bus 200. The input device 204 includes a plurality of keys such as a data input key (ten key, * key, # key) 21, a call start key 22, an end key 23, a scroll key 24, a multi-function key 25, a microphone 26, and the like. Has been. The output device 205 includes a liquid crystal display (LCD) 27 as an image display means, a speaker 28, and the like. The mobile communication network communication device 206 is for communicating with other mobile devices and various servers 41, 42, 43 via the mobile communication network 40.
As the imaging device 29, a CCD (Charge Coupled Device) camera or a CMOS camera can be used. Further, an artificial retinal camera having a signal processing function and capable of high-speed imaging, or a camera having sensitivity in a wavelength region other than visible light rays such as infrared rays and gamma rays may be used depending on the use environment. The imaging device 29 is used when shooting an image of a person or landscape, or shooting a one-dimensional or two-dimensional code image using a close-up function.

  The external connection interface device 207 is for performing serial communication with the external device 10 via the 16-core interface cable 11.

FIG. 5 is a schematic configuration diagram illustrating an example of a hardware configuration of the external device 10. The external device 10 includes an internal storage device including a system bus 100, a CPU 101, a RAM 102 and a ROM 103, an external storage device 104 including a hard disk drive (HDD) and an optical disk drive, an input device 105 including a mouse and a keyboard, a display, An output device 106 composed of a printer or the like and a mobile device connection interface device 107 for communicating with the mobile device 20 via the interface cable 11 are provided. In the external device 10, components such as the CPU 101 and the RAM 102 exchange data and program instructions with each other via the system bus 100. A program for operating the external device 10 according to a predetermined procedure is stored in the ROM 103 or the external storage device 104, and is called up and executed in a work area on the CPU 101 or the RAM 102 as necessary.
The plurality of keys constituting the keyboard of the input device 105 are also used as external operation keys when the user operates the mobile device 20.

FIG. 1 is a functional block diagram of a mobile device 20 and an external device 10 constituting the mobile device operation system of the present embodiment.
The mobile device 20 implements the functions of the data transmission / reception means 210, the control means 211, and the data storage means 212 shown in FIG. 1 by executing a predetermined program on the hardware shown in FIG.
The data transmission / reception means 210 includes the CPU 201 of the mobile device 20, the external connection interface device 207, and the like, and has a function of transmitting / receiving data to / from the external device 10 via the interface cable 11.
The control unit 211 includes the CPU 201 and the RAM 202 of the mobile device 20, and has a function of selectively executing the normal key operation mode and the key emulation mode. The normal key operation mode (hereinafter referred to as “normal mode”) is an operation mode in which the mobile device 20 is operated according to the key operation when the user operates the key. The key emulation operation mode (hereinafter referred to as “key emulation mode”) includes any one of a plurality of command data received from the external device 10 by the data transmission / reception means 210, key command corresponding data stored in the data storage means, Is an operation mode in which the key operation corresponding to the command data is specified and the mobile device 20 is operated in the same manner as when the specified key operation is performed.
The data storage unit 212 includes the RAM 202 of the mobile device 20 and the like, and includes a plurality of key operation identification information that can be operated by the user and a plurality of pieces of information transmitted from the external device 10 corresponding to each of the plurality of key operations. Key command correspondence data in which the command data is associated with each other is stored. Reading and storing of this data is controlled by the control means 211.

On the other hand, the external device 10 implements the functions of the data transmission / reception means 110, the control means 111, and the data storage means 112 shown in FIG. 1 by executing a predetermined program on the hardware shown in FIG. .
The data transmission / reception means 110 includes the CPU 101 of the external device 10, the mobile device connection interface device 107, and the like, and has a function of transmitting / receiving data to / from the mobile device 20 via the interface cable 11.
The data storage unit 112 includes the RAM 102 of the external device 10 and the like, and includes identification information of a plurality of external operation keys of the keyboard in the input device 105 of the external device 10, and identification information of a plurality of key operations in the mobile device 20. In addition, key command correspondence data in which a plurality of command data to be transmitted to the mobile device 20 in association with each of a plurality of key operations is associated with each other is stored. Reading and storing of this data is controlled by the control unit 111.
Based on the key command correspondence data stored in the data storage means 112, the control means 111 transmits command data corresponding to any one of a plurality of key operations in the mobile device 20 to the mobile device 20. In addition, the data transmission / reception means 110 is controlled.

As described above, in this embodiment, a 16-core serial cable is used as the interface cable 11. Therefore, the mobile device 20 and the external device 10 are provided with connectors for the cables, and these cables and connectors have 16-core serial terminals.
In the present embodiment, specific terminals among the 16 serial terminals are “uplink serial signal terminal”, “downlink serial signal terminal”, “serial signal ground terminal”, and “mobile device operation unit control terminal”. Assigned as. In the present embodiment, a serial signal transmitted from the external device 10 to the mobile device 20 via the “uplink serial signal terminal” is referred to as an “uplink serial signal” and is transmitted via the “downlink serial signal terminal”. The serial signal transmitted from the mobile device 20 to the external device 10 is referred to as a “downlink serial signal”.
The “mobile device operation unit control terminal” is a terminal for transmitting and receiving signals for controlling the operation unit (various keys) of the mobile device 20. Command data is transmitted from the external device 10 to the mobile device 20 by this signal.

6 and 7 illustrate signal formats of serial signals transmitted / received between the mobile device 20 and the external device 10. The signal format in FIG. 6 includes only a block of message identification information for identifying a message transmitted / received between the mobile device 20 and the external device 10. The signal format of FIG. 7 is composed of the message identification information block and the additional information block transmitted subsequently. This additional information is information such as a manufacturing number information, a corresponding communication speed, a personal identification number, etc., which will be described later. The block of additional information may be composed of a single block or a plurality of blocks.
These serial signals are transmitted and received with a plurality of bits as one unit. One unit of the serial signal is not limited to a specific bit configuration, and various bit configurations can be adopted. For example, one unit of the serial signal can be constituted by a total of 11 bits including a start bit (1 bit), a data bit (8 bits), an even parity, and a stop bit (1 bit).

Next, communication processing between the external device 10 configured as described above and the mobile device 20, and operation modes and various functions executed by the mobile device 20 will be described.
[Operation mode and support functions]
FIG. 8 shows transitions between a plurality of operation modes and functions that can be operated in the key emulation mode in the mobile device 20 of the present embodiment. The mobile device 20 can make a transition from the normal mode to the key emulation mode by transmitting and receiving a wireless device identification request (key emulation mode request) and the like to and from the external device 10. In addition, during execution of the key emulation mode, a transition to “text input mode”, “mail output mode”, and “mail acquisition mode” can be made by receiving a predetermined mode transition request from the external device 10. In the key emulation mode, in addition to the key emulation function, the following functions can be executed by a predetermined command from the external device 10.
(A) Mail creation shortcut function (B) Web shortcut function (C) Mail transmission function (D) Internet (URL) function (E) Bulletin board writing function

[Transition to key emulation mode]
FIG. 9 is a flowchart of a process for changing the operation mode of the mobile device 20 from the normal mode to the key emulation mode, and FIG. 10 is a sequence diagram of the process.
(1) The transition to the key emulation mode is performed by transmission / reception processing of “wireless device identification request” (key emulation mode request) − “wireless device identification reset” / “wireless device identification display” (key emulation mode response). Start (A-2).
The “wireless device identification request” (key emulation mode request) is transmitted and received in the signal format of FIG. In the message type information block (block in which message type identification information is entered) shown in the figure, message identification information corresponding to the “wireless device identification request” is entered. The mobile device 20 recognizes that the received signal is a “wireless device identification request” (key emulation mode request) by confirming the content of the message type information block of the received signal received from the external device 10.
After transmitting the above "wireless device identification request" key emulation mode request, "wireless device identification reset" / "wireless device identification display" (key emulation mode response) from the mobile device 20 to the external device 10 even after a predetermined time has elapsed Is not transmitted, the external device 10 determines that “the mobile device 20 is in a state incapable of transition to the key emulation mode (including a case where the power is not turned on)”, and notifies the user to that effect and terminates the process. Execute.
The “wireless device identification reset” / “wireless device identification display” (key emulation mode response) is transmitted and received in the signal format of FIG. In the message information type block shown in the figure, message identification information corresponding to “wireless device identification reset / wireless device identification display” is entered. The external device 10 confirms the content of the message type information block of the received signal received from the mobile device 20 so that the received signal becomes “wireless device identification reset” / “wireless device identification display” (key emulation mode response). Recognize that.

(2) Next, the mobile device 20 and the external device 10 make a serial number read request / response (A-3), a capability notification request / response (A-4), and a password verification request / acceptance (A-5). The initial setting of the key emulation mode is completed by transmitting and receiving.
The “manufacturing number read request” is transmitted and received in the signal format of FIG. In the message information type block shown in the figure, identification information corresponding to the “manufacture number read request” is entered. The mobile device 20 recognizes that the received signal is a “manufacturing number read request” by confirming the content of the message type information block of the received signal received from the external device 10.
The “serial number read response” is transmitted and received in the signal format of FIG. In the message information type block shown in the figure, identification information corresponding to the “manufacturing number read response” is entered, and in the additional information block, information corresponding to the manufacturing number of the mobile device 20 is entered. The external device 10 recognizes that the received signal is a “manufacturing number read response” by confirming the content of the message type information block of the received signal received from the mobile device 20. Further, the serial number of the mobile device 20 is recognized by confirming the contents of the additional information block.

(3) “Capability Notification Request” / “Capability Notification Response” is transmitted / received by setting the communication speed supported by the mobile device 20 and the external device 10. The corresponding communication speed notified from the partner side is compared with the corresponding communication speed of the own side, the highest communication speed is selected, and the subsequent communication is performed.
The “capability notification request” is transmitted and received in the signal format of FIG. In the message type information block shown in the figure, identification information corresponding to the “capability notification request” is entered, and in the additional information block, information indicating the communication speed supported by the external device 10 is entered. Specifically, the additional information block is composed of a plurality of bits, each bit is associated with a communication speed, and “1” is set in the bit corresponding to the communication speed supported by the external device 10. For example, the first bit is “600 bps”, the second bit is “2400 bps”, the third bit is “4800 bps”, the fourth bit is “9600 bps”, the fifth bit is “14400 bps”, and the sixth bit is “19200 bps”. Allocate “1” in the bit corresponding to the communication speed supported by the external device 10. At this time, if the external device 10 supports communication speeds of 9600 bps and 19200 bps, “1” is set in the fourth bit and the sixth bit.
The mobile device 20 recognizes that the received signal is a “capability notification request” by confirming the content of the message type information block of the received signal received from the external device 10. Further, by confirming the contents of the additional information block of the received signal, the notification speed supported by the external device 10 is recognized.
The “capability notification response” is transmitted and received in the signal format of FIG. In the message type information block shown in the figure, identification information corresponding to “capability notification response” is entered, and in the additional information block, information indicating the communication speed supported by the mobile device 20 is entered. Specifically, it is the same as the above-mentioned “capability notification request”, and the additional information block is composed of a plurality of bits, each bit is associated with the communication speed, and the communication speed supported by the mobile device 20 is supported. Put “1” in the bit.
As described above, the external device 10 and the mobile device 20 can recognize the communication speed supported by each other, select the highest communication speed, and perform subsequent communication.

(4) “PIN verification request” / “PIN response” performs verification for ensuring security. The mobile station 20 that has received the “password verification request” checks the password set internally, and transmits a “password response (rejection)” if the password is different (A-6).
The “password verification request” is transmitted and received in the signal format of FIG. In the message type information block shown in the figure, identification information corresponding to the “password verification request” is entered, and in the additional information block, the password is entered. The mobile device 20 recognizes that the received signal is a “password collation request” by confirming the content of the message type information block of the received signal received from the external device 10. Further, by confirming the contents of the additional information block of the received signal, the personal identification number from the external device 10 is recognized.
The “password response” is transmitted and received in the signal format of FIG. The identification information corresponding to the “password response” is entered in the message type information block shown in the figure, and the password verification result (acceptance / rejection) is entered in the additional information block. The mobile device 20 collates the personal identification number received from the external device 10 in response to the personal identification number collation request with the personal identification number stored therein. As a result, if there is a match, “accept” is entered in the additional information block, and “reject” is entered in the additional information block if there is a mismatch.

(5) From the key emulation support information request / response (A-7), the mobile device 20 and the external device 10 recognize the function and communication format supported by the counterpart. Only functions that are compatible with both the mobile device 20 and the external device 10 can be executed.
The “key emulation support information request” is transmitted and received in the signal format of FIG. In the message type information block shown in the figure, identification information corresponding to the “key emulation support information request” is entered. The additional information block is composed of a function block and a format size block. The function block contains information indicating a support function of the external device 10, and the format size block contains a data size supported by the external device 10.
Specifically, the functional block is composed of a plurality of bits, each bit is associated with a support function, and “1” is entered in the bit corresponding to the function supported by the external device 10. For example, the first bit is assigned as “Mail creation shortcut”, the second bit as “Web shortcut”, the third bit as “Mail transmission”, the fourth bit as “Internet access”, and the fifth bit as “Bulletin board write”, “1” is set in the bit corresponding to the function supported by the external device 10. At this time, if the external device 10 supports all the functions, “1” is set in the first to fifth bits.
The same applies to the format size block. The block is composed of a plurality of bits, each bit is associated with the supported data size, and “1” is set in the bit corresponding to the data size supported by the external device 10. Put in. For example, the first bit is assigned as “128 bytes”, the second bit as “256 bytes”, the third bit as “512 bytes”, the fourth bit as “1024 bytes”, and the fifth bit as “2048 bytes”. “1” is set in the bit corresponding to the data size supported by the apparatus 10. At this time, if the external device 10 supports “128 bytes, 512 bytes, 2048 bytes”, “1” is set in the first bit, the third bit, and the fifth bit.
The mobile device 20 recognizes that the received signal is a “key emulation support information request” by confirming the content of the message type information block of the received signal received from the external device 10. In addition, by confirming the contents of the function block and format size block of the received signal, the function and data size supported by the external device 10 are recognized.

  The “key emulation support information response” is transmitted and received in the signal format of FIG. In the message type information block shown in the figure, identification information corresponding to the “key emulation support information response” is entered. The additional information block includes a protocol version block, a function block, a format size block, and a support information block. The protocol version block contains the protocol version of the key emulation function supported by the mobile device 20. Specifically, “1” is entered for version 1.0, “2” is entered for version 2.0, and “3” is entered for version 3.0. The function block contains “information indicating the support function of the mobile device 20”, the format size block contains “data size supported by the mobile device 20”, and the support information block contains “response to key input / non-response”. Is entered. The functional block and the format size block are the same as the functional block and the format size block for requesting key emulation support information, and thus description thereof is omitted. The support information block is composed of 1 or 2 or more bits. When the response to the key input from the external apparatus 10 is possible, “1” is entered, and when it is not possible, “0” is entered.

(6) “After the key emulation support information request / response transmission / reception process is completed, the key emulation mode is entered (A-8), and the operation can be performed with the signal and procedure of the key emulation mode.

11 and 12 are sequence diagrams illustrating messages displayed on the displays of the mobile device 20 and the external device 10 in the transition process to the key emulation mode. FIG. 12 shows a sequence of processing executed following the sequence of FIG.
When starting the transition to the key emulation mode, a message “external connection mode start YES / NO” is displayed on the display of the external device 10. When the user performs an operation of selecting “YES” while viewing this display, the “wireless device identification request” is transmitted from the external device 10 to the mobile device 20.
On the display of the mobile device 20 that has received the second “wireless device identification request” from the external device 10, the message “Transition to external connection mode. Please wait for a while” is displayed.
When transmission / reception of the above-mentioned “manufacturing number reading request” / “manufacturing number reading response” and “capability notification request” / “capability notification response” is completed, the mobile device PIN code is input to the display of the external device 10. Please ... "message is displayed. When the user inputs the password, the “password verification request” is transmitted from the external device 10 to the mobile device 20 together with the input password. Upon receiving this “password verification request”, the display of the mobile device 20 displays the message “PIN verification”.
If the collation process succeeds in the collation process of the personal identification number in the mobile device 20, a “password response (acceptance)” is transmitted from the mobile device 20 to the external device 10. The message “password verification OK” is displayed on the display of the external device 10 that has received this “password response (acceptance)”. On the other hand, if the password verification fails, a “password response (rejection)” is transmitted from the mobile device 20 to the external device 10. On the display of the external device 10 that has received this “password response (rejection)”, a message “The password is wrong. Please enter again” is displayed. The user again enters the password after seeing this message display. Here, if the password verification has failed a predetermined number of times (three times in the example of FIG. 11), “abnormal forced termination (password verification failure)” is transmitted from the mobile device 20 to the external device 10. The display of the external device 10 that has received this “abnormal forced termination (password collation failure)” displays the message “Please retry from the beginning.” The mobile device 20 enters the normal mode, and the external device 10 The message “External connection mode start YES / NO” is displayed on the display.
After successful verification in the verification process of the personal identification number in the mobile device 20 and the message “Personal identification verification OK” displayed on the display of the external device 10, a “key emulation support information request” is received from the external device 10. It is transmitted to the mobile device 20. At this time, a message “Please wait for a while” is displayed on the display of the external device 10. When the mobile device 20 that has received the “key emulation support information request” transmits a “key emulation support information response” to the external device 10, “the initial setting of the external connection mode has been completed” on the display of the mobile device 20. Is displayed. Then, a message “External connection mode initial setting complete” is displayed on the display of the external device 10, and the transition process to the key emulation mode is completed.

[Key emulation function]
FIG. 13 is a flowchart of processing for executing the “key emulation function” in the key emulation mode, and FIG. 14 is a sequence diagram of the processing. This “key emulation function” can be executed by the following procedure.
(1) The mobile device 20 receives a “key input request” from the external device 10 during the key emulation mode (B-1) (B-2, B-3), and the corresponding key is pressed. The same operation as that at the time is performed (B-4, B-5).

Since the “key input request” has a predetermined signal format as described below, it is possible to specify long press / double click / number of presses / multiplexing of keys.
For example, “key input request” is transmitted and received in a signal format as shown in FIG. The signal format of the “key input request” is composed of a block of message identification information and a block of additional information composed of three blocks. The message type information block contains identification information corresponding to the “key input request”.
The first additional information block is a sequence number block, and a sequence number (for example, 1 to 255) is entered in this block.
The second additional information block contains information on necessity of response, long press, double click, and number of presses. The response necessity information is information indicating necessity / unnecessity of a response to the key input (for example, “1” when a response is necessary, “0” when the response is not necessary). The long press information is information indicating the presence or absence of a long press (for example, “1” when the key press time is equal to or longer than the predetermined time, “0” when the key press time is shorter than the predetermined time). The double-click information is information indicating the presence or absence of double-click (for example, “1” when the key is pressed twice in succession, “0” otherwise). The information on the number of times of pressing is information indicating the number of times the key is pressed.
In the third additional information block, information on a key number and a multiplex flag is entered. The key number information is information indicating the key number of the pressed key. The information of the multiplex flag is information indicating the presence / absence of a subsequent key (for example, “1” when there is a subsequent key, “0” when there is no subsequent key, etc.). When N keys are pressed at the same time, information indicating that there is a subsequent key (for example, “1”) is entered as the first to (N−1) th multiplexing flags, and the Nth multiplexing flag is used. , Information indicating that there is no subsequent key (for example, “0”) is entered.

(2) In response to the “key input request”, the mobile device 20 returns a “key input response” as to whether or not to accept the operation (B-4, B-6).
For example, “key input response” is transmitted and received in the signal format as shown in FIG. The message identification information block of this “key input response” contains identification information corresponding to “key input response (OK)” or “key input response (NG)”, and the additional information block (sequence number block) has a sequence number. (For example, 1 to 255) is entered. By transmitting / receiving this “key input response”, the external apparatus 10 can confirm whether or not a key operation has been accepted. The soft keys having different roles depending on the state of the mobile device 20 are defined as soft key 1, soft key 2,..., And the role of the soft key in each state is grasped by the external device 10 side.

Table 1 shows an example of key names that can be specified by the “key input request”. Key command correspondence data (command table) in which identification information (key numbers) for identifying these key names and command data uniquely set for each key name is associated is stored in the data storage of the external device 10. Stored in the department. On the other hand, the data storage unit of the mobile device 20 stores key command corresponding data in which the command data and identification information of a plurality of key operations are associated with each other.
When a plurality of command data corresponds to the same key operation on the mobile device 20, the key operation based on the “key input request” signal in the command data is the same processing. When the command data corresponds to a key operation that does not exist in the mobile device 20, the “key input request” signal by the command data becomes invalid. The soft key is a key displayed on the display (LCD) of the mobile device 20. This soft key is effective when displayed on a display (LCD), and functions as a display content key for each displayed scene.

FIG. 16 is a flowchart of processing when a personal identification number is input in the key emulation mode, and FIG. 17 is a sequence diagram of the processing. In the key emulation mode (C-1), the mobile device 20 is waiting for input of a personal identification number such as dial lock or entering a secret mode (C-2). The external device 10 is notified that the input of the password is requested. When the external device 10 receives the “password request” from the mobile device 20, the external device 10 recognizes that the mobile device 20 is in a state waiting for input of the security code, and is ready to input the security code (C−). 4). This “password request” is transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, message identification information corresponding to “password request” is entered.
The password entered by the external device 10 is transmitted to the mobile device 20 together with the “password verification request” (C-5, C-6). When the mobile device 20 receives the “password verification request”, it transmits the password verification result to the external device 10 by “password response” (C-8, C-10). When the mobile device 20 receives the “password verification request”, it transmits the password verification result to the external device 10 by “password response” (C-8 to C-10). The signal format of “password verification request” and “password response” has been described above and will not be described. The external device 10 can also input a personal identification number by a “key input request”. However, in this case, the mobile device 20 does not notify the external device 10 of the collation result of the password entered by the “key input request”.

[Text input mode]
FIG. 18 is a flowchart of the “text input mode” process, and FIG. 19 is a sequence diagram of the process.
(1) A “text input mode start request” is sent from the external device 10 in a state (D-1) in which the mode is changed to the key emulation mode (D-2). The mobile device 20 returns a “text input mode start response (OK)” when the text input is possible (D-4).
The “text input mode start request” is transmitted and received in the signal format shown in FIG. In the message information type block shown in the figure, identification information corresponding to the “text input mode start request” is entered. The mobile device 20 recognizes that the received signal is a “text input mode start request” by confirming the content of the message type information block of the received signal received from the external device 10.
The “text input mode start response (OK)” is transmitted and received in the signal format shown in FIG. The identification information corresponding to the “text input mode start response (OK)” is entered in the message information type block shown in the figure, and the character code information that can be input to the mobile device 20 is entered in the additional information block. Specifically, the additional information block (character code block) is composed of a plurality of bits, each bit is associated with the character code, and “1” is set in the bit corresponding to the character code that can be input to the mobile device 20. Put in. For example, the first bit is assigned as “IA5 / ascii”, the second bit as “JIS X 0208”, the third bit as “Shift JIS”, the fourth bit as “Transparent”, and the fifth bit as “ignore”. “1” is put in the bit corresponding to the character code that can be input by the machine 20. At this time, if the mobile device 20 supports all the character codes, “1” is set in the first to fifth bits.
The external device 10 recognizes that the received signal is “text input mode start response (OK)” by checking the content of the message type information block of the received signal received from the mobile device 20. Further, by confirming the content of the additional information block, the character code that can be input to the mobile device 20 is recognized.

2) The mobile device 20 is then in the text input mode (D-5). When the mobile device 20 receives a “text input request” (D-6) from the external device 10, a “text input response (OK)” is returned.
The “text input request” is transmitted and received in the signal format of FIG. The signal format of this “text input request” is composed of a block of message identification information and a block of additional information consisting of six blocks. The message type information block contains identification information corresponding to the “text input request”. The first additional information block is a continuation flag block, and flag information indicating “presence / absence of a text input request signal to be continued” (for example, “1” when there is continuation, “0” when there is no continuation). Enters. The second additional information block is a data length block and contains the data length of the signal. The third additional information block is a DCS block and contains a value representing a character code (for example, “3” in the case of a JIS code). The fourth additional information block is a text data length block and contains the data length of the text data, and the fifth additional information block is a text data block and contains the text data. The sixth additional information block is a checksum block, which contains all or part of the arithmetic sum for each octet of data from the header to immediately before the checksum.
The “text input response (OK)” is transmitted and received in the signal format shown in FIG. In the message information type block shown in the figure, identification information corresponding to “text input response (OK)” is entered. The mobile device 20 recognizes that the received signal is “text input response (OK)” by checking the content of the message type information block of the received signal received from the external device 10.

(3) Thereafter, when returning from the text input mode to the key emulation mode, the external device 10 transmits a “text input mode end request” to the mobile device 20. In response to this, the mobile device 20 returns a “text input mode end response” to the external device 10.
The “text input mode end request” is transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to the “text input mode end request” is entered. The “text input mode end response” is transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to the “text input mode end response” is entered.
(4) If the mobile device 20 is not ready for text input and receives a “text input mode start request”, it returns a “text input mode start response (NG)” (D-10). This “text input mode start response (NG)” is transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to the “text input mode start response (NG)” is entered.

[Mail creation shortcut function]
FIG. 21 is a flowchart of processing for executing the “mail creation shortcut function” in the key emulation mode, and FIG. 22 is a sequence diagram of the processing.
(1) When a “mail creation shortcut request” is received from the external device 10 in the key emulation mode (E-2), the mobile device 20 specifies the mail type and the detailed designation of the transition destination (for example, in the mail settings). The screen changes to a screen determined according to the designation of the cursor position as any of the destination, subject, and text (E-3).
The “mail creation shortcut request” is transmitted and received in the signal format of FIG. The signal format of this “mail creation shortcut request” is composed of a block of message identification information and a block of additional information composed of two blocks. The message type information block contains identification information corresponding to the “mail creation shortcut request”. The first additional information block is a mail type block and contains identification information corresponding to the mail type to be created. The second additional information block is a transition destination designation block, and contains information indicating the transition destination (for example, destination, subject, text, etc.).

[Web shortcut function]
FIG. 24 is a flowchart of processing for executing the “Web shortcut function” in the key emulation mode, and FIG. 25 is a sequence diagram of the processing.
When a “Web shortcut request” is received from the external device 10 in the key emulation mode (F-2), the mobile device 20 transitions to a state where the cursor hits the menu item selected by the transition destination designation (F -3).
The “Web shortcut request” is transmitted and received in the signal format shown in FIG. The message identification information block shown in the figure contains identification information corresponding to “Web shortcut request”, and the additional information block (transition destination designation block) includes a transition destination (for example, main menu, my link, bookmark, Internet access, Information indicating home etc. is entered.

[Mail transmission function]
FIG. 26 is a flowchart of processing for executing the “mail transmission function” in the key emulation mode, and FIG. 27 is a sequence diagram of the processing.
(1) When receiving the “Mail transmission setting request” (G-2) from the external device 10 in the state of transition to the key emulation mode, the mobile device 20 stores the mail data (address, subject, text, etc.). Setting is performed (G-3), and “continuation data request”, “mail transmission setting response (OK)”, or “mail transmission setting response (NG)” is returned to the external apparatus 10. Then, mail transmission is performed in response to the “operation command (transmission)” (G-4 to G-6).
The “mail transmission setting request” is transmitted and received in the signal format shown in FIG. The signal format of this “mail transmission setting request” is composed of a block of message identification information and a block of additional information composed of a plurality of blocks. In the message type information block, identification information corresponding to the “mail transmission setting request” is entered. The additional information block contains information such as a continuation flag, data length, importance, destination number, destination type, destination data length, destination, DCS, subject data length, subject data body data length, body text, checksum, and the like.
The “continuation data request”, “mail transmission setting response (OK)”, and “mail transmission setting response (NG)” are transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to “continuation data request”, “mail transmission setting response (OK)”, and “mail transmission setting response (NG)” is entered.
The “operation command” is transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to the “operation command” is entered, and in the additional information block, operation code (transmission or cancellation) information is entered.

Here, the “operation command” is valid for the mail data set immediately before, and transmission (G-5) and cancellation (G-9) are possible. In the case of cancellation, the state returns to the state before the “mail transmission setting” is performed (G-1), and the set mail data is discarded.
In addition, the mobile device 20 also performs processing as shown in the following (a) to (g).
(A) If there is no “mail transmission setting” immediately before the “operation command”, a “mail transmission response (NG)” to be described later is returned to the “operation command”.
(B) When the mail function is set to OFF, a “mail transmission setting response (NG)” is returned to the “mail transmission setting”.
(C) Check the consistency between the destination type specified in the “mail transmission setting” and the DCS (Data Coding Scheme), and the DCS and the mail body data.
(D) If the destination is E-mail and DCS other than ISO-2022-JP is set in the “mail transmission setting”, a “mail transmission setting response (NG)” is returned.
(E) When an error occurs in the mail data setting by the “mail transmission setting”, a “mail transmission setting response (NG)” is returned, and the input mail data is discarded.
(F) When mail transmission is performed by the mail transmission function, the delivery confirmation is set by the setting of the mobile device 20.
(G) When the above “mail transmission setting” is continuously received, the last received mail is set as valid and mail data is set.

(2) The mobile device 20 performs mail transmission processing based on the “operation command”, and then performs “mail transmission response (OK)” based on the information of “transmission result” from the mobile communication network. Alternatively, a “mail transmission response (NG)” is transmitted to the external device 10 (G-7, G-8, G-10).
The “mail transmission response (OK)” and “mail transmission response (NG)” are transmitted and received in the signal format shown in FIG. In the message information type block shown in the figure, identification information corresponding to “mail transmission response (OK)” or “mail transmission response (NG)” is entered. The external device 10 recognizes whether or not the mail transmission is successful by confirming the content of the message type information block of the received signal received from the mobile device 20.

[Internet access (URL) function]
FIG. 28 is a flowchart of processing for executing the “Internet access (URL) function” in the key emulation mode, and FIG. 29 is a sequence diagram of the processing.
(1) When receiving the “URL information setting request” (H-2) including the URL character string from the external device 10 in the state of transition to the key emulation mode, the mobile device 20 Setting is performed (H-3), and a “continuation data request”, “URL information setting response (OK)”, or “URL information setting response (NG)” is returned to the external apparatus 10. In response to the “URL transmission command” (H-4), the mobile device 20 performs Internet access (H-5).
The “URL information setting request” is transmitted and received in the signal format shown in FIG. The signal format of this “URL information setting request” is composed of a block of message identification information and a block of additional information composed of a plurality of blocks. The message type information block contains identification information corresponding to the “URL information setting request”. The additional information block contains information such as a continuation flag, data length, URL, and checksum.
The “continuation data request”, “URL information setting response (OK)”, and “URL information setting response (NG)” are transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to “continuation data request”, “URL information setting response (OK)”, or “URL information setting response (NG)” is entered.
The “URL transmission command” is transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to the “URL transmission command” is entered.

Here, if there is a URL already entered in the mobile device 20, it is overwritten. Further, the response of the “URL transmission command” is made when access to the mobile device 20 is successful or an error is detected.
In addition, the mobile device 20 performs processing as shown in the following (a) and (b).
(A) When there is no “URL information setting request” immediately before the “URL transmission command”, an “Internet access response (NG)” to be described later is returned to the “URL transmission command”.
(B) When an error occurs in the URL setting by the “URL information setting request”, a “URL information setting response (NG)” is returned, and the input URL information is discarded.

(2) After performing the Internet access process based on the “URL transmission command”, the mobile device 20 performs an “Internet access response (OK)” based on the information of the “access result” from the mobile communication network. Alternatively, an “Internet access response (NG)” is transmitted to the external device 10 (H-6 to H-8).
The “Internet access response (OK)” and “Internet access response (NG)” are transmitted and received in the signal format shown in FIG. In the message information type block shown in the figure, identification information corresponding to “Internet access response (OK)” or “Internet access response (NG)” is entered. The external device 10 recognizes whether or not the Internet access is successful by confirming the content of the message type information block of the received signal received from the mobile device 20.

[Mail output mode]
FIG. 30 is a flowchart of the “mail output mode” process, and FIG. 31 is a sequence diagram of the process. Mail output is performed only during this mail output mode.
(1) The mobile device 20 transitions from the key emulation mode or the mail acquisition mode to the mail output mode by transmitting / receiving a “mail output mode start request / response” (I-1, I-10, I-2, I-3).
The “mail output mode start request”, “mail output mode start response (OK)”, and “mail output mode start response (NG)” are transmitted and received in the signal format shown in FIG. In the message information type block shown in the figure, identification information corresponding to “mail output mode start request”, “mail output mode start response (OK)” or “mail output mode start response (NG)” is entered.

Here, in the offline mode, the mobile device 20 returns a “mail output mode start response (NG)” in response to the “mail output mode start request”, and does not perform mode transition.
If the mail function is set to OFF, the mobile device 20 returns a “mail output mode start response (NG)” to the “mail output mode start request” and does not change the mode.

(2) When the mobile device 20 receives a mail (I-4), it assigns a mail number to each mail, and sends “mail output” in which the received mail information (sender, text, etc.) is set to the external device 10. (I-5). All mail received during the mail output mode is output.

The “mail output” is transmitted and received in the signal format of FIG. This “mail output” signal format is composed of a block of message identification information and a block of additional information consisting of four blocks. In the message type information block, identification information corresponding to “mail output” is entered. The first additional information block is a continuation flag block and contains identification information indicating presence or absence of continuation. The second additional information block is a data length block, and contains information indicating the data length (for example, byte length) from immediately after the data length block to immediately before the checksum block. The third additional information block is a received mail information block and contains information representing the following (a) to (h). The fourth additional information block is a block that contains a checksum.
[Received mail information]
(A) E-mail number: E-mail identification number assigned by the mobile device (b) FROM type: Mobile phone number / E-mail / server / service center type (c) Time stamp (d) FROM data length ( e) FROM: mail sender (f) DCS: DCS value representing character code (g) text data length (h) text: mail text

Here, the mobile device 20 also performs processing as shown in the following (a) to (f).
(A) In the case of mail that is being received in connection or other specific mail, it is excluded from the subject and no mail number is assigned.
(B) When the mail output from the mobile device 20 and the “mail output mode end request” from the external device 10 are different, priority is given to the mode transition by the “mail output mode end request”.
(C) The read / unread display of the mail is not changed by outputting to the external device 10.
(D) The mail output status (sent / not sent) is managed for each mail.
(E) Assume that transmission is completed when a mail output response (OK) is received from the external device 10 side.
(F) The mail output state is cleared when the mode is changed to the normal mode, and is completely unsent when entering the key emulation mode.

(3) When the external device 10 receives the “mail output” from the mobile device 20 (I-6), it returns a “continuation data request” or “mail output response (OK)” and displays the received mail information. For example, or stored in a data storage means such as a memory.
The “continuation data request” and “mail output response (OK)” are transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to “continuation data request” or “mail output response (OK)” is entered.

(4) Transition from the mail output mode to the key emulation mode and the mail acquisition mode is possible. Transition to the key emulation mode is made by transmission / reception (I-7) of “mail output mode end request / response”. In addition, a transition to the mail acquisition mode is made by transmission / reception (I-9) of “mail acquisition mode start request / response” (I-8).
The “mail output mode end request”, “mail output mode end response (OK)”, and “mail output mode end response (NG)” are transmitted and received in the signal format shown in FIG. In the message information type block shown in the figure, identification information corresponding to “mail output mode end request”, “mail output mode end response (OK)” or “mail output mode end response (NG)” is entered.
Similarly, the “mail acquisition mode start request”, “mail acquisition mode start response (OK)”, and “mail acquisition mode start response (NG)” are transmitted and received in the signal format shown in FIG. In the message information type block shown in the figure, identification information corresponding to “mail acquisition mode start request”, “mail acquisition mode start response (OK)” or “mail acquisition mode start response (NG)” is entered.

[Email retrieval mode]
FIG. 33 is a flowchart of the “mail acquisition mode” process, and FIG. 34 is a sequence diagram of the process. Mail acquisition is performed only during this mail acquisition mode.
(1) The mobile device 20 makes a transition from the key emulation mode or the mail output mode to the mail acquisition mode by transmitting / receiving a “mail acquisition mode start request / response” (J-1 to J-3).
The “mail acquisition mode start request”, “mail acquisition mode start response (OK)”, and “mail acquisition mode start response (NG)” are transmitted and received in the signal format of FIG. In the message information type block shown in the figure, identification information corresponding to “mail acquisition mode start request”, “mail acquisition mode start response (OK)” or “mail acquisition mode start response (NG)” is entered.

  Here, when the mail function is set to OFF, the mobile device 20 returns a “mail acquisition mode start response (NG)” to the “sky mail acquisition mode start request”, and does not change the mode.

(2) In order to request a list of emails received by the mobile device, the external device 10 sets the email conditions to be acquired in the “mail list request” (reception date / time, email number and email status), and sends it. (J-4), “list response” is received from the mobile device 20, and mail list information is acquired (J-5, J-6).

The “mail list request” is transmitted and received in the signal format of FIG. This “mail list request” signal format is composed of a block of message identification information and a block of additional information consisting of five blocks containing list request parameters. The message type information block contains identification information corresponding to the “mail list request”. The first additional information block is a period FROM block, and the second additional information block is a period TO block. The third additional information block is a status block, and contains information indicating a status such as transmission / non-transmission to the external apparatus 10 and read / unread. The fourth additional information is a mail number block, and contains the mail number of the mail to be acquired. Here, when there are a plurality of acquisition cases, the mail after this mail number is acquired. Further, the fifth additional information is a request number block, which contains the number of mails to be acquired.
The above five list request parameters (period FROM, period TO, status, mail number, number of requests) can be specified simultaneously. The period FROM and the period TO can only be specified at the same time.

Table 2 exemplifies the condition setting pattern of the “mail list request”.

The “mail list response (OK)” is transmitted and received in the signal format of FIG. The signal format of this “mail list response (OK)” is composed of a block of message identification information and a block of additional information consisting of four blocks. In the message type information block, identification information corresponding to “mail list response (OK)” is entered. The first additional information block is a continuation flag block and contains information indicating continuation or no continuation. The second additional information block is a data length block, and contains information indicating the data length (for example, byte length) from immediately after the data length block to immediately before the checksum block. The third additional information block is a list information block, and contains information on the number of items in the list and mail data information representing the following (a) to (h). Here, when there are a plurality of mails, mail data information representing the following (a) to (h) is entered for the number of mails. The fourth additional information is a checksum block.
[Mail data information in the list information]
(A) Mail number (b) FROM type: mobile phone number / E-mail / server / service center, etc. (c) Status: sent / not sent to external device, read / unread (d) time stamp ( e) FROM data length (f) FROM: mail sender (g) DCS: DCS value representing character code (h) text heading: first 20 bytes of mail text

(3) The external device 10 that has received the “list response” returns a “continuation data request” or “response end” to the mobile device 20.
The “continuation data request” and “response end” are transmitted and received in the signal format shown in FIG. In the message information type block shown in the figure, identification information corresponding to “continuation data request” or “response end” is entered.

(4) The external device 10 sets and transmits the mail number and time stamp of the mail to be acquired in the “mail acquisition request” (J-7), receives the “mail acquisition response (OK)”, and sends the mail information. Obtain (J-8).
The “mail acquisition request” is transmitted and received in the signal format of FIG. The signal format of this “mail acquisition response” is composed of a block of message identification information and a block of additional information consisting of two blocks. The message information type block contains identification information corresponding to the “mail acquisition request”. The first additional information block is a mail number block and contains information indicating the mail number of the mail to be acquired. The second additional information block is a time stamp block.
The “mail acquisition response (OK)” is transmitted and received in the signal format of FIG. The signal format of this “mail acquisition response” is composed of a block of message identification information and a block of additional information consisting of four blocks. In the message type information block, identification information corresponding to “mail acquisition response (OK)” is entered. The first additional information block is a continuation flag block and contains identification information indicating presence or absence of continuation. The second additional information block is a data length block, and contains information indicating the data length (for example, byte length) from immediately after the data length block to immediately before the checksum block. The third additional information block is a mail information block, and contains information on acquired mails representing the following (a) to (f). The fourth additional information block is a block that contains a checksum.
[Acquired email information]
(A) Mail number: Skymail identification number assigned by the mobile device (b) FROM type: Mobile phone number / E-mail / server / service center type (c) Time stamp (d) FROM: Mail (E) DCS (Data Coding Scheme): Mail character code set (f) Body: Mail body

Here, the mobile device 20 also performs processing as shown in the following (a) to (e).
(A) A fixed sentence is developed by the mobile device 20 and set in the text in the form of a sentence.
(B) The read / unread display is not changed when the external apparatus 10 acquires the mail.
(C) The mail output state (sent / not sent) is managed for each mail.
(D) When the mail acquisition response (OK) is normally transmitted to the external device 10 to the end, it is determined that the transmission has been completed.
(E) The mail output state is cleared when the mode is changed to the normal mode, and is completely unsent when entering the key emulation mode.

(5) The mobile device 20 transitions from the mail acquisition mode to the key emulation mode by transmitting / receiving a “mail acquisition mode end request / response” (J-9, J-10, J-1). Further, the mail output mode is changed (J-9, J-10, J-1) by transmission / reception (J-9) of "mail output mode start request / response".
The “mail acquisition mode end request”, “mail acquisition mode end response”, “mail output mode start request”, and “mail output mode start response” are transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to “mail acquisition mode end request”, “mail acquisition mode end response”, “mail output mode start request” or “mail output mode start response” is entered.

[Bulletin board writing function]
FIG. 39 is a sequence diagram of processing for executing a “bulletin board writing function” for writing to bulletin board data inside the mobile device 20 from the external device 10 in the key emulation mode.
When receiving a “Bulletin Board Write Request” including bulletin board data from the external device 10 in the state of transition to the key emulation mode, the mobile device 20 performs settings for Internet access, A “continuation data request”, “bulletin board write response (OK)” or “bulletin board write response (NG)” is returned.

  The “bulletin board write request” is transmitted and received in the signal format of FIG. The signal format of this “bulletin board write request” is composed of a block of message identification information and a block of additional information consisting of four blocks. The message type information block contains identification information corresponding to the “bulletin board write request”. The first additional information block is a continuation flag block and contains identification information indicating presence or absence of continuation. The second additional information block is a data length block, and contains information indicating the data length (for example, byte length) from immediately after the data length block to immediately before the checksum block. The third additional information block is a bulletin board data block, and contains a DCS value representing a character code, bulletin board data length, and information representing bulletin board data. The fourth additional information block is a block that contains a checksum.

  The “continuation data request”, “bulletin board write response (OK)”, and “bulletin board write response (NG)” are transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, identification information corresponding to “continuation data request”, “bulletin board write response (OK)”, or “bulletin board write response (NG)” is entered.

In addition, the mobile device 20 performs processing as shown in the following (a) to (e).
(A) If the bulletin board setting of the mobile device 20 is position information, a “bulletin board write response (NG)” is returned in response to the “bulletin board write request”, and the request is rejected.
(B) When the bulletin board setting of the mobile device 20 is OFF, a “bulletin board write response (NG)” is returned in response to the “bulletin board write request”, and the request is rejected.
(C) When the mail function setting of the mobile device 20 is OFF, a “bulletin board write response (NG)” is returned in response to the “bulletin board write request”, and the request is rejected.
(D) Check the consistency between the DCS (Data Coding Scheme) specified by the “Bulletin Board Write Request” and the bulletin board data.
(E) When an error occurs in the bulletin board data writing by the “bulletin board writing request”, a “bulletin board writing response (NG)” is returned, and the written bulletin board data is discarded.

[Email number]
As described above, the mobile device 20 assigns a mail number to the received mail. A specific mail can be designated from the external device 10 using this mail number.

[Standby status confirmation process]
FIG. 41 is a flowchart of the standby state confirmation process, and FIG. 42 is a sequence diagram of the process.
The external device 10 transmits a “state confirmation request” to confirm the state of the mobile device 20 (K-2). The mobile device 20 sets “standby state (1)” in the stand-by state and “non-standby state (0)” in the stand-by state when it is not in the stand-by state, and sets the “state check response” to the external. It returns to the apparatus 10 (K-3). The external device 10 can recognize the standby state of the mobile device 20 by receiving the “state confirmation response” from the mobile device 20.
Here, the “standby state” is an initial screen in the key emulation mode, and is not a standby state in the normal mode. The initial screen in the standby state may differ depending on the mobile device model. When there are a plurality of screens in the standby state during the key emulation mode, the operations by pressing all the keys are the same on those screens.

[Processing when the battery level is low (when the battery voltage is low)]
FIG. 43 is a flowchart of processing when the remaining battery level is low (when the battery voltage is low), and FIG. 44 is a sequence diagram of the processing.
The mobile device 20 transmits a “warning notification (battery voltage drop)” when detecting a drop in battery voltage (about one battery level display) during the key emulation mode (L-1) (L-2). (L-3). The external device 10 can recognize that the remaining battery level of the mobile device 20 is reduced by receiving a “warning notification (battery voltage drop)” from the mobile device 20.
Since the warning notification is an autonomous message, a “warning notification (battery voltage drop)” is not sent as a response signal during signal transmission / reception. After the transmission / reception is completed, a “warning notification (battery voltage drop)” is transmitted.
The warning notification is not transmitted during the key emulation mode entry sequence. When a battery voltage drop is detected during the key emulation mode entry sequence, a “warning notification (battery voltage drop) is transmitted after the key emulation mode entry sequence.

[Processing at low voltage]
FIG. 45 is a sequence diagram of processing at a low voltage.
When the mobile device 20 detects a low voltage (border line of the operating voltage of the mobile device 20) during the key emulation mode, the mobile device 20 transmits “abnormal forced termination (low voltage)” to the external device 10 to enter the normal mode. Transition. Abnormal forced termination (low voltage) can be transmitted at any time. However, when the key emulation mode entry sequence is in progress, the time when the “serial number read response” is sent is the first opportunity.

[Key emulation mode end processing]
FIG. 46 is a flowchart of the key emulation mode end process, and FIG. 47 is a sequence diagram of the process.
During the key emulation mode, a “key emulation termination request” is transmitted from the external device 10 (M-2), and a “key emulation termination response (OK)” is transmitted from the mobile device 20 (M-2). Thus, the key emulation mode is terminated and the mode is changed to the normal mode (M-3).
The “key emulation end request” and the “key emulation end response (OK)” are transmitted and received in the signal format shown in FIG. In the message type information block shown in the figure, message identification information corresponding to “key emulation end request” or “key emulation end response (OK)” is entered. The mobile device 20 recognizes that the received signal is a “key emulation end request” by confirming the content of the message type information block of the received signal received from the external device 10, and receives a “key emulation end response”. (OK) "is transmitted to the external device.

  In the above embodiment, a case where wired serial communication using a serial interface cable is adopted as communication between the external device 10 and the mobile device 20, but short-range wireless communication such as Bluetooth (registered trademark) or infrared light is used. Wireless communication such as communication may be employed. Also, the communication method is not limited to serial communication, and the present invention can be similarly applied when other communication methods such as parallel communication are adopted.

1 is a functional block diagram of a mobile device and an external device constituting a mobile device operation system according to an embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an explanatory diagram of an entire communication system including a mobile device operation system configured by connecting an interface cable to a mobile device according to an embodiment and an external device. External view of a mobile device. The schematic block diagram which shows an example of the hardware constitutions of a moving apparatus. The schematic block diagram which shows an example of the hardware constitutions of an external device. Explanatory drawing of the signal format of the serial signal transmitted / received between a moving apparatus and an external device. Explanatory drawing of other signal formats. Explanatory drawing of the function which can be operated by the transition between several operation modes and the key emulation mode in the mobile device of this embodiment. The flowchart of the process which changes the operation mode of a mobile apparatus from normal mode to key emulation mode. The sequence diagram of the transition process to the key emulation mode. The sequence diagram which illustrated the message displayed on each display of a moving apparatus and an external device in the transition process to key emulation mode. The sequence diagram of the process performed following the sequence of FIG. The flowchart of the process which performs a "key emulation function" in key emulation mode. The sequence diagram of the same processing. Explanatory drawing of the signal format of the "key input request" transmitted / received by the same process. The flowchart in the case of "password request | requirement" in key emulation mode. The sequence diagram of the same processing. The flowchart of a process of "text input mode". The sequence diagram of the same processing. Explanatory drawing of the signal format of the "text input request" transmitted / received by the same process. The flowchart of the process which performs a "mail creation shortcut function" in key emulation mode. The sequence diagram of the same processing. Explanatory drawing of the signal format of the "mail creation shortcut request" transmitted / received by the same process. The flowchart of the process which performs a "Web shortcut function" in key emulation mode. The sequence diagram of the same processing. The flowchart of the process which performs a "mail transmission function" in key emulation mode. The sequence diagram of the same processing. The flowchart of the process which performs an "Internet access (URL) function" in key emulation mode. The sequence diagram of the same processing. The flowchart of a process of "mail output mode". The sequence diagram of the same processing. Explanatory drawing of the signal format of "mail output" transmitted / received by the same process. The flowchart of a process of "mail acquisition mode". The sequence diagram of the same processing. Explanatory drawing of the signal format of the "mail list request" transmitted / received by the same process. Explanatory drawing of the signal format of "mail list response (OK)" transmitted / received by the same process. Explanatory drawing of the signal format of the "mail acquisition request" transmitted / received by the same process. Explanatory drawing of the signal format of "mail acquisition response (OK)" transmitted / received by the same process. The sequence diagram of the process which performs "Bulletin board writing function". Explanatory drawing of the signal format of "Bulletin board write request" transmitted / received by the same process. The flowchart of a standby state confirmation process. The sequence diagram of the same processing. The flowchart of the process at the time of battery remaining charge fall (at the time of battery voltage fall). The sequence diagram of the same processing. The sequence diagram of the process at the time of a low voltage. The flowchart of a key emulation mode completion | finish process. The sequence diagram of the same processing.

Explanation of symbols

10 External device 11 Interface cable 20 Mobile device 40 Mobile communication network

Claims (19)

Data transmission / reception means for transmitting / receiving data to / from an external device, a plurality of keys to be operated by the user, and normal key operation that is operated according to the key operation when the user operates the key A mobile communication terminal comprising a control means capable of executing an operation mode,
Stores key command correspondence data in which identification information of a plurality of key operations that can be operated by the user and a plurality of command data transmitted from the external device corresponding to each of the plurality of key operations are associated with each other. Data storage means for
The control means responds to the command data based on any of the plurality of command data received from the external device by the data transmission / reception means and the key command correspondence data stored in the data storage means. It has a key emulation operation mode that specifies the key operation and operates in the same way as when the specified key operation is performed. This key emulation operation mode and the normal key operation operation mode can be selectively executed. A mobile communication terminal characterized by the above. The mobile communication terminal according to claim 1, wherein
The control means receives, from the external device, a serial number read request for requesting reading of the serial number of the mobile communication terminal when transitioning from the normal key operation mode to the key emulation mode. A mobile communication terminal for controlling the data transmission / reception means so as to transmit a serial number read response in response to a serial number read request together with the serial number to the external device. The mobile communication terminal according to claim 1, wherein
The control means receives, from the external device, a capability notification request for requesting notification of the communication capability of the mobile communication terminal when transitioning from the normal key operation mode to the key emulation mode. The data transmission / reception means is controlled to transmit a capability notification response to the notification request together with the communication capability notification data to the external device, and based on the communication capability notification data, in the key emulation operation mode. A mobile communication terminal, wherein communication conditions for data transmission / reception with the external device are set. The mobile communication terminal according to claim 1, wherein
The control means sends a key emulation support information request for requesting key emulation support information related to an executable operation based on the command data when transitioning from the normal key operation operation mode to the key emulation operation mode. The data transmitting / receiving means is controlled to transmit a key emulation support information response received from the external device and responding to the key emulation support information request to the external device together with the key emulation support information. Mobile communication terminal. In the mobile communication terminal according to claim 1, 2, 3, or 4,
Image display means for displaying an image;
When the control means receives a specific function shortcut request from the external device during execution of the key emulation operation mode, the control means displays a screen of the function specified by the specific function shortcut request on the image display means as a shortcut. A mobile communication terminal characterized by controlling the image display means. In the mobile communication terminal according to claim 1, 2, 3, or 4,
The control means has a text input mode for collectively inputting text information consisting of a plurality of characters transmitted together with a text input request from the external device, and during execution of the key emulation operation mode, A mobile communication terminal configured to transition from the key emulation operation mode to the text input mode when a text input mode start request is received from an external device. In the mobile communication terminal according to claim 1, 2, 3, or 4,
Mail data transmitting / receiving means for transmitting / receiving mail to / from a mail server via a mobile communication network, and mail data storage means for storing data of the mail,
The control means has a mail output mode in which mail information acquired at the timing when mail acquisition from the mail server is completed is independently transmitted from the mobile device to the external device, and the external control unit is in operation during the execution of the key emulation operation mode. A mobile communication terminal configured to transition from the key emulation operation mode to the mail output mode when a mail output mode start request is received from a device. In the mobile communication terminal according to claim 1, 2, 3, or 4,
Mail data transmitting / receiving means for transmitting / receiving mail to / from a mail server via a mobile communication network, and mail data storage means for storing data of the mail,
The control means has a mail acquisition mode in which acquired mail information acquired from the mail server is transmitted to the external device based on a mail acquisition request transmitted from the external device, and the key emulation operation is performed. A mobile communication terminal configured to transition from the key emulation operation mode to the mail acquisition mode when a mail acquisition mode start request is received from the external device during execution of the mode. In the mobile communication terminal according to claim 1, 2, 3, or 4,
Mail data transmitting / receiving means for transmitting / receiving mail to / from a mail server via a mobile communication network, and mail data storage means for storing mail data,
When the control means receives mail data together with a mail transmission setting request from an external device during execution of the key emulation operation mode, the control means stores the mail data in the mail data storage means, and stores the mail data. When receiving command data corresponding to a key operation for transmitting to the mail server from the external device, the mail data transmitting / receiving means so as to transmit the mail data stored in the mail data storage means to the mail server. A mobile communication terminal characterized by controlling the above. An external device comprising data transmitting / receiving means for transmitting / receiving data to / from a mobile communication terminal having a plurality of keys,
Stores key command correspondence data in which identification information of a plurality of key operations in the mobile communication terminal and a plurality of command data to be transmitted to the mobile communication terminal are associated with each of the plurality of key operations. Data storage means;
Control for controlling the data transmission / reception means to transmit command data corresponding to any one of a plurality of key operations in the mobile communication terminal to the mobile communication terminal based on the key command corresponding data And an external device. The external device of claim 10,
The data storage means stores a plurality of sets of the key command corresponding data so as to correspond to a plurality of types of mobile communication terminals,
The control means performs key emulation that operates in the same manner as when the key operation specified by the command data is performed from the normal key operation operation mode that operates according to the key operation when the user operates the key. When the operation mode of the mobile communication terminal transitions to the operation mode, a serial number read request for requesting reading of the serial number of the mobile communication terminal is transmitted to the mobile communication terminal, and the serial number read request A set of key commands used to transmit the command data based on the manufacturing number, by controlling the data transmission / reception means so as to receive a manufacturing number read response in response to the mobile communication terminal together with the manufacturing number. An external device characterized by selecting corresponding data. The external device of claim 10,
The control means performs key emulation that operates in the same manner as when the key operation specified by the command data is performed from the normal key operation operation mode that operates according to the key operation when the user operates the key. When the operation mode of the mobile communication terminal transitions to the operation mode, a capability notification request for requesting notification of the communication capability of the mobile communication terminal is transmitted to the mobile communication terminal and responded to the capability notification request Control the data transmission / reception means so as to receive from the mobile communication terminal together with the communication capability notification data, and data between the mobile communication terminals based on the communication capability notification data. An external device characterized by setting communication conditions for transmission and reception. The external device of claim 10,
The control means performs key emulation that operates in the same manner as when the key operation specified by the command data is performed from the normal key operation operation mode that operates according to the key operation when the user operates the key. When the operation mode of the mobile communication terminal transitions to an operation mode, a key emulation support information request for requesting key emulation support information related to an executable operation based on the command data is sent to the mobile communication terminal. And transmitting and receiving the key emulation support information response in response to the key emulation support information request together with the key emulation support information from the mobile communication terminal. External device. The external device according to claim 10, 11, 12, or 13,
The control means transmits a specific function shortcut request for causing the screen display means of the mobile communication terminal to display a screen of a specific function as a shortcut to the mobile communication terminal executing the key emulation operation mode. Thus, an external device characterized in that the data transmission / reception means can be controlled. The external device according to claim 10, 11, 12, or 13,
The control means executes the key emulation operation mode in response to a text input mode start request for making a transition from the key emulation operation mode to a text input mode for collectively inputting text information consisting of a plurality of characters. An external device characterized in that the data transmitting / receiving means can be controlled to transmit to a mobile communication terminal. The external device according to claim 10, 11, 12, or 13,
The control means includes a mail output for switching to a mail output mode in which mail information acquired from a mail server via a mobile communication network is transmitted from the mobile device to the external device autonomously at the timing acquired from the mail server. An external device characterized in that the data transmission / reception means can be controlled so as to transmit a mode start request to a mobile communication terminal executing the key emulation operation mode. The external device according to claim 10, 11, 12, or 13,
The control means sends a mail acquisition mode start request for transitioning to a mail acquisition mode for acquiring mail from a mail server via a mobile communication network, and the mobile communication executing the key emulation operation mode. An external device characterized in that the data transmitting / receiving means can be controlled so as to transmit to a terminal. The external device according to claim 10, 11, 12, or 13,
The control means transmits the mail data to be transmitted to the mail server via the mobile communication network to the mobile communication terminal executing the key emulation operation mode together with the mail transmission setting request, An external device characterized in that the data transmitting / receiving means can be controlled to transmit command data corresponding to a key operation for transmitting mail data to the mail server to the mobile communication terminal. The external device of claim 10, 11, 12, 13, 14, 15, 16, 17 or 18,
It has a number of external operation keys for users to operate,
The key command correspondence data is a combination of identification information of the plurality of external operation keys, identification information of a plurality of key operations in the mobile communication terminal, and the command data,
The control means is configured to transmit the command data corresponding to the external operation key to the mobile communication terminal when the user operates any of the plurality of external operation keys. An external device characterized by controlling

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