JP5035143B2 - Communication terminal - Google Patents

Description

  The present invention relates to a communication terminal, and more particularly to a communication terminal that can exchange mutual presence between communication terminals.

  In recent years, a service for exchanging current presence information between a plurality of communication terminals (for example, mobile phones) connected via a network is known. For example, each communication terminal that uses this service sequentially registers the current presence information in the presence server, and the presence server manages the presence information of each mobile terminal, and the presence information of the managed communication terminal Is supplied to other communication terminals as necessary.

The following techniques are known as techniques relating to a method for providing presence information (see, for example, Patent Document 1). According to the technique proposed in Patent Document 1, in a presence information providing system having a user terminal that transmits message information and a presence management server that manages user presence information, the user terminal is a presence management server. And a message creation unit that creates message information according to the presence information of the transmission source provided from the presence management server, and the presence management server manages the user information. A communication history management unit that manages communication history information accumulated by the communication, a communication status determination unit that determines a future communication status of the user terminal based on at least one of the communication history information and the user information, A presence update unit that updates the presence information of the user terminal based on the situation is provided. Thereby, when there is no presence update, the communication status of the user terminal can be determined using the communication history information.
JP 2005-57709 A

  Recently, a plurality of communication means have been mounted on one communication terminal. For example, as a communication means mounted on a communication terminal, a physical line such as 3G (physical line used for mobile phone wireless communication), WLAN (Wireless LAN), WiMAX (Worldwide Interoperability for Microwave Access), or PHS can be considered. As for services for exchanging presence information, services using respective communication means have been provided.

  However, if presences are exchanged separately using a plurality of communication means, the number of presence update notifications increases, resulting in an increase in current consumption. As a result, the battery life in the communication terminal is deteriorated. Further, it has been difficult to know whether or not it is possible to connect to other communication terminals by a service using any communication means. Of course, the current connection status and the like may be checked in advance with other communication terminals that exchange presence information, but frequent connection with other communication terminals is performed. As a result, the power consumption increases and the battery life at the communication terminal deteriorates.

  The present invention has been made in view of such circumstances, and an object thereof is to provide a communication terminal capable of updating the latest presence information while suppressing power consumption.

  In order to solve the above-described problem, the communication terminal of the present invention exchanges at least one communication unit communicating with another communication terminal and another communication terminal via the communication unit. When there is storage means for storing presence information of a plurality of communication services and presence information of any communication service, presence update notifications including presence information of the plurality of communication services are sent according to the priority of the communication unit, Control means for controlling to transmit to another communication terminal using any one of the communication units.

  According to the present invention, the latest presence information can be updated while suppressing power consumption.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  Before describing an embodiment of the present invention, a schematic concept according to the present invention will be described. Recently, a plurality of communication means have been mounted on one communication terminal. For example, as a communication means mounted on a communication terminal, a physical line such as 3G (physical line used for mobile phone wireless communication), WLAN (Wireless LAN), WiMAX (Worldwide Interoperability for Microwave Access), or PHS can be considered. As for services for exchanging presence information, services using respective communication means have been provided. More specifically, in the case of a communication terminal equipped with a communication means that can be wirelessly connected by a CDMA (Code Division Multiple Access) method and a communication means using WLAN, a call service by CDMA and a VoIP ( (Voice Over Internet Protocol) communication service can be used. Of course, there may be a case where a plurality of different services can be used on the same communication means (communication means wirelessly connectable by CDMA and communication means using WLAN). As described above, when a communication service using a plurality of communication means is used, it is assumed that the user uses, for example, the first communication means for a company and the second communication means for an individual.

  In the present invention, as shown in FIG. 1, each communication terminal (in FIG. 1) is connected by peer to peer communication without using a connection control server (not shown) including a SIP server and presence server on the Internet. In this case, consider a system for exchanging presence information directly between communication terminals A to E). In addition, when performing communication using WLAN, IP addresses of other communication terminals using the WLAN VoIP communication service are acquired in advance.

  When exchanging presence between a plurality of communication terminals using a plurality of communication means (communication services), the presence is updated for each communication service every time the presence in each communication service at the communication terminal is updated. For example, it is assumed that presence is exchanged between four communication terminals (communication terminals A to D) each having three different communication means (communication means 1 to 3).

  Conventionally, as shown in FIG. 2, when the presence of the first communication service is updated in the communication terminal A, the communication terminal A uses the first communication means to notify the presence update of the first communication service. (Status update notification) is performed on the other communication terminals B to D. When the other communication terminals B to D receive the presence update notification of the first communication service from the communication terminal A, each of the communication terminals B to D sends an update response that is a response (ACK) to the received presence update notification to the first communication service. Is transmitted to the communication terminal A. Further, the communication terminal A uses the second communication means to send a presence update notification (state update notification) of the second communication service to the other communication terminals B to D. When the other communication terminals B to D receive the presence update notification of the second communication service from the communication terminal A, each of the other communication terminals B to D sends an update response that is a response (ACK) to the received presence update notification to the second communication service. Is transmitted to the communication terminal A. The same applies to the case where the third communication service is used.

  That is, when the presence of each communication service is updated in the communication terminal A, the presence update notification is transmitted for each of the three installed communication means (communication services), and the presence of three times is determined for each other communication terminal. Update notification transmission processing is executed.

  Conventionally, as shown in FIG. 2, if the presence is separately exchanged using a plurality of communication means, the number of presence update notifications increases, and the current consumption increases accordingly. As a result, the battery life in the communication terminal is deteriorated. Also, it has been difficult to know whether or not it is possible to connect to another communication terminal by a service using any communication means. Of course, the current connection status and the like may be checked in advance with other communication terminals that exchange presence information, but frequent connection with other communication terminals is performed. Eventually, the power consumption increases accordingly, and the battery life at the communication terminal deteriorates.

  Therefore, in the present invention, when the presence of each communication service is updated in the communication terminal, the communication terminal does not send a presence update notification to other communication terminals for each communication means (or communication service), for example, As shown in FIG. 3, using any one of a plurality of communication means (first communication means in the case of FIG. 3), the presence update notification of all communication services is sent to other communication terminals. Are done together. At this time, whether or not to use any one of the plurality of communication means may be determined in consideration of, for example, the connection status of each communication means or the communication cost, or In accordance with a predetermined priority, any one of the plurality of communication means may be selected. As a result, the latest presence information can be updated while reducing the number of times of presence update notification transmission and suppressing power consumption. Hereinafter, an embodiment of the present invention using this method will be described.

  FIG. 4 shows a schematic configuration of the network system 1 according to the present invention. As shown in FIG. 4, in the network system 1, base stations (not shown), which are fixed radio stations, are installed in cells obtained by dividing a communication service providing area into a desired size. These base stations (not shown) include a first communication unit (wireless telephone communication unit in FIG. 5) as a first communication unit included in each of the communication terminals 2-1 to 2-3 which are mobile radio stations. For example, the wireless connection is performed by a code division multiple access method called W-CDMA (Wideband-Code Division Multiple Access), and for example, 2 [GHz] is used in a frequency band of 2 [GHz]. Large-capacity data can be communicated at high speed with a data transfer rate of 384 [Kbps] when moving [Mbps]. In the following description, the communication terminals 2-1 to 2-3 are collectively referred to as the communication terminal 2 when it is not necessary to individually distinguish them.

  A base station (not shown) is connected to a CDMA network 3 that is a carrier network via a wired line, and a connection control server 4 managed by the carrier is connected to the CDMA network 3. The connection control server 4 on the operator side performs connection control within the CDMA network 3 that is an operator network. The CDMA network 3 is connected to the Internet 5, which is a publicly available Internet network. The communication terminals 2-1 to 2-3 use an access point (not shown) by using a second communication unit (wireless LAN communication unit 51 in FIG. 5) as a second communication means included in each communication terminal 2. Wireless connection to the Internet 5 is possible.

  As described above, in the embodiment of the present invention, the communication terminals 2-1 to 2-3 include a plurality of communication units, and one communication unit is a wireless communication via the CDMA network 3 that is a carrier network. It is assumed that the other communication means can be connected to the Internet 5 like the WLAN. However, as a combination of two communication means, any two of physical lines such as 3G (physical line used for mobile phone wireless communication), WLAN (Wireless LAN), WiMAX (Worldwide Interoperability for Microwave Access), PHS, etc. Things can be considered. Further, the communication terminal 2 may be provided with three or more communication means.

  In the embodiment of the present invention, in order to simplify the description, a case where there are three communication terminals 2 of the communication terminal 2-1 to the communication terminal 2-3 will be described explicitly. The present invention is not limited to the case, and the present invention can naturally be applied to a case where two or four or more communication terminals 2 exist.

  FIG. 5 shows an internal configuration of the communication terminal 2 (communication terminal 2-1, communication terminal 2-2, or communication terminal 2-3) of FIG. A radio signal transmitted from a base station (not shown) is received by an antenna 31 and then input to a receiving circuit (RX) 33 via an antenna duplexer (DUP) 32. The receiving circuit 33 mixes the received radio signal with the local oscillation signal output from the frequency synthesizer (SYN) 34 and converts the frequency into an intermediate frequency signal (down-conversion). Then, the reception circuit 33 orthogonally demodulates the down-converted intermediate frequency signal and outputs a reception baseband signal. The frequency of the local oscillation signal generated from the frequency synthesizer 34 is instructed by a control signal SYC output from the control unit 41.

  The reception baseband signal from the reception circuit 33 is input to the CDMA signal processing unit 36. The CDMA signal processing unit 36 includes a RAKE receiver (not shown). In this RAKE receiver, a plurality of paths included in the received baseband signal are despread with each spreading code (that is, the same spreading code as that of the spread received signal). Then, the signals of the respective paths subjected to the despreading process are subjected to coherent Rake synthesis after the phase is adjusted. The data sequence after Rake combining is subjected to deinterleaving and channel decoding (error correction decoding), and then binary data determination is performed. Thereby, received packet data of a predetermined transmission format is obtained. This received packet data is input to the compression / decompression processor 37.

  The compression / decompression processing unit 37 is configured by a DSP (Digital Signal Processor) or the like, and the received packet data output from the CDMA signal processing unit 36 is separated for each medium by a demultiplexing unit (not shown). Each data is decrypted. For example, in the call mode, audio data corresponding to call voice included in the received packet data is decoded by a speech codec. Also, if the received packet data includes moving image data, such as the videophone mode, this moving image data is decoded by a video codec. Further, if the received packet data is a download content, the download content is decompressed, and then the decompressed download content is output to the control unit 41.

  The digital audio signal obtained by the decoding process is supplied to the PCM codec 38. The PCM codec 38 PCM-decodes the digital audio signal output from the compression / decompression processor 37 and outputs the analog audio data signal after PCM decoding to the reception amplifier 39. The analog audio signal is amplified by the receiving amplifier 39 and then output from the receiver 18 (or the speaker 50).

  The digital moving image signal decoded by the video codec by the compression / decompression processing unit 37 is input to the control unit 41. The control unit 41 displays a moving image based on the digital moving image signal output from the compression / decompression processing unit 37 on the main display 17 via a video RAM (for example, a VRAM) (not shown). Note that the control unit 41 not only receives the received moving image data but also moves the moving image data captured by the CCD camera 20 via the video RAM (not shown). It may be displayed on a display).

  Further, when the received packet data is an electronic mail, the compression / decompression processing unit 37 supplies the electronic mail to the control unit 41. The control unit 41 stores the electronic mail supplied from the compression / decompression processing unit 37 in the storage unit 42. Then, the control unit 41 reads out the electronic mail stored in the storage unit 42 in accordance with the operation of the operation key 14 as an input unit by the user, and displays the read electronic mail on the main display 17.

  On the other hand, in the call mode, the voice signal (analog audio signal) of the speaker (user) input to the microphone 15 is amplified to an appropriate level by the transmission amplifier 40 and then PCM encoded by the PCM codec 38. The digital audio signal after the PCM encoding is input to the compression / decompression processing unit 37. The moving image signal output from the CCD camera 20 is digitized by the control unit 41 and input to the compression / decompression processing unit 37. Further, an electronic mail which is text data created by the control unit 41 is also input to the compression / decompression processing unit 37.

  The compression / decompression processor 37 compresses and encodes the digital audio signal output from the PCM codec 38 in a format corresponding to a predetermined transmission data rate. Thereby, audio data is generated. The compression / decompression processing unit 37 compresses and encodes the digital moving image signal output from the control unit 41 to generate moving image data. Then, the compression / decompression processing unit 37 multiplexes these audio data and moving image data by a demultiplexing unit (not shown) according to a predetermined transmission format, and then packetizes them. Output to. Note that the compression / decompression processing unit 37 also multiplexes the e-mail into the transmission packet data even when the e-mail is output from the control unit 41.

  The CDMA signal processing unit 36 performs spread spectrum processing on the transmission packet data output from the compression / decompression processing unit 37 using a spreading code assigned to the transmission channel, and transmits the output signal after the spread spectrum processing to the transmission circuit ( TX) 35. The transmission circuit 35 modulates the signal after the spread spectrum processing using a digital modulation method such as a QPSK (Quadrature Phase Shift Keying) method. The transmission circuit 35 combines the digitally modulated transmission signal with a local oscillation signal generated from the frequency synthesizer 34 and frequency-converts (up-converts) the signal into a radio signal. Then, the transmission circuit 35 amplifies the radio signal generated by this up-conversion with high frequency so that the transmission power level instructed by the control unit 41 is obtained. The radio signal amplified by the high frequency is supplied to the antenna 31 via the antenna duplexer 32 and transmitted from the antenna 31 to a base station (not shown).

  The communication terminal 2 includes an external memory interface 45. The external memory interface 45 has a slot into which the memory card 46 can be attached and detached. The memory card 46 is a type of flash memory card typified by a NAND flash memory card or a NOR flash memory card, and can write and read various data such as images, sounds and music via a 10-pin terminal. It has become. Further, the communication terminal 2 is provided with a clock circuit (timer) 47 that measures the current accurate current time.

  The control unit 41 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory). The CPU is loaded into the RAM from the program stored in the ROM or the storage unit 42. In addition to executing various processes according to various application programs including an operating system (OS), the communication terminal 2 is comprehensively controlled by generating various control signals and supplying them to the respective units. The RAM appropriately stores data necessary for the CPU to execute various processes.

  The storage unit 42 is composed of, for example, a flash memory element or HDD (Hard Disc Drive) which is a non-volatile memory that can be electrically rewritten and erased, and various application programs executed by the CPU of the control unit 41 and various types. The data group is stored.

  The power supply circuit 44 generates a predetermined operating power supply voltage Vcc based on the output of the battery 43 and supplies it to each circuit unit.

  The wireless LAN communication unit 51 performs wireless LAN communication conforming to a predetermined standard such as IEEE802.11a / b / g via a built-in antenna (not shown). In the embodiment of the present invention, when the communication terminal 2 is carried and moved by the user, the wireless LAN communication unit 51 of the communication terminal 2 is appropriately connected to an access point (not shown) close to the communication terminal 2. To obtain a newly assigned IP address. The acquired latest IP address is stored (held) in the storage unit 42 of the communication terminal 2. Thereby, the IP address of the communication terminal 2 is dynamically switched.

  In the communication terminal 2 (communication terminal 2-1, communication terminal 2-2, or communication terminal 2-3), for example, as shown in FIG. 6, the current communication terminal is provided for each communication means (or communication service). 2 presence is displayed on the main display 17. For example, in the case of the communication terminal 2-1, as shown in FIG. 6A, “moving” is the main presence of the communication terminal 2-1 in the communication service on the communication means of the radio telephone via the CDMA network 3. On the other hand, “out of service area” is set as the presence of the communication terminal 2-1 in the communication service on the communication means that can be connected to the Internet 5 using the WLAN. It is displayed in the display area.

  Similarly, for example, in the case of the communication terminal 2-2, as shown in FIG. 6B, “out of service area” is a predetermined value on the main display 17 as the presence of the communication terminal 2-1 in the communication service on the wireless telephone communication means. On the other hand, “present” is displayed in the predetermined display area of the main display 17 as the presence of the communication terminal 2-1 in the communication service on the communication means using the WLAN. The same applies to the communication terminal 2-3.

  However, for example, the current presence of the communication terminal 2-1 displayed on the main display 17 of the communication terminal 2-1 is not limited to the case shown in FIG. 6A, but the state of each communication means (communication service). It will be updated accordingly. Similarly, the communication terminals 2-2 to 2-3 are not limited to those shown in FIG. 6 (B) or (C), and are appropriately updated according to the state of each communication means (communication service).

  In addition, the presence information registration table is stored in the storage unit 42 of the communication terminals 2-1 to 2-3. For example, each of the communication terminals 2-1 to 2-3 is illustrated in FIGS. In the presence information registration table, as shown in FIG. 7, the presence information registration table includes a communication service (for example, a communication service on a wireless telephone communication means and a communication means using WLAN). For each communication service), presence information of each communication terminal 2 is registered.

  The presence registration process in the communication terminal 2 (communication terminal 2-1, communication terminal 2-2, or communication terminal 2-3) in FIG. 5 will be described with reference to the flowchart in FIG. In step S <b> 1, when the operation key 14 is operated by the user, the control unit 41 inputs a new presence of the communication terminal 2 (presence for each communication service) on the presence input screen for each communication service. It is determined whether or not it has been accepted, and waits until it is determined that the input of the presence of a new communication terminal 2 (presence for each communication service) has been accepted.

  For example, in the case of the communication terminal 2-1, as shown in FIG. 6A, “moving” is currently displayed as the presence of the communication terminal 2-1 in the communication service on the wireless telephone communication means, Assume that “out of service area” is displayed as the presence of the communication terminal 2-1 in the communication service on the communication means using WLAN. At this time, when the operation key 14 is operated by the user, the presence of the communication terminal 2-1 in the communication service on the wireless telephone communication means is set as “present” on the presence input screen of the wireless telephone communication service. When the input of “seat” is accepted, it is determined that the input of the presence of a new communication terminal 2 (presence for each communication service) is accepted. Then, the display screen displayed on the main display 17 of the communication terminal 2-1 transitions from the display screen shown in FIG. 6 (A) to the display screen shown in FIG. 6 (D).

  For example, in the case of the communication terminal 2-2, as shown in FIG. 6B, “moving” is currently displayed as the presence of the communication terminal 2-1 in the communication service on the wireless telephone communication means. On the other hand, it is assumed that “out of service area” is displayed as the presence of the communication terminal 2-1 in the communication service on the communication means using the WLAN. At this time, when the operation key 14 is operated by the user, the new presence of the communication terminal 2-2 in the communication service of the communication means using the WLAN is displayed on the presence input screen of the communication service using the WLAN. When an input of “being away” is received, it is determined that an input of a new presence of the communication terminal 2 (presence for each communication service) is received. Then, the display screen displayed on the main display 17 of the communication terminal 2-1 transitions from the display screen shown in FIG. 6B to the display screen shown in FIG.

  When the control unit 41 determines in step S1 that an input of the presence of a new communication terminal 2 (presence for each communication service) has been accepted, the control unit 41 sets the new presence in which the input has been accepted in step S2. Based on this, the presence information of the communication terminal 2 is newly registered in the presence information registration table of the storage unit 42. Presence information of the communication terminal 2 registered in the storage unit 42 is registered for each communication service (for example, a communication service on a wireless telephone communication unit and a communication service on a communication unit using WLAN). When the display screen shown in FIG. 6A transitions to the display screen shown in FIG. 6D, the communication terminal 2-1 in the wireless telephone communication service stored in the presence information registration table of the storage unit 42 is used. 'S presence is updated from “moving” to “present”. Thereafter, the process returns to step S1, and the processes after step S1 are repeatedly executed.

  Next, another presence registration process in the communication terminal 2 in FIG. 5 executed in parallel with the presence registration process in FIG. 8 will be described with reference to the flowchart in FIG.

  In step S <b> 11, the control unit 41 determines whether or not the state of the communication terminal 2 has changed to out of service area or service area. That is, in the case of a communication service on a wireless telephone communication means, the control unit 41 determines the radio wave state based on the electric field strength or S / N ratio of a radio wave received from a base station (not shown), and communication is extremely difficult. In the case of a radio wave condition, it is determined that it is out of service area. On the other hand, in the case of a communication service on a communication means using WLAN, communication with an access point (not shown) becomes extremely difficult, and the Internet 5 is connected. When it is in a state where it cannot be performed, it is determined that it is out of service area, and it is determined whether or not the state of the communication terminal 2 has changed to out of service area or service area.

  When the control unit 41 determines in step S11 that the state of the communication terminal 2 has changed to the out-of-service area or the in-service area, the control unit 41 determines in step S12 that the communication terminal 2 Are newly registered in the storage unit 42. Presence information of the communication terminal 2 registered in the storage unit 42 is registered for each communication service (for example, a communication service on a wireless telephone communication unit and a communication service on a communication unit using WLAN). When the display screen shown in FIG. 6C is changed to the display screen shown in FIG. 6F, the presence of the communication terminal 2-1 in the wireless telephone communication service stored in the storage unit 42 is “conference”. It is updated from “medium” to “out of service area”. Thereafter, the process returns to step S11, and the processes after step S11 are repeatedly executed.

  With reference to the flowchart of FIG. 10, the presence update notification transmission processing in the communication terminal 2-1 of FIG. 5 will be described. This presence update notification transmission processing is executed in parallel with the presence registration processing of FIGS. In the presence update notification transmission process using FIG. 10, it is assumed that the presence update notification is transmitted from the communication terminal 2-1 to another communication terminal 2-2 or the communication terminal 2-3.

  In step S21, the control unit 41 determines whether the presence information of any communication service has been updated by the presence registration process of FIG. 8 or FIG. When the control unit 41 determines in step S21 that the presence information of any communication service has been updated, the control unit 41 uses the clock circuit 47 in step S22 in advance for a predetermined time (for example, 3 minutes). A set transmission interval timer (that is, after presence information of any communication service is once updated until a presence update notification including presence information is transmitted to another communication terminal 2-2 or communication terminal 2-3) (Timer for measuring the transmission interval) is started, it is determined whether or not the transmission interval timer has expired, and the system waits until the transmission interval timer expires.

  As a result, after the presence information of one of the communication services is once updated, the presence information updated until the transmission interval timer set at a predetermined time expires is used as a presence update notification described later. It can transmit to other communication terminals 2-2 or 2-3 collectively.

  When the control unit 41 determines in step S22 that the transmission interval timer has expired, the control unit 41 reads and collects the presence information of each communication service registered (stored) in the presence information registration table of the storage unit 42. To do. Specifically, in the presence information registration table of FIG. 7, “moving” for the wireless telephone communication unit and “out of service” for the wireless LAN communication unit 51 are registered in the storage unit 42 as presence information of each communication service. ing. At this time, the presence information “moving” and “out of service” of each communication service registered in the presence information registration table of the storage unit 42 is read and collected.

  In step S <b> 24, the control unit 41 reads out a communication service priority table stored in advance in the storage unit 42. FIG. 11 shows a communication service priority table stored in advance in the storage unit 42. In the case of FIG. 11, the wireless telephone communication unit is associated as the first-priority communication means, and the wireless LAN communication unit 51 is associated and registered as the second-priority communication means. . This priority is set in advance as an initial setting or according to user preferences.

  In step S25, the control unit 41 is described in the read communication service priority table in the communication terminal 2-1, based on the latest presence information registered in the presence information registration table of the storage unit 42. It is determined whether or not the state of the communication means having the first priority is within a range. For example, in the case of FIG. 7, in the communication terminal 2-1, “moving” is registered with respect to the wireless telephone communication unit that is the first priority communication means described in the communication service priority table. It is determined that the state of the communication means having the first priority is within the range.

  If the control unit 41 determines in step S25 that the state of the first priority communication means is within range, the control unit 41 updates the latest information registered in the presence information registration table of the storage unit 42 in step S26. Based on the presence information, it is determined whether or not the state of the communication device with the first priority in the other communication terminal 2 (other communication terminal 2-2 or communication terminal 2-3) is within a range. . For example, in the case of FIG. 7, in the communication terminal 2-2, “out of service area” is registered with respect to the wireless telephone communication unit which is the first priority communication means described in the communication service priority table. It is determined that the state of the communication means with the first priority is out of range. On the other hand, in the communication terminal 2-3, since the wireless telephone communication unit which is the first priority communication means described in the communication service priority table is registered as “in conference”, the first It is determined that the state of the priority communication means is within range.

  When the control unit 41 determines in step S26 that the state of the communication device with the first priority in the other communication terminal 2 is within the range, the control unit 41 determines each communication service (for example, a wireless telephone) in step S27. Wireless communication unit (antenna 31), which is the first priority communication means, and generates presence update notifications including presence information of communication services on the other communication means and communication services on the communication means using WLAN. And the transmission circuit 35, the CDMA signal processing unit 36, etc.), and the generated presence update notification is transmitted to the other communication terminal 2 using the radio telephone communication unit which is the first priority communication means. .

  Specifically, in the case of FIG. 7, the state of the communication device with the first priority in the communication terminal 2-2 is out of range, and the state of the communication device with the first priority in the communication terminal 2-3 is Since it is within the vicinity, only for the communication terminal 2-3 among the other communication terminals 2, the generated presence update notification is transmitted using the wireless telephone communication unit which is the first priority communication means. .

  In step S <b> 28, the control unit 41 determines whether there is a communication terminal 2 that has not executed the presence update notification transmission process among the other communication terminals 2 that exchange their presences using the communication service. When the control unit 41 determines in step S28 that there is a communication terminal 2 that has not executed the presence update notification transmission process, the process returns to step S25, and the processes after step S25 are executed. Accordingly, the processes in steps S25 to S32 are sequentially executed until the presence update notification transmission process is executed for all the other communication terminals 2 (for example, the communication terminals 2-2 to 2-3).

  When the control unit 41 determines in step S26 that the state of the communication device with the first priority in the other communication terminal 2 is not within the range, the control unit 41 It is recognized that the presence update notification transmission process cannot be executed using the first-priority communication means. Thereafter, the process proceeds to step S29.

  On the other hand, if the control unit 41 determines in step S25 that the state of the first-priority communication means is out of range, the control unit 41 is registered in the presence information registration table of the storage unit 42 in step S29. Based on the latest presence information, the communication terminal 2-1 determines whether or not the state of the second-priority communication means described in the read communication service priority table is within the range. . For example, in the case of FIG. 7, in the communication terminal 2-1, “out of service area” is registered for the wireless LAN communication unit 51, which is the second highest priority communication means described in the communication service priority table. It is determined that the state of the second-priority communication means is out of range. Unlike the case of FIG. 7, the communication terminal 2-1 registers, for example, “attended” for the wireless LAN communication unit 51 which is the second highest priority communication means described in the communication service priority table. If it is determined, the state of the communication device having the second highest priority is determined to be within the range.

  When the control unit 41 determines in step S29 that the state of the communication device with the second highest priority described in the read communication service priority table is within the communication terminal 2-1, the control unit 41 is a step S30 in which, based on the latest presence information registered in the presence information registration table of the storage unit 42, in the other communication terminal 2 (other communication terminal 2-2 or communication terminal 2-3) It is determined whether or not the state of the second-priority communication means is within range. For example, in the communication terminal 2-2 or the communication terminal 2-3, for example, “attended” is registered with respect to the wireless LAN communication unit 51 which is the second highest priority communication means described in the communication service priority table. If it is, the state of the communication device having the second highest priority is determined to be within the range.

  In step S30, when the control unit 41 determines that the state of the communication means having the second highest priority in the other communication terminal 2 is within the range, each communication service (for example, the communication service on the communication means of the radio telephone) , A presence update notification including presence information of a communication service on a communication means using WLAN), the wireless LAN communication unit 51 which is a communication means having the second highest priority is controlled, and the second priority is given. The presence update notification generated is transmitted to another communication terminal 2 via an access point (not shown) using the wireless LAN communication unit which is the communication means.

  Thereafter, the process proceeds to step S28.

  On the other hand, when the control unit 41 determines in step S29 that the state of the communication device having the second highest priority described in the read communication service priority table is out of service in the communication terminal 2-1. Alternatively, when the control unit 41 determines in step S30 that the state of the second-priority communication means in the other communication terminal 2 is out of the service area, the control unit 41 sets the second communication terminal 2 to the second communication terminal 2. It is recognized that the presence update notification transmission process cannot be executed by using any of the first and second priority communication means. In this case, in step S32, the control unit 41 temporarily stops the transmission of the presence update notification even if the presence information of any communication service is updated. Thereafter, the process proceeds to step S28.

  When the control unit 41 determines in step S28 that there is no communication terminal 2 that has not performed the presence update notification transmission process, the process returns to step S21, and the processes after step S21 are repeatedly executed.

  In the embodiment of the present invention, the wireless telephone communication unit and the wireless LAN communication unit 51 communicate with another communication terminal 2, and the other communication terminal 2 via the wireless telephone communication unit and the wireless LAN communication unit 51. The presence information of a plurality of communication services exchanged with each other is stored, and when presence information of any communication service is updated, a presence update notification including presence information of the plurality of communication services is sent to a communication unit (for example, In accordance with the priority of the wireless telephone communication unit and the wireless LAN communication unit 51), control can be performed so as to transmit to another communication terminal 2 using any one of the communication units.

  As a result, presence update notifications of all communication services can be collectively sent to other communication terminals using any one of the plurality of communication means. In addition, even if the communication means cannot be used because one of the communication means is out of service area, the communication means is out of service using another communication means. Can be transmitted to other communication terminals 2 by presence. Therefore, it is possible to update the latest presence information while reducing the number of times of presence update notification transmission and suppressing power consumption. In addition, before transmitting the presence update notification, in order to determine whether the other communication terminal 2 can receive using the communication means to be used, when the state of the other communication terminal 2 is out of service area By transmitting the presence update notification, it is possible to prevent unnecessary current consumption.

  As a result, it is possible to improve convenience when exchanging presence between the communication terminals 2.

  In the embodiment of the present invention, the priority of the communication means is set in advance. However, the present invention is not limited to such a case, and any one of the plurality of communication means is used. This may be determined in consideration of, for example, the connection status of each communication means and the communication cost. The presence update communication transmission process in this case is shown in FIG. Note that the processing in FIG. 12 is basically the same as the processing in FIG. 10, and the description thereof will be repeated, and will be omitted as appropriate.

  In step S54, the control unit 41 determines priorities of the wireless telephone communication unit and the wireless LAN communication unit 51 in consideration of, for example, the connection status and communication cost of each communication means. Thereafter, presence update notification transmission processing is executed using the determined priority.

  The present invention can be applied to a PDA (Personal Digital Assistant), a personal computer, a portable game machine, a portable music player, a portable video player, and other communication terminals in addition to the cellular phone. .

  The series of processes described in the embodiments of the present invention can be executed by software, but can also be executed by hardware.

  Furthermore, in the embodiment of the present invention, the steps of the flowchart show an example of processing performed in time series in the order described, but parallel or individual execution is not necessarily performed in time series. The processing to be performed is also included.

Explanatory drawing for demonstrating the system which exchanges presence information directly between each communication terminal by peer to peer communication. Explanatory drawing explaining the conventional presence update notification transmission process in the case of exchanging presence between four communication terminals (communication terminals A thru | or D). Explanatory drawing explaining the presence update notification transmission process which concerns on this invention in the case of exchanging presence between four communication terminals (communication terminal A thru | or D). 1 is a diagram showing a schematic configuration of a network system according to the present invention. The block diagram which shows the internal structure of the communication terminal of FIG. The figure which shows the example of a display displayed on the main display of each communication terminal. The figure which shows the structural example of the presence information registration table memorize | stored in the memory | storage part of FIG. 6 is a flowchart for explaining presence registration processing in the communication terminal of FIG. The flowchart explaining the other presence registration process in the communication terminal of FIG. The flowchart explaining the presence update notification transmission process in the communication terminal of FIG. The figure which shows the structural example of the communication service priority table memorize | stored in the memory | storage part of FIG. The flowchart explaining the other presence update notification transmission processing in the communication terminal of FIG.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Network system, 2 (2-1 thru | or 2-3) ... Communication terminal, 3 ... CDMA network, 4 ... Connection control server of provider side, 5 ... Internet, 14 ... Operation key, 15 ... Microphone, 16 ... Side Key, 17 ... Main display, 18 ... Receiver, 19a to 19d ... Magnetic sensor, 20 ... CCD camera, 21 ... Sub-display, 31 ... Antenna, 32 ... Antenna duplexer (DUP), 33 ... Receiver circuit (RX), 34 ... frequency synthesizer (SYN), 35 ... transmission circuit (TX), 36 ... CDMA signal processor, 37 ... compression / decompression processor, 38 ... PCM codec, 39 ... receiver amplifier, 40 ... transmitter amplifier, 41 ... controller, 42 ... Memory unit, 43 ... Battery, 44 ... Power supply circuit, 45 ... External memory interface, 46 ... Memory card, 47 ... Clockwise , 50 ... speaker, 51 ... wireless LAN communication unit.

Claims (5)

At least one communication unit communicating with another communication terminal;
Storage means for storing presence information of a plurality of communication services exchanged with the other communication terminal via the communication unit;
When presence information of any communication service is updated, a presence update notification including presence information of a plurality of communication services is sent to the other communication using any of the communication units according to the priority of the communication unit. A communication terminal comprising control means for controlling to transmit to a terminal. When there is an update of presence information of any communication service, the device further comprises a time measuring means for measuring the elapse of a predetermined time set in advance,
2. The communication terminal according to claim 1, wherein when the predetermined time has elapsed by the time measuring unit, the control unit starts transmission processing of the presence update notification.   The control means determines whether both the communication terminal and the other communication terminal are within the range in descending order of priority of the communication unit, and both the communication terminal and the other communication terminal are within the range. 2. The communication terminal according to claim 1, wherein control is performed to transmit the presence update notification to the other communication terminal using the communication unit having the highest priority among the communication units.   The control means controls to temporarily stop transmission of the presence update notification when there is no communication unit within which both the communication terminal and the other communication terminal are within range. Item 2. The communication terminal according to Item 1.   2. The communication terminal according to claim 1, wherein the priority of the communication unit is set in advance or is determined using at least parameters indicating communication cost and communication stability.

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