JPH08274776A - Method and system for communication - Google Patents

Abstract

PURPOSE: To reduce the size and power consumption of a portable telephone set for multimedia communication by radio by sending an address regarding high-speed transmission prior to communication over a radio channel of low- speed transmission enabling a two-way communication. CONSTITUTION: A 1st base station 2A(101) sends the 1st physical address and logical address of a terminal to call the terminal 3(105). The terminal 3 sends a termination answer of the 1st base station 2A when the physical address and logical address are its own addresses. At this time, its own 1st physical address and 2nd logical address are sent at the same time. The base station 2A, when receiving the termination answer, sends the physical address of the terminal 3 and a line allocation message. The terminal 3 connects the base station 2A to a line and the base station 2A sends an information request to the terminal 3. The terminal 3 sends its 2nd physical and logical addresses to the base station 2A at the request. The base station 2A sends those addresses to a 2nd base station 2B(103) through a network 1. The base station 2B, once knowing the 2nd physical and logical addresses, sends information over a down radio channel of a high transmission rate.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication method and system for wirelessly communicating various media such as moving images, still images, texts and voices, and more particularly to a portable wireless telephone system and a wireless computer communication system. (Wireless LA
N) A wireless communication method and system applicable to both systems.

[0002]

2. Description of the Related Art CSMA / CD (Carrier Sense Multiplexer), which is standardized in IEEE802.3, is one of the protocols for wired communication between computers.
Access / Collision Detection). This is often used for communication at endpoint terminals. As a wireless communication between computers in consideration of this protocol and compatibility, there is a system standardized by IEEE 802.11. This wireless communication system is a system in which data generated by a terminal corresponds to burst data. However, it is not suitable for continuous data communication such as voice and moving images. Further, in this wireless communication method, all wireless terminals use the wireless communication path as a shared medium. That is, distributed communication is performed in which each terminal controls random access without previously allocating a wireless band for communication such as a car telephone system or a cordless phone.

This is a system on the assumption that all wireless terminals receive the data transmitted by each wireless terminal. Therefore, the range forming the wireless communication network is limited. Cellular phones and car phone systems are systems that realize wide-area wireless communication networks. As a simple mobile phone system, PHS
(Personal Handy phone System) is available. However, the transmission speed of the mobile phone system is a dozen Kbps, and even the PHS is 32 Kbps, which is insufficient for transmitting an image.

In order to eliminate such drawbacks, the wireless L
A system that combines both an AN (Locla Area Network) system and a PHS system is possible. The wireless terminal has two interfaces, wireless LAN and PHS, and when high-speed wireless transmission of images etc. is required, the wireless LAN
This is a system in which transmission by PHS and transmission by PHS are performed simultaneously. Further, in order to realize low ionization power consumption of the wireless terminal, high band wireless transmission is not performed, and the wireless LAN interface of the terminal only receives, and the terminal transmits PH.
Only S interface is used.

By using such a wireless terminal, a multimedia terminal having excellent portability can be realized.

As described above, the address of a wireless terminal having a relatively low-speed bidirectional wireless communication interface and a high-speed receiving-only interface has four addresses.

That is, the telephone number / manufacturing number (serial number) of the PHS or mobile phone and the MAC of the wireless LAN
(Media Access Control) Address / IP (Internet
Protocol) address. In a LAN for computer communication, ARP (Address Resolution Pro) is used in order to perform distributed control of MAC address and IP address when communicating with the other party.
tocol) is performed. However, in the above-described multimedia-compatible mobile terminal, bidirectional wireless transmission is not performed via the wireless LAN interface, so that there is a problem that ARP cannot be executed.

[0008]

As described above, in a multimedia mobile terminal having a wireless LAN interface for receiving only and a mobile phone or PHS interface for two-way transmission, PHS and the phone number of the mobile phone are Manufacturing number (serial number) and wireless LAN MAC (Media Access Control) address / IP (In
ternet Protocol) has four addresses.
However, since the interface of the wireless LAN is only for receiving, ARP cannot be executed, so that there is a problem that communication of the interface on the wireless LAN cannot be performed.

[0009]

In order to solve the above problems, a wireless communication method according to the present invention comprises a first logical address including a serial number of each terminal and a first logical address including a subscriber telephone number. Address, a second physical address as a protocol for computer communication, and a first wireless channel that enables a specific terminal of a plurality of terminals each having four addresses of a second logical address to perform bidirectional wireless communication And a first step of requesting a call to a first base station for setting a call, and the first terminal via the first base station and a network from the specific terminal via the first radio channel. A second step of transmitting a physical address and a first logical address to set a state in which voice communication is possible, and the first step from the specific terminal via the first wireless channel A second one that transmits the second physical address and the second logical address to a network via a ground station and is also connected to the network and enables unidirectional wireless communication from the base station side to the terminal side. A third base station that sets the wireless channel of the second base station transmits the second physical address and the second logical address via the second wireless channel to set a state in which inter-computer communication is possible. And a fourth step of transmitting necessary data from the second base station to the specific terminal by inter-computer communication via the second radio channel.

A radio communication system according to the present invention is a network, a plurality of base stations to which mutual communication is connected via the network, and telecommunication communication and inter-computer communication between these base stations. In a wireless communication system including a plurality of terminals for performing a plurality of terminals, a first physical address storage unit provided in each terminal for storing a first physical address including a serial number of the terminal, First logical address storage means provided in the terminal for storing a first logical address including a subscriber telephone number of the terminal; and a first physical address and a first logical address provided in the first base station. First wireless channel setting means for identifying a specific terminal using a logical address and setting a state in which bidirectional communication with the terminal is possible, and for each terminal Second physical address storage means for storing a second physical address as a protocol for inter-computer communication of the terminal, and a second physical address storage means provided for each terminal as a protocol for inter-computer communication of the terminal. Second logical address storing means for storing two logical addresses, and a two-way radio set in the second base station different from the first base station and set by the first wireless channel setting means. The second physical address and the second logical address are communicated between the second base station and a specific terminal via a channel via the first base station and the network, and thereby the second physical address and the second logical address are transmitted. Second wireless channel setting means for setting a unidirectional wireless channel from the base station to the specific terminal.

[0011]

[Operation] Low consumption of multimedia portable terminals for communicating information that requires a high transmission rate such as moving images and still images, and good information at a relatively low transmission rate such as text, voice and control information In order to reduce the power consumption, it is suitable that the communication at a high transmission rate is unidirectional only by the mobile terminal and the communication at a low transmission rate is a bidirectional communication system. Here, in this specification, the first physical address is used in a wireless communication system such as PHS, and specifically refers to a manufacturing number such as a serial number attached to a mobile phone. The first logical address is also used in a wireless communication system such as PHS, and specifically refers to a telephone number for a subscriber. Also,
The second physical address is used in an inter-computer wireless communication system such as a wireless LAN, and specifically refers to an address on the main memory installed in the computer provided in the terminal. The second logical address is also used in an inter-computer wireless communication system such as a wireless LAN, and is specifically an address issued to access a main memory when a program is executed. The second logical address used for this inter-computer communication is a memory management unit (MMU-memory).
It is converted into an actually existing address (the second physical address) by the management unit-). Therefore, the second logical address does not necessarily have to physically exist, and can also be called a virtual address.

However, if a plurality of wireless transmission interfaces are provided in this way, a plurality of addresses are required for the terminal. In addition, since the high-speed transmission interface is only for receiving, it is not possible to send an address related to high-speed transmission. However, the problem can be solved by transmitting an address related to high-speed transmission before performing communication on a low-speed transmission wireless channel capable of bidirectional communication.
That is, the mobile terminal can have an interface for high-speed wireless transmission only for reception and an interface for low-speed wireless transmission capable of transmission / reception, which enables communication. Further, by having such an interface for wireless communication, it becomes possible to reduce the size and power consumption of the mobile terminal.

[0013]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of a wireless communication method and system according to the present invention will be described in detail below with reference to the drawings.

Before giving a detailed description of the embodiments, the basic concept of the wireless communication method according to the present invention will be described with reference to FIG. 1, and then the basic concept of the wireless communication system according to the present invention will be described with reference to FIG. Explain the concept.

Referring to FIG. 1, the wireless communication method according to the present invention uses a first physical address including a serial number of each terminal, a first logical address including a subscriber telephone number, and a hardware protocol for inter-computer communication. Second
Of a plurality of terminals, each of which has four physical addresses and a second logical address as a software protocol for communication between computers, sets a first wireless channel that enables two-way wireless communication. A first step ST1 of requesting a call to a first base station, and the first physical address from the specific terminal via the first radio channel and the first base station and a network. And a second step ST for transmitting the first logical address and setting a state in which voice communication is possible
2, transmitting the second physical address and the second logical address from the specific terminal to the network via the first base station via the first radio channel, and being connected to the network, and The second base station that sets a second radio channel that enables unidirectional radio communication from the base station side to the terminal side is transmitted from the second base station via the second radio channel and the second physical address. And a third step ST3 for transmitting a logical address to set a state in which inter-computer communication is possible, and data required for the specific terminal from the second base station via the second wireless channel. A fourth step ST4 of transmitting by inter-computer communication.

The wireless communication system according to the present invention, as shown in FIG. 2, has a network 1, a plurality of base stations 2 ... Which are connected to each other via the network 1, and these base stations. And a plurality of terminals 3 for performing voice communication and computer-to-computer communication with each other. This system is further provided in each terminal 3 and includes a serial number of the terminal. A first physical address storage means 31 for storing a first physical address,
A first logical address storage means 32 provided in each terminal 3 for storing a first logical address including a subscriber telephone number of the terminal, and the first physical address provided in the first base station 2A. A first wireless channel setting means 21 for identifying a specific terminal using the address and the first logical address and setting a state in which bidirectional communication with the terminal is possible.
And a second physical address storage means 33 which is provided in each terminal 3 and stores a second physical address as a hardware protocol for inter-computer communication of the terminal.
And a second logical address storage means provided in each terminal 3 and storing a second logical address as a software protocol for inter-computer communication of the terminal, and 3
4. A second base station 2B different from the first base station 2A
And the first wireless channel 4 via the two-way wireless channel 4 set by the first wireless channel setting means.
The second physical address and the second logical address are communicated between the second base station 2B and the specific terminal 3 via the base station 2A and the network 1. Second wireless channel setting means 22 for setting a unidirectional wireless channel 5 from 2B to the specific terminal 3.

The network 1 includes a first base station 2
Not only A and the second base station 2B are connected, but also a database 6 for providing necessary data to the terminal 3 is connected. In addition, each terminal 3
Call processing means 35 for supporting S and the like, and wireless LAN
Data processing means 36 for supporting a system or the like.

FIG. 3 shows an example of an appearance of the system configuration of the present invention. This system is composed of a wireless base station 101 connected to the network, which provides a low-speed bidirectional wireless channel, a wireless base station 103 connected to the network, which provides a high-speed downlink wireless channel, and a wireless terminal 105. There is. The wireless zone 102 formed by the wireless base station 101 is formed in a wide area, and includes the wireless zone 104 formed by the wireless base station 103. The wireless terminal 105 has an interface 106 for communicating with the wireless base station 101 and an interface 107 for communicating with the wireless base station 103. The wireless terminal 105 is the wireless base station 10
1 has a first physical address and a first logical address to communicate with 1, and has a second physical address and a second logical address to communicate with the wireless base station 103.

Next, a communication procedure for the terminal to request broadband information such as image information and receive it from the network 1 will be described with reference to FIG. Here, it is assumed that the first base station communicates with the bidirectional wireless channel 4 having a low transmission rate, and the second base station communicates only with the downlink wireless channel 5 having a high transmission rate. First, the terminal transmits the first physical address of its own station and the line connection request to the first base station (201).
The first base station transmits the terminal's first physical address and line allocation information to the terminal. The terminal determines that the information is addressed to itself by looking at the physical address, fetches the information, and connects the line (203). Once the line is connected, communication becomes possible without adding the first physical address to the information for identifying the terminal. When the line is connected, the terminal sends a message of a request service requesting information such as an image to the first base station by attaching a second physical address and a second logical address (204). When the first base station receives the request service message from the terminal, the second base station transmits the second service of the terminal to the second base station via the network.
The physical address, the second logical address, and the request service message are transmitted (205). The service requested by the terminal is provided from the network and transmitted via the second base station (206). At that time, a second physical address and a second logical address for identifying the terminal are added to the information.

Next, a wireless communication method according to the embodiment of the present invention will be described with reference to FIG. FIG. 5 illustrates a procedure in which the terminal is called from the first base station and information is delivered from the second base station. First, a case where a terminal is called from the network side and information is delivered will be described. As shown in FIG. 3, a zone formed by a downlink channel having a high transmission rate has a diameter of about 1 to 5 meters in order to realize a spot-like service, and thus information transmission is completed in one zone. There are cases where it does not. At this time, when the terminal again reaches a position where information can be transmitted on the high-speed downlink channel, the terminal calls up on the low-speed two-way wireless channel with a wide service zone and transmits information on the high-speed downlink wireless channel again. In addition, when a service is requested in advance by a bidirectional wireless channel with a low transmission rate, and when a position where information can be transmitted by a downlink channel with a high transmission rate is reached, a call is made by the bidirectional wireless channel with a low transmission rate Information may be transmitted. The communication procedure in such a case will be described with reference to FIG.

The first base station sends a first physical address and a logical address 1 of the terminal to call the terminal (30
1).

When the physical address and the logical address are addressed to the terminal, the terminal sends an incoming call response to the first base station (3
02). At that time, the first physical address and the second logical address of the own station are simultaneously transmitted.

When the first base station receives the incoming call response,
The physical address of the terminal and the line allocation message are transmitted (303). Upon receiving the message, the terminal connects the line with the first base station. The first base station transmits an information transmission request to the terminal (304).

As a response, the terminal transmits the second physical address and the second logical address of its own station to the first base station (305). The first base station transmits the received second physical address and second logical address to the second base station via the network 1 (306). The second base station is
When the second physical address and the second logical address of the terminal are known, the information is transmitted on the downlink wireless channel having a high transmission rate (307).

Next, a third embodiment of the present invention will be described.

In the first and second embodiments, when the terminal is actually delivered information on the downlink radio channel having a high transmission rate, the second physical address and the second logical address are transmitted at a low speed. Transmitted to the first base station on a bidirectional wireless channel 4 of speed. However, it is possible to send the second physical address and the second logical address to the network 1 side even if the terminal is not delivered the information. Figure 1
As an example, a procedure for transmitting the second physical address and the second logical address when the terminal registers the location is shown.

The terminal transmits a first physical address and a line connection request to the first base station (401).

The first base station transmits the first physical address of the terminal and the line allocation message to the terminal (40
2). When the terminal receives the line allocation message,
A line is connected to the first base station.

When the line is connected, the terminal adds the location registration message and the second physical address / second logical address and transmits it to the first base station. The first base station transmits the received second physical address and second logical address to the second base station via the network.

Next, a method according to the fourth embodiment of the present invention will be described with reference to FIG.

When the second physical address and the second logical address of the wireless terminal are transmitted to the second base station, the second base station or the first base station creates a correspondence table of the physical address and the logical address. Hold for a certain period of time. While the base station still holds the correspondence table of the physical address and the logical address, the wireless terminal can transmit the second logical address and the second physical address of its own station to the bidirectional wireless line. Not desirable for effective use. In such a case, the first base station or the second base station
It is preferable to transmit on the bidirectional wireless channel only when the correspondence table of the physical address and the logical address of the base station does not include the second physical address and the second logical address of the wireless terminal which starts communication. The communication procedure will be described with reference to FIG. First, the terminal transmits a first physical address of its own station and a line connection request to the first base station (501). The first base station searches the address table with the received first physical address (502). As a result of the search, if the second physical address and the second logical address corresponding to the first physical address do not exist in the table, the first base station requests the second physical address in the line allocation message, A second logical address request is added and transmitted to the terminal (50
3).

Upon receiving the line assignment, the terminal connects the line with the first base station (504). Then, since the second physical address request and the second logical address request have been received from the first base station, the first physical address and the second logical address are added to the request service message to add the first physical address and the second logical address. It is transmitted to the base station (505).

The first base station writes the correspondence between the second physical address, the second logical address, and the first physical address received from the terminal in the address table (506), and further, via the network, The second physical address, the second logical address, and the request service message of the terminal are transmitted to the second base station (507). The service requested by the terminal is provided from the network and transmitted via the second base station (508). At that time, a second physical address and a second logical address for identifying the terminal are added to the information.

By the above procedure, when the first base station searches the address table (502), if the second physical address of the terminal and the terminal address 2 are still registered, at the time of line allocation, The second physical address request message and the second logical address request message are not transmitted.

Since the terminal has no request for the second physical address and the second logical address, it does not send the second physical address and the second logical address when sending the requested service.

[Brief description of drawings]

FIG. 1 is a flowchart showing a wireless communication method according to the present invention.

FIG. 2 is a block diagram showing a wireless communication system according to the present invention.

FIG. 3 is a configuration diagram showing an entire system of the present invention.

FIG. 4 is a sequence diagram showing a communication procedure for making a call from a terminal.

FIG. 5 is a sequence diagram showing an incoming call communication procedure.

FIG. 6 is a sequence diagram showing a communication procedure for location registration.

FIG. 7 is a sequence diagram showing a communication procedure for terminal identification.

[Explanation of symbols]

 ST1 First step ST2 Second step ST3 Third step ST4 Fourth step 1 Network 2A (101) First base station 2B (103) Second base station 3 Terminal 4 Bidirectional wireless channel 5 Unidirectional Radio channel 21 First radio channel setting means 22 Second radio channel setting means 31 First physical address storage means 32 First logical address storage means 33 Second physical address storage means 34 Second logical address storage means

Claims (5)

[Claims] 1. A first physical address including a serial number of each terminal, a first logical address including a subscriber's telephone number, and used for inter-computer communication and physically mounted on a main memory of a computer of the terminal. A specific terminal of the plurality of terminals, each of which has a second physical address, and four addresses of a second logical address for accessing the main memory when the program is used for communication between computers A first step of requesting a call to a first base station that sets a first wireless channel that enables wireless communication; and the first terminal from the specific terminal via the first wireless channel. A second step of setting up a line connection using the first physical address and the first logical address as identifiers via a base station and a network; The second physical address and the second logical address are transmitted from the specific terminal to the network via the first base station via a channel, and are connected to the network and from the base station side to the terminal side. A computer that transmits the second physical address and the second logical address via the second wireless channel from a second base station that sets a second wireless channel that enables unidirectional wireless communication. The third to set the state where inter-communication is possible
And a fourth step of transmitting necessary data from the second base station to the specific terminal through inter-computer communication via the second wireless channel. Wireless communication method. 2. A bidirectional communication between a wireless terminal, a first base station and a transmission device connected to the first base station based on first identification information uniquely assigned to each wireless terminal. A step of setting up a first line connection for communication, and notifying the transmission device of the second identification information uniquely assigned to the wireless terminal via the first line, and connecting to the transmission device. And a step of setting a second line connection for transmitting information from the transmission device to the wireless terminal via the second base station. 3. A network, a plurality of base stations to which mutual communication is connected via this network, and a plurality of terminals for performing voice communication and inter-computer communication with these base stations. A wireless communication system comprising: a first physical address storage means provided in each terminal for storing a first physical address including a serial number of the terminal; and a subscriber telephone of the terminal provided in each terminal First logical address storage means for storing a first logical address including a number, and a first terminal for identifying a specific terminal using the first physical address and the first logical address. Setting a state in which two-way communication with the terminal is possible
Wireless channel setting means, second physical address storage means provided in each terminal for storing a second physical address for inter-computer communication of the terminal, and computer of the terminal provided in each terminal Second logical address storage means for storing a second logical address for intercommunication, and a second base station different from the first base station, and set by the first wireless channel setting means. The second physical address and the second logical address are communicated between the second base station and the specific terminal via the first base station and the network via the two-way wireless channel, Accordingly, the second base station is provided with second wireless channel setting means for setting a unidirectional wireless channel to the specific terminal. Stem. 4. A bidirectional wireless channel in which a second physical address and a second logical address of the specific terminal are set by the first wireless channel setting means when the specific terminal performs location registration. The wireless communication system according to claim 3, wherein the wireless communication system transmits by using. 5. When the second base station requests the specific terminal to transmit the second physical address and the second logical address, the specific terminal transmits the second physical address to the specific physical terminal. 4. The wireless communication system according to claim 3, wherein the address and the second logical address are transmitted by both the target wireless channels set by the first wireless channel setting means.