JP2000134260A - Radio data communication method and system therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To connect a line at all times between ends and to efficiently transmit communication data by selecting the transmission of the communication data by PDC-TS or the transmission of the communication data by both PDC-TS and PHS based on the economical merits of a meter rate charging system and a time charging system and the merit of a transmission speed. SOLUTION: This system is provided with a client 1, a multiplexer 2, a PDC terminal 3, a PHS terminal 4, a PDC network 5, a cell base station 5a, a PHS network 6, an outdoor device 6a, the multiplexer 7 and a server 8. Through the low-speed PDC network 5 of the meter rate charging system based on the quantity of a communication data, data communication is performed between the client 1 and the server 8 first. Then, when the communication data quantity increases, the communication data are divided into two ways of transmission, that is, the communication data are transmitted by the PDC network 5 and the high-speed PHS network 6 of the time charging system based on the length of use time. Thereafter, when the communication data quantity decreases, changeover to the data communication of only the PDC network 5 is performed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a digital cellular mobile telephone system (PDC-TS: Personal Digital C).
Transmission of communication data by ellular Telecommunication System, or PDC-TS and digital cordless telephone system (simple telephone system-PHS: Personal H)
andyphone Systenm / DECT (Digital European Cord
The present invention relates to a wireless data communication method and system for selecting transmission of communication data according to both less telecommunication / CT-2-UK standard).

[0002]

2. Description of the Related Art Conventionally, a digital cellular mobile telephone system (PDC-T) has been used as a mobile telephone / data communication system.
S) and digital cordless telephone system (PHS / DE)
CT / CT-2, hereafter, only PHS will be explained)
Is well known. The PDC-TS is a packet-based and low-speed data transmission, for example, a relatively low-speed data transmission of 9600 bps, and is a pay-per-use system depending on the amount of communication data. In addition, PHS is compatible with PIAFS (PHS Internet).
High-speed data communication according to the Access Forum Standard) is possible. When a PHS terminal and a PIAFS-compatible terminal are used together, for example, high-speed data transmission at a transmission speed of 28,800 kbps can be performed. The PHS is a time charging system based on the length of time during which communication data is transmitted.

[0003] The PDC-TS and PHS having such characteristics are separate communication systems, and have separate specifications (standards). Therefore, dedicated telephone terminals are used for each. The PDC-TS has a frequency of 80, for example.
0 (1.5) MHz is used, the access method is 3 channels / TDMA, and the voice coding method is 11.2 kbp.
s-VSELP / 5.6 kbps / PSI-CELP. The modulation method is π / 4QPSK. PHS
Uses, for example, a frequency of 1900 MHz, the access method is TDMA / TDD, and the audio coding method is 32.
kbps-ADPCM. The modulation method is QPS
K. Therefore, in PDC-TS and PHS,
The data communication is performed using the respective separate telephone terminals and using the data terminals.

[0004] For this reason, an apparatus configuration in which the PDC-TS or PHS is switched and used (combined use) is conceivable. For example, in a conventional example of Japanese Patent Application Laid-Open No. H10-94038, "Interconnecting apparatus", mutual communication with communication terminals of a heterogeneous communication network including a PHS network is enabled. In this conventional example, for example, P
Although the DC-TS is capable of intercommunication with a heterogeneous communication network including a PHS network, it is not possible to switch one of the PDC-TS and the PHS based on its advantage to transmit communication data.

[0005] For example, the PDC-TS is a pay-as-you-go system based on the amount of communication data, and when the communication data is transmitted by always connecting the line, the economical advantage can be obtained, but the transmission speed is low ( For example, 9600 bps). Therefore, when the amount of communication data increases, it is economically disadvantageous. In PHS, high-speed data transmission (transmission speed 32 kbps, 32 kbps × 2 bps / 2
8800 kbps) is possible, but it is a time charging system based on the length of communication data transmission time, and long-time line connection, that is, long-time data communication is economically disadvantageous.

[0006]

In the above conventional example, data communication is performed by switching the PDC-TS or PHS based on the economic advantages of the pay-per-use system and the time-based system, and the advantage of the transmission speed. There was a disadvantage that it could not be performed.

[0007] The present invention solves such problems in the prior art, and transmits communication data only by a digital cellular mobile telephone system (PDC-TS) or a PDC-TS and a simple telephone system (PH).
S), the transmission of communication data can be selected based on the economic advantage of the pay-per-use system, the economic advantage of the time-based system, and the advantage of the transmission speed. It is an object of the present invention to provide a wireless data communication method and a system for enabling efficient data communication.

[0008]

In order to achieve the above object, a wireless data communication method according to the present invention comprises a first wireless communication network of low-speed data transmission and pay-as-you-go, and a second wireless communication network of high-speed data transmission and time-to-charge. A data communication is performed between data communication devices through a wireless communication network. The step of transmitting communication data between one and the other data communication devices through a first wireless communication network, and the amount of communication data increases. When the communication data is divided by one or the other data communication device,
And transmitting over both the second wireless communication network and combining the divided communication data received by one or the other data communication device; and thereafter, the communication data is divided and transmitted, and When communication data volume decreases,
The method comprises the steps of stopping transmission of communication data by division and transmitting non-division communication data only through the first wireless communication network.
Further, transmission of communication data only by the first wireless communication network and transmission of divided communication data by the first and second wireless communication networks are continuously performed without interrupting line connection.

Further, the wireless data communication system of the present invention provides a method for transmitting data between data communication devices through a first wireless communication network of low-speed data transmission and pay-per-use and a second wireless communication network of high-speed data transmission and time-based charge. Communication, one and the other data communication device, between the transmission of communication data through the first wireless communication network, and one or the other data communication device, while monitoring the amount of communication data, When the amount of communication data increases by this monitoring, the communication data is divided and transmitted through both the first and second wireless communication networks, and the divided communication data is combined when received, and thereafter, A configuration in which communication data is divided and, when the amount of communication data decreases, transmission of communication data by division is stopped and non-divided communication data is transmitted only through the first wireless communication network. Are you. In addition, transmission of communication data by only the first wireless communication network and transmission of divided communication data by the first and second wireless communication networks in one and the other data communication devices are continuously performed without interrupting line connection. There is a configuration to perform.

[0010] As the one data communication device, a client device for performing data communication, a multiplexing device for performing multiplexing processing for dividing or combining and transmitting communication data, and a multiplexing device accommodated in a first wireless communication network. And a wireless communication terminal on one side that performs data communication by wireless line connection. A call control unit that performs call control on the first and second wireless communication networks; a division / combination processing unit that processes division and combination of communication data;
It is configured to include a communication processing unit that processes data communication with a wireless communication network and a transmission processing unit that executes a data transmission protocol for a second wireless communication network.

Further, as the other data communication device,
A server device, a multiplexing device that performs a multiplexing process of dividing or combining and transmitting communication data, and a wireless communication terminal that is accommodated in the second wireless communication network and performs data communication by wireless line connection. It is provided as a configuration. Also, as the multiplexing device, a call control unit that performs call control on first and second wireless communication networks, a communication processing unit that processes communication with the first wireless communication network, and a data transmission protocol in the second wireless communication network , A division / synthesis processing unit for processing division / combination of communication data, and data for instructing the call control unit to add or delete a transmission band by judging increase / decrease of communication data. And a quantity measuring unit.

Further, the first wireless communication network is a digital cellular mobile telephone network, and the one-side wireless terminal is a mobile telephone in a digital cellular mobile telephone system. Further, the second wireless communication network is a simple mobile phone network, and the other wireless terminal is a mobile phone in a simple mobile phone system.

[0013] Further, in the simple portable telephone network, a simple portable telephone home system in which a simple portable telephone base station accommodated in a fixed communication network is installed at a place including a home, or a plurality of simple portable telephone base stations, A simple mobile phone office system connected to a private branch exchange installed in a place including an office housed in a fixed communication network, or a plurality of simple mobile phone base stations installed for each outdoor microcell service area, The configuration includes a simple portable telephone outdoor system connected to a total base station accommodated in a fixed communication network.

[0014] The wireless data communication method and system of the present invention having the above-described structure are firstly used for a low-speed data transmission and a pay-as-you-go system between one and the other data communication devices.
The communication data is transmitted through a wireless communication network (PDC-TS). When the amount of communication data increases, one or the other data communication device divides the communication data and divides the communication data in both the first wireless communication network and the second wireless communication network (PHS) for high-speed data transmission and time charging. While transmitting, the received divided communication data is combined. Thereafter, when the amount of communication data decreases and the communication data is divided and transmitted, one or the other data communication device stops transmission by dividing the communication data and only the first wireless communication network Is transmitting communication data.

As a result, the transmission of communication data by the PDC-TS, or the transmission of communication data by both the PDC-TS and the PHS, is realized by the economical advantages of the pay-per-use system and the time-based system, and the advantages of the transmission speed. Based on this, it is possible to always connect the line between the end and the end.
Furthermore, efficient transmission of communication data becomes possible.

[0016]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the wireless data communication method and system of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the configuration of a wireless data communication method and system according to an embodiment of the present invention. In this wireless data communication system, a client 1 operating as a data processing terminal and communication data from the client 1 are transmitted by a PDC-TS, or communication data is divided and transmitted by both a PDC-TS and a PHS. And a PDC terminal 3 connected to the multiplexing device 2 through an interface (I / F).
And a PHS terminal 4 connected to the multiplexing device 2 as an interface (I / F), a PDC network 5 with packet communication and low-speed data transmission, for example, data transmission at a transmission speed of 9600 bps, and a pay-per-use system. .

This wireless data communication system has a P
High-speed data communication using the PIAFS standard with a cell base station 5a connected to the DC network 5 through an interface (I / F);
For example, along with high-speed data transmission at a transmission rate of 28,800 kbps, a PHS network 6 with a time charging system and this PHS network 6
Device 6a connected to the interface (I / F)
When the amount of communication data in the PDC-TS increases, the communication data transmitted by the PDC network 5 and the PHS network 6 are combined together with the control to further use the communication data transmission by the PHS. A multiplexing device 7 on the server side for sending out, and a server 8 as a fixed terminal for providing a program to the client 1 to collect processing data of the client 1 and for performing network management and the like are provided.

FIG. 2 is a block diagram showing a detailed configuration of the multiplexing device 2 on the client side. This multiplexing device 2
Is a call control unit 9 that performs call control on the PDC network 5 and the PHS network 6, and a division unit that processes division and synthesis of communication data.
Combination processing unit 10 and PDC packet processing unit 1 as a communication processing unit that processes packet communication in PDC-TS
1 and a PIAFS processing unit 12 as a transmission processing unit for executing the PIAFS data transmission protocol.

FIG. 3 is a block diagram showing a detailed configuration of the multiplexing device 7 on the server side. This multiplexing device 7 has a PD
Call control unit 1 that performs call control for C network 5 and PHS network 6
6, a communication processing unit 17 for processing packet communication with the PDC network 5, a PDC packet processing unit 17, a PIAFS processing unit 18 as a transmission processing unit for executing the PIAFS data transmission protocol, and processing for dividing and synthesizing communication data. Split·
The combining processing unit 19 and the server 8 determine an increase or decrease in the amount of communication data during communication, and instruct the call control unit 16 to add or delete a transmission band (add or stop transmission of communication data by PHS). A data amount measuring section 20 to be transmitted is provided.

The PDC terminal 3 and the PHS terminal 4 have a general configuration. As its configuration, a transmitting / receiving unit that performs transmission / reception at a specified frequency, a synthesizer that determines a transmission / reception frequency,
It includes a reception electric field strength detection section, a quadrature modulation / demodulation section, a time division multiplexing section (TDMA), an encoding / decoding (codec) section, microphones and speakers for transmission and reception, an input operation (keypad) section, and the like. I have. The PDC terminal 3 and the PHS terminal 4 are provided with slots and interfaces for transmitting communication data.

A cell base station 5a of the PDC network for making a wireless line (air (A) interface) connection with the PDC terminal 3;
The outdoor device 6a for making a wireless line (air (A) interface) connection with the PHS terminal 4 has a general-purpose configuration. As its configuration, it includes a wireless transmission / reception unit, a quadrature modulation / demodulation unit, a multiplexer, and the like. The cell base station 5a is accommodated in the PDC network 5 through a mobile communication control station (not shown).
The outdoor device 6a has the same configuration as that of the cell base station 5a, and is accommodated in the PHS network 6 via a not-shown general base station or the like or directly accommodated in the PHS network 6.

Next, the operation of this embodiment will be described. The call control unit 9 of the multiplexing device 2 on the client side shown in FIG. 2 and the call control unit 16 of the multiplexing device 7 on the server side shown in FIG. 3 perform transmission of communication data based on the amount of communication data. Transmission of communication data only by the PDC network 5,
Alternatively, control is performed to select transmission of communication data by both the PDC network 5 and the PHS network 6 (this control operation is appropriately described as an operation of the embodiment of the present invention).

Cell base station 5a at PDC terminal 3 and PD
The communication operation through the C network 5 is performed by a general PDC terminal (PD
C mobile phone) and the cell base station. The communication operation of the PHS terminal 4 through the outdoor device 6a and the PHS network 6 is the same as the operation of a general PHS terminal (PHS mobile phone) and the outdoor device.

For example, when the PHS terminal 4 moves to the cell of the outdoor device 6a, the broadcast channel (BC) is transmitted from the outdoor device 6a.
CH: Broadcasting Control Channel), when the location information notified differs from the current location information, the outdoor device 6a
A new location registration is performed by executing a location registration sequence (for example, the RCD-STD-27 standard) between the PHS terminal 4 and the PHS terminal 4. Thereafter, between the outdoor device 6a and the PHS terminal 4, a control channel (common control channel (CCCH: Co
mmon Control Channel)-Paging channel (PC
H: Paging Channel) / Channel for individual cell (SCC)
Through an H: Signaling Control Channel, a request for an information channel (TCH: Traffic Channel) for incoming call, outgoing call, location registration, incoming call response, and link establishment thereof are performed.

Further, a communication channel (TCH-Fast Associated Control Channel (FACCH)) is used.
hannel) / High-speed associated control channel (SACCH: SlowAC)
CH) to transmit information necessary for communication (dial information, function selection information, etc.), and also to transmit voice data and communication data. Further, when the PHS terminal 4 moves from the cell of the outdoor device 6a to another cell, the PHS terminal 4 detects a decrease in the received electric field strength and detects a decrease in the mobile field.
(sisted) Communication is continued through the next destination cell by the handover procedure.

In this operation, in the case of a telephone call, the PDC terminal 3 and the PHS terminal 4 are exchanged with the connected telephone terminal by codec processing, but in the case of transmission of communication data, the original signal is transmitted. (Communication data) is exchanged with the data terminal of the connection destination through processing by a non-telephone adapter (ADP).

FIG. 4 is a flowchart showing a processing procedure of the operation of the embodiment of the present invention. In this procedure,
The client 1 in FIG. 1 makes a call connection request to the server 8 (step S10). This call connection request is input to the multiplexer 2 on the client side. In the multiplexing device 2 shown in FIG. 2, the call control unit 9 receives a call connection request from the client 1 through the interface (I / F) and the division / combination processing unit 10. The call control unit 9 sends a call connection request from the PDC packet processing unit 11 to the PDC terminal 3 via an interface (I / F).

The PDC terminal 3 transmits a control channel (CCCH-PCH / SC) to the cell base station 5a that has registered the location.
CH) to request a call information channel / time slot (TCH) and establish a link therefor. Thereafter, the server 8 corresponding to the specified address (telephone number)
Is connected through the multiplexing device 7 on the server side. Thus, data communication is performed between the client 1 and the server 8 by the PDC network 5 (PDC-TS) (step S11).

The P between the client 1 and the server 8
The data communication by the DC network 5 is a pay-as-you-go system. Therefore, when the amount of communication data from the client 1 to the server 8 is small, it is economically advantageous, and a line connection for constantly transmitting communication data becomes possible. When a connection request is made from the client 1 to the server 8, the telephone number of the PHS terminal 4 is notified. The telephone number of this PHS terminal 4 is
The call control unit 16 of the multiplexing device 7 on the server side takes in and stores it.

The call control unit 9 of the multiplexer 2 on the client side determines the line disconnection request from the client 1 (step S12). Here, when the call control unit 9 receives the line disconnection request (Yes), the call control unit 9 executes the control of the line disconnection, and the data communication ends (step S13). If the call control unit 9 does not receive the line disconnection request in step S12 (No), the data amount measurement unit 20 of the multiplexing device 7 on the server side monitors the communication data amount from the client 1 to the server 8. Then, the communication data amount per time is measured and notified to the call control unit 16 (step S14).

If the communication data amount measured by the data amount measuring unit 20 has not increased beyond the predetermined value (No), the call control unit 16 returns to step S11, and returns to step S11.
(PDC-TS) only client 1 and server 8
Executes data communication with. Step S11
If the communication data amount measured by the data amount measurement unit 20 is larger than a predetermined value (Yes), the call control unit 16 of the multiplexer 7 on the server side
Reads out the telephone number stored in advance, and sends this selection signal from the PIAFS processing unit 18 to the interface (I /
F) to send (call) to the PHS network 6 (step S15).

With this call, the line connection with the PHS terminal 4 is made through the PHS network 6 and the outdoor device 6a. The PHS terminal 4 notifies the PIAFS processing unit 12 of the multiplexing device 2 on the client side of the line connection, and the call control unit 9 receives the notification of the line connection. The call control unit 9 controls the division / synthesis processing unit 10 to divide the communication data from the client 1 into two, and the PDC packet processing unit 11
It is sent to the IAFS processing unit 12. In the PDC network 5, data communication with a reduced communication data amount is performed by the current link. That is, data communication is performed by applying the economic advantage of the pay-as-you-go system. The PHS network 6 (P
The communication data from the client 1 is transmitted to the multiplexing device 7 on the server side through the PHS terminal 4 and the outdoor device 6a by a new link in HS). This gives P
Data communication is performed using the advantage of the high-speed data communication using the PIAFS standard of the HS network 6 (PHS) and the advantage of the time charging system.

The division / synthesis processing unit 19 of the multiplexing device 7
The PDC packet processing unit 1 is controlled by the call control unit 16.
7 and the communication data from the client 1 transmitted through the PIAFS processing unit 12 are taken in and combined. The combined communication data from the client 1 is sent to the server 8 via the interface (I / F) (step S16).

When the communication data is divided, the division / combination processing section 10 of the client-side multiplexer 2 inserts, for example, flag bits before and after the divided data and transmits the data. The division / combination processing unit 19 of the multiplexing device 7 on the server side combines the communication data divided by the multiplexing device 2 on the client side by identifying the flag.

Next, the data amount measuring unit 20 in the multiplexing device 7 on the server side monitors the amount of communication data that the division / combination processing unit 19 has acquired and combined. In this monitoring,
The data amount per time is measured and notified to the call control unit 16. If the communication data amount measured by the data amount measurement unit 20 has not increased beyond a predetermined value (step S17: No), the call control unit 16 returns to step S16 and returns the communication data by the PDC-TS and the PHS. Execute transmission. In the process of step S17, when the communication data amount measured by the data amount measurement unit 20 is increasing (Yes), the call control unit 16 of the multiplexing device 7 on the server side.
Controls the PIAFS processing unit 18 to execute the call disconnection (step S18).

This call disconnection is performed by the PHS network 6 and the outdoor device 6a.
This is performed for the PHS terminal 4 through. This call disconnection is performed by the PIAFS processing unit 12 of the multiplexer 2 on the client side.
Is notified to the call control unit 9 when is received. Call control unit 9
Controls the division / synthesis processing unit 10 so that the client 1
Stops dividing the communication data sent by
Return to That is, the PDC network 5 (PDC-T
Data communication between the client 1 and the server 8 is performed only by S).

As described above, in this embodiment, first, the communication data is transmitted from the client 1 using the low-speed PDC network 5 based on the usage-based charging system depending on the amount of communication data. When the amount of communication data increases, the communication data is divided and time-based charging and high-speed PH
Data communication on the S network 6 (PHS) is also used. After that, when the communication data amount decreases, the transmission by dividing the communication data is stopped, and the transmission of the communication data is switched to the PDC network 5 only.

As a result, the transmission of communication data by the PHS network 6 (PDC-TS) or the transmission of communication data by both the PDC network 5 and the PHS network 6 (PDC-TS or PHS) can be performed by a pay-per-use system. The selection can be made based on the economic advantages of the billing system and the advantages of the transmission speed.
Therefore, line connection is always possible between end and end, and efficient communication data transmission is enabled.

In this embodiment, the case where the communication data is transmitted from the client 1 to the server 8 has been described as the operation of the embodiment of the present invention, but the communication data is also transmitted from the server 8 to the client 1. Applicable as it is. For example, remote calling (RPC: Remote Pro
The present invention can be applied to a case where an execution program (communication data) in a Cedure Call is transmitted from the server 8 to the client 1 or a data communication when the server 8 manages a large number of clients 1.

In this case, the client-side multiplexer 2
The operation of the multiplexing device 7 on the server side is opposite to that described with reference to FIGS. That is, the operation of the client-side multiplexer 2 described above is
The configuration is such that the multiplexing device 7 on the server side is executed, and the operation of the multiplexing device 7 on the server side described above is executed by the multiplexing device 2 on the client side.

In this embodiment, the client 1
Considering the case where a portable PDA (Personal Digital Assistant) is used as the
And the PHS terminal 4 are arranged, and the server 8 is connected to the PDC network 5 and the PHS network 6 through the multiplexing device 7, but the reverse is also possible. That is, the client 1
When the mobile phone is not considered, the client 1 is connected to the PDC network 5 and the PHS network 6 through the multiplexer 2 and the PDC terminal 3 and the PHS terminal 4 are arranged on the server 8 side. In this case, the operation is the same, and the same advantages as described above are obtained.

Further, in the PHS in this embodiment,
A part of the network configuration can be configured using a known system of a different form. For example, the following three systems are known as the different types of systems. (1) PHS home system (fixed communication network (IS
(PHS base stations accommodated in DN / PSTN) are installed.) (2) PHS office system (a plurality of PHS base stations installed in an office or an underground shopping mall are connected to a fixed communication network (ISD).
(3) Connect to a private branch exchange (PBX) accommodated in the N / PSTN) (3) PHS outdoor system (fix a plurality of PHS base stations installed in each outdoor microcell service area (for example, a maximum of several hundred meters)) (Connect to the integrated base station accommodated in the communication network (ISDN / PSTN))

[0043]

As is apparent from the above description, according to the wireless data communication method and system of the present invention, first, a low-speed data transmission and a pay-as-you-go system between one and the other data communication devices are performed. 1 wireless communication network (PDC-TS)
Data communication is performed through. When the amount of communication data increases, one or the other data communication device divides the communication data to be used in both the first wireless communication network and the second wireless communication network (PHS) for high-speed data transmission and time charging. The transmitted and received divided communication data is synthesized. After this,
When the amount of communication data is reduced and the communication data is divided and transmitted, the one and the other data communication devices stop the transmission of the communication data by division and perform the data communication only by the first wireless communication network. Perform communication.

As a result, the transmission of communication data by the PDC-TS, or the transmission of communication data by both the PDC-TS and the PHS, is realized by the economical advantages of the pay-per-use system and the time-based system, and the advantages of the transmission speed. Based on this, it is possible to always connect the line between the end and the end.
Furthermore, efficient transmission of communication data becomes possible.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a wireless data communication method and system according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a detailed configuration of a client-side multiplexing device in the embodiment.

FIG. 3 is a block diagram illustrating a detailed configuration of a multiplexing device on a server side according to the embodiment.

FIG. 4 is a flowchart illustrating a processing procedure of an operation according to the embodiment;

[Explanation of symbols]

 Reference Signs List 1 client 2, 7 multiplexer 3 PDC terminal 4 PHS terminal 5 PDC network 5a cell base station 6 PHS network 6a outdoor equipment 8 server 9, 16 call control unit 10, 19 division / combination processing unit 11 PDC packet processing unit 12 PIAFS Processing unit 17 PDC packet processing unit 18 PIAFS processing unit 20 Data amount measurement unit

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H04Q 7/22 H04Q 7/04 A 7/24 7/26 7/30 F term (Reference) 5K025 AA08 BB03 BB07 DD06 EE01 KK08 LL06 5K030 GA20 HA08 HB01 HC09 JA01 JL01 JT01 JT09 LB01 LC05 LE01 MB09 5K034 AA01 AA10 CC05 DD03 EE03 EE09 FF13 HH01 HH64 JJ11 MM25 5K067 AA13 AA29 BB02 GG02 BB02 BB02 LL14 MM06 MM07 QQ08 QQ09 QQ10 RR11 RR21 RR24 SS07 TT04 VV01

Claims (13)

[Claims] 1. A wireless data communication method for performing data communication between data communication apparatuses through a first wireless communication network of low-speed data transmission and pay-as-you-go and a second wireless communication network of high-speed data transmission and time-based charging. The communication data is transmitted between one and the other data communication devices by a first method.
Transmitting the data through a wireless communication network; dividing the communication data by one or the other data communication device when the amount of communication data increases and transmitting the data through both the first and second wireless communication networks; A step of combining the received divided communication data by the other data communication apparatus; and, when the communication data is divided and transmitted, and the communication data amount is reduced, the other data communication apparatus A wireless data communication method, comprising the step of: stopping transmission of communication data by division and transmitting non-division communication data only by a first wireless communication network. 2. The transmission of communication data only by the first wireless communication network and the transmission of divided communication data by the first and second wireless communication networks are performed continuously without interrupting line connection. The wireless data communication method according to claim 1, wherein 3. A wireless data communication system for performing data communication between data communication apparatuses through a first wireless communication network of low-speed data transmission and pay-per-use and a second wireless communication network of high-speed data transmission and time-based charge, The one and the other data communication devices transmit communication data through the first wireless communication network during this time, and
The one or other data communication device monitors the amount of communication data, and when the amount of communication data increases by this monitoring, divides the communication data and transmits the divided data through both the first and second wireless communication networks. And, when the divided communication data is received and combined, and thereafter, the communication data is divided, and when the amount of communication data is reduced, the transmission of the divided communication data is stopped, and the non-divided A wireless data communication system, wherein communication data is transmitted only through a first wireless communication network. 4. A line connection is interrupted between the transmission of communication data by only the first wireless communication network and the transmission of divided communication data by the first and second wireless communication networks in the one and other data communication devices. The wireless data communication method according to claim 3, wherein the wireless data communication is performed continuously without performing. 5. The one data communication device, a client device for performing data communication, a multiplexing device for performing multiplexing processing for dividing or combining and transmitting communication data, and a first wireless communication network The wireless data communication system according to claim 3, further comprising: a wireless communication terminal on one side that performs data communication by wireless line connection. 6. A multiplexing device, comprising: a call control unit for performing call control on first and second wireless communication networks; a division / combination processing unit for processing division and combination of communication data; The wireless data communication system according to claim 5, further comprising: a communication processing unit that processes data communication with the wireless communication network; and a transmission processing unit that executes a data transmission protocol for the second wireless communication network. 7. The other data communication device, a server device, a multiplexing device for performing a multiplexing process for dividing or synthesizing and transmitting communication data, and a radio line connection accommodated in a second radio communication network. The wireless data communication system according to claim 3, comprising: a wireless communication terminal on the other side that performs data communication according to (1). 8. A multiplexing device, comprising: a call control unit that performs call control on first and second wireless communication networks; a communication processing unit that processes communication with the first wireless communication network; A transmission processing unit for executing a data transmission protocol, a division / combination processing unit for processing division / combination of communication data, and instructing the call control unit to add or delete a transmission band by judging increase / decrease of communication data. The wireless data communication system according to claim 7, further comprising: a data amount measuring unit for performing the operation. 9. The wireless data communication system according to claim 3, wherein said first wireless communication network is a digital cellular mobile telephone network. 10. The wireless data communication system according to claim 5, wherein said one-side wireless terminal is a mobile phone in a digital cellular mobile phone system. 11. The wireless data communication system according to claim 3, wherein said second wireless communication network is a simple portable telephone network. 12. The wireless data communication system according to claim 7, wherein said other wireless terminal is a mobile phone in a simple mobile phone system. 13. A simple mobile phone home system in which a simple mobile phone base station accommodated in a fixed communication network is installed in a location including a home, or a plurality of simple mobile phone base stations, A simple mobile phone office system connected to a private branch exchange installed in a place including an office housed in a fixed communication network, or a plurality of simple mobile phone base stations installed for each outdoor microcell service area, The wireless data communication system according to claim 11, further comprising a simple portable telephone outdoor system connected to an integrated base station accommodated in a fixed communication network.