JP2004165724A - Communication apparatus, communication method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication apparatus, a communication method, and a program for making wireless communication by switching a plurality of communication modules without the need for complicated operations. <P>SOLUTION: The communication apparatus 2 is provided with: a plurality of slots 24-1 to 24-n to which wireless communication modules 241-1 to 241-n respectively corresponding to a plurality of wireless communication systems are connected; and a CPU 26 that specifies the wireless communication module 241 with the highest priority among the wireless communication modules 241-1 to 241-n connected to a plurality of the slots 24-1 to 24-n in the orders of priorities on the basis of the predetermined priority of a plurality of the slots 24-1 to 24-n and communicatable via a relaying apparatus 3 with the communication apparatus 2 and makes communication via the relaying apparatus 3 by using the wireless communication module 241 connected to the specified slot 24. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to, for example, a communication device for performing wireless communication, a communication method, and a program.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a communication device that performs wireless communication with a communication device of a desired communication destination via a relay device has been known.
In addition, a communication device having a plurality of wireless communication modules of a wireless communication method for performing wireless communication with a communication device of a communication destination even when the communication state is poor is also known.
[0003]
[Problems to be solved by the invention]
However, for example, when communication is performed using a predetermined wireless communication module, communication may not be performed due to poor communication conditions in a wireless section to a relay device corresponding to the wireless communication module. At that time, in the communication device described above, the user manually switches to another wireless communication module, performs connection setting of the switched wireless communication module, and uses the wireless communication module to connect to a desired communication destination via the relay device. A complicated operation of performing wireless communication with the communication device.
[0004]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a communication device, a communication method, and a program for performing wireless communication by switching a plurality of communication modules without performing a complicated operation. It is.
[0005]
[Means for Solving the Problems]
To achieve the above object, a communication device according to a first aspect of the present invention is a communication device that performs wireless communication via a relay device using a first plurality of wireless communication systems, and each of the plurality of wireless communication systems A plurality of connecting means to which a wireless communication module corresponding to the plurality of connecting means is connected, and the relay connected to the plurality of connecting means in descending order of the priority based on a predetermined priority of the plurality of connecting means. Among the wireless communication modules communicable via the device, the highest-ranking wireless communication module is specified, and the specified wireless communication module is connected to the specified connection means via the relay device. And control means for performing communication.
[0006]
According to the communication device of the first aspect, the plurality of connection units connect the wireless communication modules respectively corresponding to the plurality of wireless communication systems.
In the control means, based on a predetermined priority order of the plurality of connection means, the wireless communication module connected to the plurality of connection means in descending order of priority and which can communicate via the relay device has the highest rank. A high wireless communication module is specified, and communication is performed via the relay device using the wireless communication module connected to the specified connection unit.
[0007]
Further, in order to achieve the above object, a communication device according to a second aspect of the present invention is a communication device that performs wireless communication via a relay device using a plurality of wireless communication systems, and each of the plurality of wireless communication systems A plurality of connection units to which the corresponding wireless communication modules are connected, and when performing wireless communication via the relay device, from among the wireless communication modules connected to the plurality of connection units, from the relay device. The wireless communication module in the best radio wave reception state is searched for and specified based on the radio wave reception state of the wireless communication module, and the wireless communication module connected to the specified connection means is connected to the wireless communication module via the relay device. And control means for performing communication.
[0008]
Further, in order to achieve the above object, a communication method according to a third aspect of the present invention is a communication method of a communication device that performs wireless communication via a relay device using a plurality of wireless communication methods, wherein the plurality of wireless communication methods Of the plurality of connection means to which the wireless communication modules corresponding to the respective systems are connected, from among the wireless communication modules connected to the plurality of connection means in the order of the priority based on a predetermined priority, A first step of searching for and specifying the wireless communication module communicable via the relay device, and using the wireless communication module connected to the connection means specified by the first step; And a second step of performing communication via the relay device.
[0009]
Further, in order to achieve the above object, a communication method according to a fourth aspect of the present invention is a communication method for a communication device that performs wireless communication via a relay device using a plurality of wireless communication schemes, wherein the communication method includes: When performing the wireless communication, when the wireless communication module corresponding to each of the plurality of wireless communication schemes is connected to a plurality of connection units connected to a plurality of connection units, a radio wave reception state from the relay device is received. A first step of searching for and specifying the wireless communication module in the best radio wave reception state based on the first and second steps; and a step of: searching for the wireless communication module connected to the connection unit specified by the first step. And a second step of performing communication via the relay device by using the relay device.
[0010]
Further, in order to achieve the above object, a program according to a fifth aspect of the present invention is a program for causing a communication device that performs wireless communication via a relay device using a plurality of wireless communication methods to execute the program, Of the plurality of connection units to which the wireless communication modules corresponding to the respective wireless communication systems are connected, among the wireless communication modules connected to the plurality of connection units in the descending order of the priority based on a predetermined priority. A first procedure for searching for and identifying the wireless communication module communicable via the relay device, and using the wireless communication module connected to the connection means identified by the first procedure. And performing a second procedure of performing communication via the relay device.
[0011]
Furthermore, in order to achieve the above object, a program according to a sixth aspect of the present invention is a program for causing a communication device that performs wireless communication via a relay device using a plurality of wireless communication systems to execute the relay device. When performing wireless communication via the wireless communication module, radio waves from the relay device are transmitted from among the wireless communication modules connected to the plurality of connection units to which the wireless communication modules respectively corresponding to the plurality of wireless communication systems are connected. A first procedure for searching for and identifying the wireless communication module in the best radio wave reception state based on a reception state, and the wireless communication connected to the connection means identified in the first procedure And a second procedure of performing communication via the relay device using a module.
[0012]
BEST MODE FOR CARRYING OUT THE INVENTION
First embodiment
FIG. 1 is an overall view of a first embodiment of a communication system using a communication device according to the present invention.
The communication system 1 according to the present embodiment includes a communication device 2, a relay device 3, and a communication device 4 to be connected.
The communication device 2 is a communication device according to the present invention, and the relay device 3 is a relay device according to the present invention.
[0013]
The communication device 2 performs wireless communication via the relay device 3 using a plurality of wireless communication methods. For example, the communication device 2 is a portable communication device.
The relay device 3 communicates with the communication device 2 by a wireless communication method, and is connected to, for example, a communication device 4 of a connection destination by a wired method and communicates with the communication device 4 of the connection destination.
[0014]
The relay device 3 has, for example, a plurality of relay devices 3-1 to n.
Each of the relay devices 3-1 to n has a different communicable range c_3-1 to n for the communication device 2.
[0015]
The relay devices 3-1 to n are, for example, a relay device of a PHS (Personal handyphone system), a mobile phone, or a relay device of a wideband CDMA wireless communication such as an IMT2000 (International Mobile Telecommunication 2000).
[0016]
For example, the PHS relay device 3 includes, for example, a time division multiple access TDMA (Time division multiple access) system, a time division duplex transmission (TDD) system, and a π / 4-QPSK (Quadrature) as a wireless communication system. Phase shift keying), which is an antenna power of 500 mW or less. The communicable range c_3 is several tens of meters from the relay device 3. For example, in PHS, digital communication of the PIAFS (PHS Internet access standard) system is performed.
[0017]
The relay device 3 of the mobile phone uses, for example, a PDC (Personal digital cellular) system as a wireless system. The communicable range c_3 is several hundred meters to several tens km from the relay device 3.
[0018]
Although not shown, a plurality of relay devices 3 using the respective wireless communication schemes may be arranged for each cell having the communicable range c_3 to have a wider communicable range c_3. For example, when the relay device 3 provided by each of the existing communication connection service companies is used as the relay device 3, the communication available range c_3 with the communication device 2 differs depending on each of the communication connection service companies.
[0019]
FIG. 2 is a block diagram of the communication device 2 shown in FIG.
The communication device 2 includes a speaker 21, a microphone 22, a camera 23, a slot 24, a memory 25, and a CPU 26, as shown in FIG.
[0020]
The speaker 21, the microphone 22, the camera 23, the slot 24, the memory 25, and the CPU 26 are connected to the bus BS.
The CPU 26 corresponds to a control unit according to the present invention. The slot 24 is connected to a wireless communication module 241.
[0021]
The speaker 21 emits a sound according to the audio signal S21 received by the wireless communication module 241 via the slot 24 under the control of the CPU 26.
[0022]
The microphone 22 converts, for example, sound into an electric sound signal S22 and outputs the signal to the CPU 26. The CPU 26 transmits the audio signal S22 to the relay device 3 via the wireless communication module 241 connected to the slot 24, for example, based on the audio signal S22 output from the microphone 22.
[0023]
The camera 23 is an imaging device, and converts a captured video into an electrical video signal S23 and outputs the electrical video signal S23 to the CPU 26. The CPU 26 transmits a video signal to the relay device 3 via the wireless communication module 241 connected to the slot 24, for example, based on the video signal S23 output from the camera 23.
[0024]
The slot 24 has a plurality of slots 24-1 to n, and the wireless communication modules 241-1 to n are connected to the slots 24-1 to n, respectively.
The plurality of slots 24 correspond to a plurality of connection units according to the present invention.
[0025]
The wireless communication module 241 corresponds to each wireless communication system of the relay device 3. The wireless communication module 241 communicates with the relay device 3 by a wireless communication method such as the above-described PHS, mobile phone, or IMT2000 under the control of the CPU 26, for example.
[0026]
For example, a case will be described in which PHS_a and PHS_b, and mobile phone_a and mobile phone_b each use a relay device 3 provided by a different communication connection service company. The case where the relay device 3 of the wireless LAN is used will also be described. The wireless communication system of the wireless LAN is a predetermined wireless communication system such as IEEE802.11a, IEEE802.11b, Bluetooth or the like.
[0027]
For example, the wireless communication module 241-1 is a wireless communication module that supports the PHS_a wireless communication system of the relay device 3-1. The wireless communication module 241-2 is a wireless communication module corresponding to the wireless communication system of the PHS_b of the relay device 3-2. The wireless communication module 241-3 is a wireless communication module compatible with the wireless communication system of the mobile phone_a of the relay device 3-3. The wireless communication module 241-4 is a wireless communication module compatible with the wireless communication system of the mobile phone_b of the relay device 3-4. The wireless communication module 241-5 is a wireless communication module that supports the wireless LAN wireless communication system of the relay device 3-5.
[0028]
The memory 25 stores predetermined data under the control of the CPU 26 and is also used as a work space.
The memory 25 has a program p25 and a priority order table t25.
The program p25 is read from the memory 25 and executed by the CPU 26, for example.
[0029]
In the priority order table t25, for example, the priorities are set in advance in association with the respective slots 24-1 to n.
For example, the priority order table t25 includes slots 24-1, slot 24-2, slot 24-3, slot 24-4, slot 24-5,..., Slot 24-n, and 1, 2, 3, , N are set in association with each other.
The CPU 26 performs communication-related processing based on the program p25 and the priority order table t25 stored in the memory 25.
[0030]
FIG. 3 is a functional block diagram of the CPU of the communication device 2 shown in FIG.
The CPU 26 has a communication control unit 261, a switching unit 262, and a wireless communication module control unit 263.
[0031]
The communication control unit 261 is a higher-level control unit of the switching unit 262 and the wireless communication module control unit 263 that performs wireless communication via the wireless communication module control unit 263 corresponding to the wireless communication module 241 specified by the switching unit 262. is there.
The communication control unit 261 performs the above-described wireless communication based on, for example, the audio signal S22 output from the microphone 22 and the video signal S23 output from the camera 23.
[0032]
The switching unit 262 is configured to connect the wireless communication module 241 connected to the plurality of slots 24-1 in the descending order of priority based on the predetermined priority of the plurality of slots 24 and capable of communicating via the relay device 3. Of these, the wireless communication module 241 having the highest priority is switched and specified.
[0033]
More specifically, the switching unit 262, based on the priority order table t25 stored in the memory 25, sets the wireless communication modules 241-1 to n connected to the slots 24-1 to n in descending order of priority. The communication module 241 is searched, and the communication module 241 is switched to the wireless communication module 241 capable of communicating via the relay device 3 and specified.
[0034]
The wireless communication module control unit 263 performs initial settings and the like of the wireless communication module 241 connected to the slot 24 and settings unique to the wireless communication module 241, and under the control of the communication control unit 261 and the switching unit 262, Wireless communication with the relay device 3 via the wireless communication module 241 connected to the relay device 3.
The wireless communication module control unit 263 has, for example, a plurality of wireless communication module control units 263-1 to 263-n corresponding to the wireless communication modules 241-1 to 24n connected to the slots 24-1 to n.
[0035]
FIG. 4 is a flowchart for explaining the operation of the communication device 2 shown in FIG. The operation of the communication device 2 will be mainly described with reference to FIG.
[0036]
In the CPU 26, a plurality of slots 24-1 to n to which the wireless communication modules 241-1 to n corresponding to the plurality of wireless communication systems are connected are arranged in the order of higher priority based on a predetermined priority. Out of the wireless communication modules 241 connected to the slots 24-1 to 24-n and capable of communicating via the relay device 3, the wireless communication modules 241-1 to 241-n having the highest priority are searched for and specified.
[0037]
Specifically, when the wireless communication modules 241-1 to 241 -n are connected to the slots 24-1 to n, the wireless communication module control unit 263 performs initial settings and the like of the connected wireless communication module 241.
[0038]
In step ST1, the switching unit 262 reads the priority order table t25 from the memory 25.
In step ST2, the switching unit 262 determines in advance the plurality of slots 24-1 to n to which the wireless communication modules 241-1 to 24n corresponding to the plurality of wireless communication schemes are to be connected based on the priority order table t25. Based on the determined priority, among the wireless communication modules 241-1 to n connected via the relay device 3 and connected to the plurality of slots 24-1 to n in descending order of priority, the priority is Switching to the highest wireless communication module 241-1 to n is specified.
[0039]
In step ST3, the CPU 26 performs communication via the relay device 3 using the wireless communication module 241 connected to the specified slots 24-1 to 24-n. In detail, the communication control unit 261 uses the wireless communication module 241 connected to the slots 24-1 to n specified by the switching unit 262 to control the wireless communication module control unit 263, and via the relay device 3, It communicates with the communication device 4 of the communication destination.
[0040]
For example, the CPU 26 transmits the audio signal S22 output from the microphone 22 and the video signal S23 output from the camera 23 to the communication device 4, receives the audio signal S21 transmitted from the communication device 4, and outputs the signal from the speaker 21. I do.
[0041]
As described above, a plurality of slots 24-1 to n to which the wireless communication modules 241 corresponding to a plurality of wireless communication systems are connected, and a plurality of predetermined slots 24-1 to n of the wireless communication modules 241-1 to n connected through the relay device 3 and connected to the plurality of slots 24-1 to n in descending order of priority based on the priority of n. Since the CPU 26 that specifies the high wireless communication module 241 and performs communication via the relay device 3 using the wireless communication module 241 connected to the specified slot 24 is provided, the user switches the wireless communication module 241. Communication can be performed by automatically switching a plurality of wireless communication modules without performing the complicated operation of manually performing the operation.
[0042]
Since a search is made for a wireless communication module that can communicate with the slots 24-1 to n in descending order of priority, the user can search for a wireless communication module 241 having a higher priority, for example, a wireless communication module of a wireless communication system with a higher data transfer rate. By connecting the 241 to the slot 24 having a higher priority, communication can be performed preferentially by a wireless communication method having a higher data transfer rate.
[0043]
Further, for example, when communication is performed via the relay device 3, communication is performed by connecting a wireless communication module having a low communication fee generated when using the relay device 3 to a slot having a higher priority. The device can preferentially select a communication module with a low communication fee and perform communication via the selected communication module.
[0044]
Second embodiment
The communication device 1a according to the second embodiment has substantially the same configuration as the communication device 1 according to the first embodiment, and only different points will be described.
Although not shown, the communication device 1a includes a speaker 21, a microphone 22, a camera 23, a slot 24, a memory 25, and a CPU 26a.
[0045]
When performing wireless communication via the relay device 3, the CPU 26 a sets a state of receiving radio waves from the relay device 3 from among the wireless communication modules 241-1 to n connected to the plurality of slots 24-1 to n. The wireless communication module 241 in the best radio wave reception state is searched for and identified based on the wireless communication module 241, and communication is performed via the relay device 3 using the wireless communication module 241 connected to the identified slot 24.
[0046]
In detail, although not shown, the CPU 26a includes a communication control unit 261, a switching unit 262a, and a wireless communication module control unit 263.
When performing wireless communication via the relay device 3, the switching unit 262a receives radio waves from the relay device 3 from among the wireless communication modules 241-1 to 24-n connected to the plurality of slots 24-1 to n. The wireless communication module 241 in the best radio wave receiving state is searched for and specified based on the state.
The communication control unit 261 performs communication via the relay device 3 using the wireless communication module 241 connected to the slot 24 specified by the switching unit 262.
[0047]
FIG. 5 is a flowchart for explaining the operation of the second embodiment of the communication device according to the present invention. With reference to FIG. 5, the operation of the communication device 1a will be described focusing on the operation of the CPU 26a. Here, only the differences from the communication device 1 according to the first embodiment will be described.
[0048]
In step ST1, the switching unit 262 reads the priority order table t25 from the memory 25.
In step ST2a, when performing wireless communication via the relay device 3, the switching unit 262a uses the wireless communication module connected to the plurality of slots 24-1 to 24-n in descending order of priority based on the priority table t25. The wireless communication module 241 in the best radio wave reception state is searched for and specified from 241-1 to 24n based on the radio wave reception state from the relay device 3.
[0049]
In step ST3, the communication control unit 261 uses the wireless communication module 241 connected to the slots 24-1 to 24-n specified by the switching unit 262a to control the wireless communication module control unit 263 via the relay device 3, It communicates with the communication device 4 of the communication destination.
[0050]
As described above, the CPU 26a searches for and identifies the wireless communication module 241 in the best radio wave reception state based on the radio wave reception state from the relay device 3, so that, for example, the communicable range of the relay device 3 When communication is performed from the position where c_3 overlaps, stable communication can be performed by the wireless system in the best radio wave reception state.
[0051]
Third embodiment
The communication device 1b according to the third embodiment has substantially the same configuration as the communication device 1 according to the first embodiment, and only different points will be described.
Although not shown, the communication device 1b includes a speaker 21, a microphone 22, a camera 23, a slot 24, a memory 25, and a CPU 26b.
[0052]
When performing wireless communication with the communication device 4 at the connection destination via the relay device 3, the CPU 26 b simultaneously attempts wireless communication via the wireless communication module 241 connected to the plurality of slots 24.
Then, the CPU 26 b first communicates with the communication device 4 of the connection destination via the relay device 3 using the wireless communication module 241 capable of communicating with the communication device 4 of the connection destination.
[0053]
Specifically, although not shown, the CPU 26b includes a communication control unit 261, a switching unit 262b, and a wireless communication module control unit 263.
When performing wireless communication with the communication device 4 of the connection destination via the relay device 3, the switching unit 262 b simultaneously performs at least two wireless communication modules 241 out of the wireless communication modules 241 connected to the plurality of slots 24. Select
The communication control unit 261 attempts to communicate with the connection destination communication device 4 via the wireless communication module control unit 263 using the wireless communication module 241 selected by the switching unit 262b.
[0054]
Then, the switching unit 262b first switches to the wireless communication module 241 that can communicate with the communication device 4 of the connection destination as a result of the communication attempt. The communication control unit 261 communicates with the communication device 4 of the connection destination via the relay device 3 via the wireless communication module control unit 263 using the wireless communication module 241 switched by the switching unit 262b.
[0055]
FIG. 6 is a flowchart for explaining the operation of the third embodiment of the communication device according to the present invention. With reference to FIG. 6, the operation of the communication device 1b will be described focusing on the operation of the CPU 26b. Here, only differences from the communication device 1 according to the first embodiment will be described.
[0056]
In step ST11, a plurality of connections are attempted simultaneously.
Specifically, when performing wireless communication with the communication device 4 of the connection destination via the relay device 3 by the switching unit 262b, at least two of the wireless communication modules 241 connected to the plurality of slots 24 are simultaneously connected. The wireless communication module 241 is selected.
The communication control unit 261 attempts to communicate with the connected communication device 4 via the wireless communication module control unit 263 using the wireless communication module 241 selected by the switching unit 262b.
[0057]
In step ST12, as a result of the communication unit 262b attempting communication, the wireless communication module 241 capable of communicating with the communication device 4 of the connection destination is first specified, and is switched to the specified wireless communication module 241.
[0058]
In step ST13, the communication control unit 261 communicates with the communication device 4 of the connection destination via the relay device 3 via the wireless communication module control unit 263 using the wireless communication module 241 switched by the switching unit 262b. .
[0059]
As described above, when performing wireless communication with the communication device 4 of the connection destination via the relay device 3, wireless communication is simultaneously attempted via the wireless communication module 241 connected to the plurality of slots 23, and Since the CPU 26b that communicates with the communication device 4 of the connection destination via the relay device 3 using the wireless communication module 241 that can communicate with the communication device 4 of the connection destination is provided, the wireless communication module 241 connected first is connected Communication with the communication device 4 of the connection destination.
[0060]
Note that the present invention is not limited to this embodiment, and any suitable various changes can be made.
In the present embodiment, the CPU 26 determines the priority order based on the priority order table t25 stored in the memory 25 in advance, but is not limited to this mode. For example, an input unit (not shown) is provided, and the priority order can be freely changed by changing the priority order table t25 based on new priority order data input from the input unit.
By doing so, for example, the priority can be easily changed without performing the complicated operation of rearranging and connecting the wireless communication modules 241 having the higher priority to the slots 24 in the slot 24 having the higher priority. Can be.
[0061]
【The invention's effect】
According to the present invention, it is possible to provide a communication device, a communication method, and a program for performing wireless communication by switching a plurality of communication modules without performing a complicated operation.
[Brief description of the drawings]
FIG. 1 is an overall view of a first embodiment of a communication system using a communication device according to the present invention.
FIG. 2 is a block diagram of the communication device 2 shown in FIG.
FIG. 3 is a functional block diagram of the communication device 2 shown in FIG. 1;
FIG. 4 is a flowchart for explaining an operation of the communication device 2 shown in FIG. 1;
FIG. 5 is a flowchart for explaining an operation of the second embodiment of the communication device according to the present invention.
FIG. 6 is a flowchart for explaining an operation of the third embodiment of the communication device according to the present invention.
[Explanation of symbols]
REFERENCE SIGNS LIST 1 communication system, 2 communication device, 3 relay device, 4 connection destination communication device, 21 speaker, 22 microphone, 23 camera, 24 slot, 25 memory, 26 CPU, 241 wireless Communication module, 261, communication control unit, 262, switching unit, 263, wireless communication module control unit.

Claims (10)

A communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
A plurality of connection means to which a wireless communication module corresponding to each of the plurality of wireless communication systems is connected,
Based on a predetermined priority order of the plurality of connection means, the wireless communication modules connected to the plurality of connection means in the order of the priority order and which can communicate via the relay device, And a control unit for specifying the wireless communication module having the highest rank and performing communication via the relay device using the wireless communication module connected to the specified connection unit. Having storage means for storing a priority table indicating the priority of the connection means,
The wireless communication module, wherein the control unit is connected to the plurality of connection units in descending order of the priority based on the priority order table stored in the storage unit and is capable of communicating via the relay device. 2. The wireless communication module according to claim 1, wherein the wireless communication module having the highest priority is specified, and communication is performed via the relay device using the wireless communication module connected to the specified connection means. Communication device. A communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
A plurality of connection means to which a wireless communication module corresponding to each of the plurality of wireless communication systems is connected,
When performing wireless communication via the relay device, from among the wireless communication modules connected to the plurality of connection means, to the best radio wave reception state based on the radio wave reception state from the relay device Control means for searching for and identifying the wireless communication module and performing communication via the relay device using the wireless communication module connected to the identified connection means. A communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
A plurality of connection means to which a wireless communication module corresponding to each of the plurality of wireless communication systems is connected,
When performing wireless communication with a communication device of a connection destination via the relay device, wireless communication is simultaneously attempted through the wireless communication module connected to the plurality of connection means, and the communication device of the connection destination is first A communication device comprising: control means for communicating with the communication device at the connection destination via the relay device using the wireless communication module communicable with the communication device. A communication method of a communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
Based on a predetermined order of priority of a plurality of connecting means to which a plurality of wireless communication modules corresponding to the plurality of wireless communication schemes are connected, the plurality of connecting means are connected to the plurality of connecting means in descending order of priority, A first step of identifying the highest priority wireless communication module among the wireless communication modules communicable via a relay device;
And a second step of performing communication via the relay device using the wireless communication module connected to the connection means specified in the first step. A communication method of a communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
When performing wireless communication via the relay device, from among the wireless communication modules connected to a plurality of connection units to which wireless communication modules corresponding to the plurality of wireless communication systems are connected, the relay device A first step of searching for and identifying the wireless communication module in the best radio wave reception state based on the radio wave reception state from
And a second step of performing communication via the relay device using the wireless communication module connected to the connection means specified in the first step. A communication method of a communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
When performing wireless communication with a communication device of a connection destination via the relay device, the wireless communication module connected to a plurality of connection means to which a wireless communication module corresponding to each of the plurality of wireless communication systems is connected. A first step of simultaneously attempting wireless communication via
A second step of performing communication with the communication device of the connection destination via the relay device using the wireless communication module that can communicate with the communication device of the connection destination in the first step. Method. A program to be executed by a communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
Based on a predetermined order of priority of a plurality of connecting means to which a plurality of wireless communication modules corresponding to the plurality of wireless communication schemes are connected, the plurality of connecting means are connected to the plurality of connecting means in descending order of priority, A first procedure of identifying the highest priority wireless communication module among the wireless communication modules communicable via a relay device;
And a second procedure for performing communication via the relay device using the wireless communication module connected to the connection unit specified in the first procedure. A program to be executed by a communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
When performing wireless communication via the relay device, from among the wireless communication modules connected to a plurality of connection units to which wireless communication modules corresponding to the plurality of wireless communication systems are connected, the relay device A first procedure for searching for and identifying the wireless communication module in the best radio wave reception state based on the radio wave reception state from
And a second procedure for performing communication via the relay device using the wireless communication module connected to the connection unit specified in the first procedure. A program to be executed by a communication device that performs wireless communication via a relay device using a plurality of wireless communication methods,
When performing wireless communication with a communication device of a connection destination via the relay device, the wireless communication module connected to a plurality of connection means to which a wireless communication module corresponding to each of the plurality of wireless communication systems is connected. A first procedure for simultaneously attempting wireless communication via
A first procedure of performing communication with the communication device of the connection destination via the relay device using the wireless communication module that is first communicable with the communication device of the connection destination by the first procedure. Program for.

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