JP2000151608A - Radio network system and communication control method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a radio network system where information can surely be transmitted efficiently. SOLUTION: In the radio network system that includes a central control station managing information transmission among communication terminals and a hidden terminal station that cannot be directly communicated with the central control station, each address of a caller terminal station, a final delivery destination terminal station, a relay source terminal station, a relay destination terminal station is added to a head of a transmitted data packet. An address of a terminal station to which direct communication is attained is designated to an address of a relay destination and then the information is relayed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio network system and a communication control method for transmitting various information between a plurality of communication terminals by, for example, radio signals.

[0002]

2. Description of the Related Art Conventionally, in a conventional star-type wireless network system used in a local area network or the like, a central control station capable of overlooking the entire network is relayed to a station which cannot directly communicate with its own station. I was transmitting data. Therefore, in the conventional star-type wireless network system, data can be transmitted to any station. Also, data transmission in a conventional star-type wireless network system requires only designation of a destination station and designation of the presence or absence of relay transmission at the central control station at the start of information transmission. Control could be simplified.

[0003] However, these conventional star-type wireless network systems have a problem that the network range is limited to the range in which the central control station can communicate.

[0004]

In recent years, a wireless network system that cannot communicate directly from the central control station, that is, includes a communication terminal (hidden terminal station) that is outside the communicable range of the central control station, has been developed. It is considered. When transmitting data in a wireless network system including such a hidden terminal station, a method of transmitting the data by adding path information such as the address of a relay destination terminal station to the data before starting the information transmission is considered. Can be

However, in a wireless network system including such hidden terminal stations, it is necessary to relay the communication terminal at least three times for transmission between the hidden terminal stations. It had to be added for each.

For this reason, it is necessary to add a large amount of relay destination information to the header portion and transmit it, and the data to be transmitted becomes redundant. Also, when receiving data to which such a large amount of relay destination address information is added, it is necessary to check whether or not the added relay destination address information exists, before receiving the data.

Further, in a wireless network system including a hidden terminal station, since the hidden terminal station can obtain information only from stations existing around the hidden terminal station, it is not possible to directly grasp the connection link information of the entire network. was there. For this reason, when a hidden terminal station becomes a transmission source station and performs information transmission, it has been difficult to specify a relay destination in advance and specify all the relay transmission paths in the transmission source station.

Further, in a wireless network system including a hidden terminal station, in order to designate a relay transmission path from the source terminal station to all the terminal stations, it is necessary to specify all the hidden terminal stations including the hidden terminal station existing on the network. The connection link information between the terminal stations must be transmitted as network common information. For example, in a network having 16 terminal stations, this redundant information has to be transmitted so that an information amount of 16 × 16 = 256 bits is distributed to all of the hidden terminal stations. In addition, when the connection status frequently changes due to movement of devices in the network or the like, such information must be repeatedly transmitted for each frame.

Accordingly, an object of the present invention is to provide a wireless network system and a communication control method capable of efficiently and reliably transmitting information.

[0010]

A wireless network system according to the present invention comprises a plurality of communication terminals, each of which specifies a source address for specifying a source of information and a final destination of information. Adding a destination address, a relay source address specifying a relay source of information, and a relay destination address specifying a relay destination of information transmission, and transmitting the information to the communication terminal specified by the relay destination address; Features.

In this wireless network system, a source address specifying a source of information, a destination address specifying a final destination of information, a relay source address specifying a source of information, and a relay destination of information transmission Is added, and the information is transmitted.

[0012] Further, the wireless network system according to the present invention receives the information if its own address is specified as the destination address of the transmitted information.

[0013] In the wireless network system according to the present invention, if its own address is specified as a relay destination address of transmitted information and its own address is not specified as a destination address of transmitted information. , And transmits the information to another communication terminal.

Further, the wireless network system according to the present invention rewrites a relay destination address designating a relay destination of information transmission, and transmits information to a communication terminal specified by the relay destination address.

Further, the wireless network system according to the present invention receives the information if its own address is specified as the destination address of the transmitted information, and communicates the information specified by the source address of the received information. Transmit confirmation information to the terminal.

A communication control method according to the present invention is a communication control method for a wireless network composed of a plurality of communication terminals, comprising: a source address designating a source of information;
A communication terminal specified by the above-mentioned relay destination address by adding a destination address which specifies the final destination of information, a relay destination address which specifies a relay destination of information transmission, and a relay source address which specifies a relay source of information. The information is transmitted.

In this communication control method, a source address for specifying a source of information, a destination address for specifying a final destination of information, a relay source address for specifying a source of information, and a relay destination for information transmission. Is added, and the information is transmitted.

Further, in the communication control method according to the present invention, if an own address is designated as a destination address of transmitted information, the information is received.

Further, the communication control method according to the present invention provides a communication control method in which the own address is specified as the destination address of the transmitted information and the destination address of the transmitted information is not specified. , And transmits the information to another communication terminal.

Further, the communication control method according to the present invention rewrites a relay destination address designating a relay destination of information transmission, and transmits information to a communication terminal specified by the relay destination address.

Further, according to the communication control method of the present invention, if the own address is specified as the destination address of the transmitted information, the information is received, and the communication specified by the source address of the received information is received. Transmit confirmation information to the terminal.

[0022]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a wireless network system to which the present invention is applied will be described as an embodiment of the present invention with reference to the drawings.

FIG. 1 shows a wireless network system to which the present invention is applied.

The radio network system according to the embodiment of the present invention comprises a central control station which is composed of a plurality of terminal stations and manages data transmission on the network, and a hidden terminal station which cannot communicate directly with the central control station. Is a wireless network system including:

FIG. 1 shows a wireless network system to which the present invention is applied.

The wireless network system shown in FIG.
For example, it is composed of ten terminal stations, and each terminal station has an address (# 1 to # 10) for identification.
Here, in this wireless network system, a central control station that manages each terminal station is, for example, a terminal station having an address # 5. At this time, addresses # 2 to # 4 and addresses # 6 to # 4 are set within the radio wave range 5a of the central control station (# 5).
There are six normal terminal stations # 8 and the central control station (# 5)
Of addresses # 1, # 9, # 10
There are three hidden terminal stations. In addition, hidden terminal station (#
In the radio wave range 1a of 1), addresses # 2 and # 3 existing in the radio range 5a of the central control station (# 5) are included.
There are two normal terminal stations. Also, hidden terminal station (# 9)
Is within the radio range of the central control station (# 5), one normal terminal station of address # 6 existing within the radio range of the central control station (# 5), and outside the radio range of the central control station (# 5). And one hidden terminal station having the address # 10. Also, the radio wave reach 10a of the hidden terminal station (# 10)
In the figure, one normal terminal station having an address # 8 existing within the radio range 5a of the central control station (# 5) and an address # existing outside the radio range 5a of the central control station (# 5).
There are nine hidden terminal stations.

In such a wireless network system, when communication is performed between communication terminals within the radio wave range, information is directly transmitted, and communication is performed between communication terminals outside the radio range. In such a case, relay transmission via another communication terminal is performed.

As shown in FIG. 2, each terminal station includes an interface 21, a data conversion unit 22, and a radio processing unit 23.
, Antenna 24, control device 25, internal memory 26
And

The interface 21 transmits and receives data to and from a device such as a personal computer or an AV device connected to the terminal station. This interface 23
For example, a bridge conforming to IEEE1394 is used. The data conversion unit 22 encodes data transmitted via the network and decodes data received via the network. The wireless processing unit 23 modulates and demodulates data transmitted via the antenna 24 and performs high-frequency amplification (for example, 5G
Hz band amplification). The antenna 24 is a part that transmits and receives radio waves to and from a transmission destination or reception destination device. Note that selection diversity using a plurality of antennas may be used. The control device 25, based on the information stored in the internal memory 26,
And the wireless processing unit 24. Each communication station is not limited to such a configuration as long as it is a device for realizing a wireless network, and may be any device that performs the same function.

The data transmitted in the wireless network system configured as described above is transmitted in packet units.
r information, PacketData, and CRC (Cyclic R
edundancy Check).

The Header information in this packet includes:
Source ID, destination ID, relay ID, relay I
D and these CRCs.

The source ID is information for specifying the terminal station that is the source of the data to be transmitted, and describes the address of the terminal station that has transmitted the data. The destination ID is information for specifying the terminal station to which the transmitted data is finally delivered, and describes the address of the terminal station that finally receives the data. The relay source ID is information for identifying a terminal station that relays data to be transmitted, and describes an address of the terminal station that relays the data. The relay destination ID is
This is information for specifying a terminal station that relays data to be transmitted, and describes the address of the terminal station that relays the data from now on.

When the polling from the central control station is used as the transmission control method, the source ID may be omitted because the terminal station responding thereto is specified as the transmission source.

Next, a Head added at the time of data transmission.
4 to 11 show how to specify the source ID, destination ID, relay source ID, and relay destination ID described in the er information.
And will be described with reference to specific examples.

In describing the method of designating each ID, the connection form of the wireless network system according to the embodiment of the present invention will be described with reference to FIG. It is assumed that the type network has been developed. In an actual transmission path, although these connection relationships are more complicated,
Here, in order to simplify the description, the distances between the terminals are schematically shown at regular intervals. Also, for convenience, terminal stations (# 1, # 9, ##) that cannot directly communicate with the central control station (# 5)
Let 10) be a hidden terminal station, and treat terminal stations (# 2, # 3, # 4, # 6, # 7, # 8) that can directly communicate with the central control station separately from normal terminal stations.

It is also assumed that each terminal station stores the central control station and the connection link information with each terminal station existing within its own communicable range, judging from the past communication state and the like. For example, in the case of the terminal station # 2, the fact that the terminal stations # 1, # 3, # 4, and # 5 are within the communicable range of the terminal station is stored as connection link information. In addition, each terminal station can acquire the connection link information of the terminal station existing within its own communicable range. For example, terminal station # 1
If so, the terminal station # 2 becomes the terminal station # 1, # 3, # 4, # 5
And that terminal station # 3 can communicate with terminal stations # 1, # 2
It can be confirmed that communication with # 5 and # 6 is possible.
In addition, about the acquisition method of connection link information, for example,
The methods disclosed in Japanese Patent Application Nos. 10-47416 and 10-258855 proposed by the present applicant may be used.

FIG. 5 shows a specific example of a method of specifying an ID in the case of direct transmission.

For example, from the hidden terminal station # 1 to the normal terminal station #
In the case where information is directly transmitted to the H.2, as shown in FIG.
For the information (H1), # 1 is designated as the source ID (hereinafter, the source ID is shown as S in the figure), and the destination ID
(Hereinafter, the destination ID is indicated as D in the figure), # 2 is specified, and # 1 is specified as the relay ID (hereinafter, the relay ID is indicated as T in the figure), and the relay ID is specified. (Hereinafter, the relay destination ID is indicated as R in the figure) and # 2 is designated. In this way, direct transmission can be performed by specifying the same address # 2 for the destination ID and the relay ID at the source terminal station.

FIG. 6 shows a specific example of a method of specifying an ID in the case of relay transmission in which one relay is performed.

For example, from the hidden terminal station # 1 to the normal terminal station #
4, when the information is relayed and transmitted by relaying the normal terminal station # 2, as shown in FIG. 6, the hidden terminal station # 1 transmits the information to the header information (H2) of the data to be transmitted. # 1 is specified as the source ID, # 4 is specified as the destination ID, # 1 is specified as the relay source ID, and # 2 is specified as the relay destination ID. The normal terminal station # 2 that relays the data transmitted by the hidden terminal station # 1,
For the der information (H3), the relay source ID is changed from # 1 to #.
2 and specify # 2 as the relay source ID, and rewrite the relay destination ID from # 2 to # 4 and # 4 as the relay ID.
, And leave the source ID and the destination ID as they are. As described above, the source terminal station # 1 specifies # 2 as the relay destination ID, and the relay destination terminal station # 2 specifies the same address # 4 for the destination ID and the relay destination ID. With this, it is possible to perform relay transmission for performing one relay.

FIG. 7 shows a specific example of a method of specifying an ID in the case of re-relay transmission in which two relays are performed.

For example, from the hidden terminal station # 1 to the normal terminal station #
7, when information is relayed and transmitted by relaying the normal terminal station # 3 and the central control station # 5, as shown in FIG.
The hidden terminal station # 1 specifies # 1 as the source ID, specifies # 7 as the destination ID, and specifies # 1 as the relay ID for the Header information (H4) of the data to be transmitted, # 3 is designated as the relay destination ID. The normal terminal station # 3, which relays the data transmitted by the hidden terminal station # 1, specifies # 3 as the relay source ID and # 5 as the relay destination ID for the Header information (H5) of the data to be transmitted. Then, the source ID and the destination ID are left as they are. The central control station # 5, which re-relays the data relayed by the normal terminal station # 3, transmits the header information (H
For 6), # 5 is designated as the relay ID, # 7 is designated as the relay ID, and the source ID and the destination ID are left as they are. Thus, terminal station # 1 of the transmission source
Specifies # 3 as the first relay destination ID, specifies # 5 as the second relay destination ID in the first relay destination terminal station # 3,
By designating the same address # 7 for the destination ID and the relay destination ID in the second relay destination terminal station # 5, 2
A re-relay transmission can be performed to perform the relaying twice.

FIG. 8 shows a specific example of a method of designating an ID in the case of re-relay transmission in which relay is performed three times.

For example, from hidden terminal station # 1 to hidden terminal station #
10, when the information is relayed again by relaying the normal terminal station # 2, the central control station # 5 and the normal terminal station 8, the hidden terminal station # 1 transmits the information as shown in FIG. For the header information (H7) of the data, specify # 1 as the source ID, specify # 10 as the destination ID, specify # 1 as the relay ID, and specify # 2 as the relay ID. . The normal terminal station # 2, which relays the data transmitted by the hidden terminal station # 1, specifies # 2 as the relay source ID and # 5 as the relay destination ID for the Header information (H8) of the data to be transmitted. Source ID and destination ID
And leave as is. The central control station # 5, which re-relays the data relayed by the normal terminal station # 2, specifies # 5 as the relay source ID and # 8 as the relay destination ID for the Header information (H9) of the data to be transmitted. Specify and leave the source ID and destination ID as they are. Normal terminal station # 8 that re-relays data relayed by the central control station # 5
Specifies # 8 as the relay source ID and # 10 as the relay destination ID for the Header information (H10) of the data to be transmitted, leaving the source ID and the destination ID as they are. Thus, the first terminal station # 1 at the source terminal
# 2 is specified as the relay destination ID of the first relay destination, # 5 is specified as the second relay destination ID at the first relay destination terminal station # 2, and the third relay is specified at the second relay destination terminal station # 5. The destination ID # 8 is designated as the destination ID, and the destination ID and the destination I
By specifying the same address # 10 as D, re-relay transmission can be performed for three times of relay. Here, for convenience, the transmission path is specified so as to relay the central control station # 5. However, the transmission path does not necessarily need to pass through the central control station, and when other connection links are stably secured. May select a route using the terminal station.

FIG. 9 shows a case where the originating station can specify a plurality of relay destinations, and the relay destination checks whether or not the relayed information is actually specified by the shortest route and transmitted. A specific example of a method of specifying an ID will be described.

For example, from hidden terminal station # 1 to hidden terminal station #
9, when the information is relay-transmitted, as shown in FIG. 9, the hidden terminal station # 1 transmits the
For the r information (H11), # 1 is specified as the source ID, # 9 is specified as the destination ID, # 1 is specified as the relay ID, and # 2 is specified as the destination ID. Normal terminal station # that relays data transmitted by hidden terminal station # 1
No. 2 designates # 2 as the relay source ID and # 5 as the relay destination ID for the Header information (H12) of the data to be transmitted, and leaves the source ID and the destination ID as they are. The central control station # 5, which re-relays the data relayed by the normal terminal station # 2, transmits the data to the
For the r information (H13), # 5 is specified as the relay source ID, # 6 is specified as the relay destination ID, and the source ID and the destination ID are left as they are. The normal terminal station # 6, which re-relays the data relayed by the central control station # 5, designates # 6 as the relay source ID and # 9 as the relay destination ID for the header information (H14) of the data to be transmitted. Specify and leave the source ID and destination ID as they are.

Here, the central control station # which is the second relay destination
In 5, the destination ID is set even if the relay destination ID is specified as # 8.
Although transmission is possible up to # 9, the connection link information of the other terminal stations is checked, and two terminals of the normal terminal station # 3 and the hidden terminal station # 9 are checked.
The normal terminal station # 6, which recognizes this, is selected as a relay route. That is, in the central control station # 5, the normal terminal station # 1 that recognizes the hidden terminal station # 1 indicated in the source ID
3 and the normal terminal station # 6 that recognizes the two hidden terminal stations # 10 indicated in the destination ID. This makes it possible to re-designate an optimal relay route when data is transmitted in the future. After this,
In the ordinary terminal station # 6 serving as the third relay destination, the same address # 9 is designated for the destination ID and the relay destination ID, so that the hidden terminal station of the destination which is the destination of the final data is designated. Until # 9, the normal terminal station # 2 is specified as the first relay destination, the central control station # 5 is specified as the second relay destination, and the normal terminal station # 6 is specified as the third relay destination. Relay transmission can be performed.

FIG. 10 shows a specific example of a method of designating an ID when hidden terminal station # 9 returns information confirmation (ACK) transmitted from hidden terminal station # 1 to hidden terminal station # 9 in FIG. Is shown.

In this network system, for example, it is defined that confirmation information is returned in response to information sent from hidden terminal station # 1 to hidden terminal station # 9. In this case, the hidden terminal station # 9, which is the source of the confirmation information, specifies # 9 as the source ID and # 1 as the destination ID for the Header information (H15) of the data to be transmitted, # 9 is specified as the relay source ID, and # 6 is specified as the relay destination ID. At this time, the hidden terminal station # 9 relays the original information of the confirmation information to its own station (in this case, #
6) is designated as the relay destination ID. The normal terminal station # 6, which relays the data transmitted by the hidden terminal station # 9, transmits the header information (H16) of the transmitted data to the relay source I.
Specify # 6 as D, specify # 3 as the relay destination ID, and leave the source ID and destination ID as they are.
Normally, the terminal station # 6 checks the connection link information of another terminal station without specifying the terminal station that has relayed the original information of the confirmation information to itself (in this case, # 5) as the relay destination ID, and receives the destination information. Is searched for a terminal station connected to the hidden terminal station # 9. At this time, the central control station # 5, which originally relayed the original information of the confirmation information to itself, determines that # 3, which recognizes the source ID # 1, and # 6, which recognizes the destination ID # 10. Since the terminal station is connected as a relay path, the normal terminal station # 6 can designate the normal terminal station # 3 connected to the hidden terminal station # 1 as the relay destination ID. Then, the normal terminal station # 3, which re-relays the data relayed by the normal terminal # 6, specifies # 3 as the relay source ID for the Header information (H17) of the data to be transmitted,
# 1 is designated as the relay destination ID, the source ID and the destination I
Leave D and as it is.

As described above, the hidden terminal station # 1 that is the destination
Up to this point, the normal terminal station # 6 is designated as the first relay destination, the normal terminal station # 3 is designated as the second relay destination, and the confirmation information can be returned on the shortest route. As a result, it is possible to perform the relay transmission between the normal terminal stations without passing through the central control station # 5, and to return to the first transmission source.

Further, hereafter, in the transmission between the transmission source and the destination, if the shortest route thus obtained is used, the relay transmission efficiency is improved.

FIG. 11 shows data from hidden terminal station # 1 to hidden terminal station # 9 using the transmission path of the confirmation information (ACK) transmitted from hidden terminal station # 9 to hidden terminal station # 1 in FIG. A specific example of a method of designating an ID when transmitting ID is shown below.

For example, from hidden terminal station # 1 to hidden terminal station #
9, when the information is relay-transmitted, as shown in FIG. 11, the hidden terminal station # 1 transmits the
For the er information (H18), # 1 is specified as the source ID, # 9 is specified as the destination ID, # 1 is specified as the relay ID, and # 3 is specified as the relay ID.
At this time, the hidden terminal station # 1 stores the transmission path of the confirmation information, and sets the terminal station indicated on the transmission path to the relay destination I
Specify D. The normal terminal station # 3 that relays the data transmitted by the hidden terminal station # 1 is a header of the data to be transmitted.
For the information (H19), # 3 is specified as the relay source ID, # 6 is specified as the relay destination ID, and the source ID and the destination ID are left as they are. The normal terminal station # 6, which re-relays the data relayed by the normal terminal station # 3, specifies # 6 as the relay source ID and # 9 as the relay destination ID for the Header information (H120) of the data to be transmitted. Specify and leave the source ID and destination ID as they are.

Thus, the transmission from the source hidden terminal station # 1 to the destination hidden terminal station # 9 requires the first transmission.
Terminal station # 3 can be designated as a relay destination of
Relay transmission by the shortest path becomes possible.

Next, information transmission processing, information reception processing, relay destination designation processing, confirmation information (A
CK) return processing and confirmation information (ACK) reception processing will be described with reference to the flowcharts shown in FIGS.

First, information transmission processing in each terminal station will be described with reference to the flowchart shown in FIG.

First, in step S601, the terminal station obtains connection link information between itself and a peripheral station. Regarding the acquisition of connection link information, refer to Japanese Patent Application
The method proposed in Japanese Patent Application No. 0-258855 may be used.

Subsequently, in step S602, it is determined whether direct transmission to the destination is possible.

If direct transmission is possible, in step S603, the destination ID is specified for the relay destination ID, indicating that relay transmission is unnecessary. Then, step S
At 613, the designated packet is transmitted with the header information added, and the process ends.

If direct transmission is not possible, in step S604, connection link information of another peripheral station is obtained. The method of Japanese Patent Application No. 10-258855 may be applied for obtaining the connection link information. Subsequently, in step S605, by relaying a nearby station,
It is determined whether transmission to the destination is possible.

If relay transmission is possible to the destination, in step S606, the address of a peripheral station capable of relaying once is specified as the relay destination ID, and in step S613, the address is specified by adding header information. The packet is transmitted and relayed, and the process is terminated.

If relay transmission is impossible, it is determined in step S607 whether a designated relay station addressed to the destination is registered.

If the designated relay station for the destination has already been registered, in step S608, the address of the registered relay station is specified in the relay destination ID, and the flow advances to step S6.
At 13, the specified packet is transmitted with the header information added, and relay transmission is performed, thus ending the processing.

If the designated relay station for the destination is not registered, it is determined in step S609 whether the own station is a normal terminal station.

If the own station is a normal terminal station,
In step S610, the address of the central control station is specified as the relay destination ID. In step S613, the specified packet is transmitted with the header information added, and re-relay transmission using the central control station is performed. finish. This is because the central control station can communicate with all terminal stations existing on the network by performing one relay transmission.

If the own station is not a normal terminal station, that is, if the own station is a hidden terminal station, in step S611, the address of a station that recognizes the own station is designated as the relay destination ID. I do. Subsequently, in step S612, for the next transmission, or when there are a plurality of recognition stations, to determine whether the designated destination is a correct selection (the determination method will be described later). The information of the relay destination specified here is registered in the internal memory. Subsequently, in step S613, the designated packet is transmitted with the header information added, and re-relay transmission is performed, thus ending the processing.

Next, information reception processing in each terminal station will be described with reference to the flowchart shown in FIG.

First, in step S701, the terminal station decodes header information added to the head of a packet of received data.

Subsequently, in step S702, the relay destination I
It is determined whether or not the address of the own station is specified in D, and it is determined whether or not it is necessary to receive the corresponding packet. Here, if the packet does not need to be received, the processing exits.

If the packet is addressed to the own station, it is checked in step S703 whether the address of the own station is specified in the destination ID and whether the final destination of the packet is addressed to the own station. Make a confirmation.

If the address of the own station has been specified as the destination, in step S704, the corresponding information is received, and in step S705, the information of the immediately preceding relay source from which the relevant information has been sent is received. The information is stored in the internal memory.

If the address of the own station has not been designated as the destination, in step S706, the connection link information of the own station with the peripheral station is obtained.

Subsequently, in step S707, it is determined whether direct transmission to the destination is possible.

If direct transmission is possible, in step S708, the destination ID is designated for the relay destination ID to indicate that relay transmission is unnecessary. Then, step S
At 715, the designated packet is transmitted with the header information added, and the process ends.

If direct transmission is not possible, in step S709, connection link information of another peripheral station is obtained. Subsequently, in step S710, it is determined whether or not transmission to the destination is possible by relaying a nearby station.

If relay transmission is possible up to the destination, in step S711, the address of a peripheral station capable of relaying once is specified as the relay destination ID, and in step S715, header information is added and specified. The packet is transmitted and relayed, and the process is terminated.

If relay transmission is impossible, it is determined in step S712 whether a designated relay station addressed to the destination is registered.

If the designated relay station has already been registered for the destination, in step S713, the address of the registered relay station is specified in the relay destination ID, and the flow advances to step S7.
At 15, the specified packet is transmitted with the header information added, and relay transmission is performed, thus ending the processing.

If the designated relay station for the destination is not registered, in step S714, the relay ID
, The address of the central control station is specified, and in step S715, the specified packet is transmitted with the header information added, and re-relay transmission is performed using the central control station, and the process is terminated. If the designated relay station for the destination is not registered, the processing from step S609 shown in FIG. 13 may be performed.

Next, the process of specifying a relay destination in each terminal station will be described with reference to the flowchart shown in FIG.

First, in step S801, the terminal station determines whether there are a plurality of peripheral stations capable of relay transmission or a single peripheral station.

If only a single relay station exists, in step S802, the address of this single relay station is specified as the relay destination ID.

If there are a plurality of relay stations, in step S803, the relay source I which transmitted the corresponding packet
It is determined whether D and the source ID match. That is, it is determined whether the relay transmission is performed first.

If the relay source ID is equal to the source ID, in step S804, the address of a station whose connection link with its own station is reliable is specified as the relay destination ID. Also,
Here, more reliable relay designation may be performed through the central control station.

If the relay source ID is not equal to the source ID, it means that the relay transmission has already been performed and sent, so it is determined whether or not the relay designation is correct. That is, in step S805, connection link information of another peripheral station is obtained. Subsequently, step S806
In step S807, a peripheral station that recognizes the first source ID of the packet is searched for, and in step S807, a peripheral station that recognizes the final destination ID is searched for.

Subsequently, in step S808, it is determined whether or not there is a route that allows direct communication between these two recognition stations.

If there is no direct communication path, in step S804, a station having a reliable connection link with its own station is designated as the receiving station ID as a relay station.

If there is a direct communication route,
In step S809, the corresponding recognition station is set to the relay destination ID.
Specify as

Next, a process of designating a relay destination and a process of returning confirmation information (ACK) in each terminal station will be described with reference to a flowchart shown in FIG.

First, in step S901, the terminal station completes reception of the packet.

Subsequently, in step S902, an ACK packet is created when the information of the packet is correctly received, and a NACK packet is created when the information is not correctly received.

Subsequently, in step S903, ACK / NA
It is determined whether direct transmission of the CK packet is possible.

If direct transmission is possible, the address of a terminal station capable of direct transmission is designated as a relay destination ID, and in step S906, ACK / NACK packet transmission processing is performed.

If direct transmission is not possible, in step S904, step S705 shown in FIG.
, Refer to the relay source information of the packet registered. Then, in step S905, the relay destination ID is specified based on this information, and in step S906, the ACK
/ NACK packet transmission processing is performed.

Next, the confirmation information (AC
The reception process K) will be described with reference to the flowchart shown in FIG.

First, in step S911, the header information of the packet is decoded. Subsequently, step S91
In step 2, the source ID of the packet is acquired, and in step S913, it is determined whether the terminal station indicated by the source ID is an unrecognizable station that cannot communicate with its own station.

If the station is not an unrecognizable station, the process exits.

If the station is unrecognizable, step S
In 914, the relay source I immediately before the relevant information was sent
Obtain information of D. Subsequently, in step S915, the information of the address of the relay designated station that has performed the first relay designation for the source ID stored in step S610 is acquired. Subsequently, in step S916,
The relay source ID immediately before is compared with the address of the relay designated station.

If they are different, step S
At 917, the designated relay station is changed to the terminal station indicated by the immediately preceding relay source ID as the optimal relay station. Then, in step S918, the address of the designated relay station is registered as the optimum designated relay station to the unrecognizable station.

As described above, in the wireless network system according to the embodiment of the present invention, unlike the conventional system in which all the relay routes are specified, only one portion for specifying the relay destination is required. The information overhead can be efficiently transmitted without the packet overhead becoming redundant.

Also, in the wireless network system according to the embodiment of the present invention, each terminal station only needs to determine the presence or absence of relay transmission from the connection link information with the peripheral terminal stations, so that the connection of the entire redundant network is established. There is no need to transmit link information over the entire network, and information can be transmitted efficiently.

Further, in the wireless network system according to the embodiment of the present invention, each terminal station can determine the relay destination designated when information arrives, so that even when a plurality of relays are required, Data loss hardly occurs, and reliable information transmission can be performed. Therefore, suitable relay transmission can be performed even in a network including a hidden terminal station.

Further, in the wireless network system according to the embodiment of the present invention, even when there is a mobile terminal station, the optimum relay station can be determined each time, so that reliable information transmission can be performed. .

Further, in the radio network system according to the embodiment of the present invention, even when the relay destination specified by the hidden terminal station becomes inconvenient, an optimum re-relay destination can be specified at the relay destination. By using the route as the return route of the confirmation information, the hidden terminal station can be notified of the shortest route, and information can be transmitted efficiently. Furthermore, the route to which the confirmation information has been returned can be registered as the optimum relay destination for the communication terminal, and the relay destination in the network including the hidden terminal station can be appropriately specified. .

[0105]

According to the wireless network system and the communication control method of the present invention, a source address for specifying a source of information, a destination address for specifying a final destination of information, and a relay for specifying a relay source of information. The information is transmitted by adding a source address and a relay destination address designating a relay destination of information transmission.

As a result, in the present invention, unlike the conventional method of specifying all the relay routes, only one portion for specifying the relay destination is required, so that the overhead does not become redundant and the information transmission can be efficiently performed. It can be carried out.

Further, according to the present invention, it is only necessary to determine the presence or absence of the relay transmission from the link information of the connection with the peripheral communication terminal.
There is no need to transmit data over the entire network, and information can be transmitted efficiently.

Further, according to the present invention, it is possible to determine a relay destination to be specified when information arrives. Therefore, even when a plurality of relays are required, data loss hardly occurs and reliable information transmission is performed. It can be performed. Therefore, suitable relay transmission can be performed even in a network including a hidden communication terminal.

Further, according to the present invention, even when there is a mobile communication terminal, an optimum relay station can be determined each time, so that reliable information transmission can be performed.

Further, according to the present invention, even when the relay destination specified by the hidden communication terminal becomes inconvenient, an optimum re-relay destination can be specified at the relay destination, and the route is returned as confirmation information. By using it as a route, the hidden communication terminal can be notified of the shortest route, and information can be transmitted efficiently. Furthermore, the route to which the confirmation information has been returned can be registered as the optimum relay destination for the communication terminal, and the relay destination in the network including the hidden communication terminal can be appropriately specified. .

[Brief description of the drawings]

FIG. 1 is a diagram showing a wireless network system to which the present invention is applied.

FIG. 2 is a block diagram showing a configuration of each terminal station of the wireless network system.

FIG. 3 is a diagram showing a structure of a data packet transmitted in the wireless network system.

FIG. 4 is a diagram showing a connection form of the wireless network system.

FIG. 5 is a diagram showing an example of specifying an ID in the case of direct transmission.

FIG. 6 is a diagram showing an example of specifying an ID in the case of relay transmission in which one relay is performed.

FIG. 7 is a diagram showing an example of specifying an ID in the case of re-relay transmission in which relay is performed twice.

FIG. 8 shows an ID in the case of re-relay transmission in which relay is performed three times.
It is a figure showing the example of designation of.

FIG. 9: When a source station can designate a plurality of relay destinations,
FIG. 11 is a diagram illustrating an example of specifying an ID when confirming whether or not information relayed at a relay destination is actually specified by a route along the shortest route and transmitted;

FIG. 10 is a diagram illustrating an example of specifying an ID when returning confirmation information of the information transmitted in FIG. 9;

FIG. 11 is a diagram showing an example of specifying an ID when data is transmitted using the transmission path of the confirmation information transmitted in FIG.

FIG. 12 is a flowchart showing a process of transmitting information of each terminal station.

FIG. 13 is a flowchart showing a process of receiving information of each terminal station.

FIG. 14 is a flowchart illustrating a process of specifying a relay destination of each terminal station.

FIG. 15 is a flowchart showing a process of returning confirmation information of each terminal station.

FIG. 16 is a flowchart showing a process of receiving confirmation information of each terminal station.

[Explanation of symbols]

# 1 to # 10 terminal station, 21 interface, 22
Data conversion unit, 23, wireless processing unit, 24 antenna,
25 control device, 26 internal memory

Claims (26)

[Claims] 1. A communication terminal comprising a plurality of communication terminals and serving as a central control station for managing information transmission between the communication terminals, and a hidden communication terminal which cannot communicate directly with the communication terminal serving as the central control station. In a wireless network system including: a communication terminal comprising: a source address specifying a source of information, a destination address specifying a final destination of information, a relay source address specifying a source of information, and information transmission. And a relay destination address for designating the relay destination, and transmitting the information to the communication terminal specified by the relay destination address. 2. The communication terminal according to claim 1, wherein each of the communication terminals designates, as the relay destination address, an address of a communication terminal capable of directly transmitting to itself (a communication terminal capable of direct transmission).
A wireless network system as described. 3. The communication terminal according to claim 2, wherein, if the communication terminal capable of direct transmission is the communication terminal of the final destination, the address of the communication terminal of the final destination is designated as the relay destination address. A wireless network system as described. 4. The communication terminal according to claim 1, wherein the communication terminal capable of direct transmission is capable of direct transmission with the communication terminal of the final destination.
3. The wireless network system according to claim 2, wherein the address of the communication terminal capable of direct transmission is designated as the relay destination address. 5. The communication terminal according to claim 1, wherein the communication terminal serving as the central control station and the communication terminal itself cannot directly transmit, the communication terminal capable of direct transmission cannot directly transmit to the communication terminal of the final destination, and 3. The wireless network system according to claim 2, wherein, if the transmission-capable communication terminal can directly transmit with the communication terminal serving as a central control station, the address of the direct transmission-capable communication terminal is designated as the relay destination address. . 6. The communication terminal according to claim 1, wherein the communication terminal serving as the central control station and the communication terminal itself are capable of direct transmission, and if the communication terminal capable of direct transmission is not capable of direct transmission with the communication terminal of the final destination, 3. The wireless network system according to claim 2, wherein the address of the communication terminal serving as the central control station is designated as the relay destination address. 7. Each communication terminal, if its own address is specified as a relay destination address of the transmitted information and its own address is not specified as a destination address of the transmitted information, The wireless network system according to claim 1, wherein is transmitted to another communication terminal. 8. The communication terminal according to claim 1, wherein each of the communication terminals rewrites a relay destination address designating a relay destination of information transmission and transmits information to the communication terminal specified by the relay destination address. Wireless network system. 9. The communication terminal according to claim 1, wherein each of the communication terminals rewrites the address to a relay source address for designating a relay source of the information, and transmits the information to the communication terminal specified by the relay destination address. 9. The wireless network system according to 8. 10. The wireless network system according to claim 8, wherein each of said communication terminals specifies an address of a communication terminal capable of direct transmission with itself (a communication terminal capable of direct transmission) as said relay destination address. . 11. The communication terminal according to claim 8, wherein, if the communication terminal capable of direct transmission is the communication terminal of the final destination, the address of the communication terminal of the final destination is specified as the relay destination address. A wireless network system as described. 12. Each of the communication terminals specifies the address of the directly transmittable communication terminal as the relay destination address if the directly transmittable communication terminal can directly transmit to the final destination communication terminal. The wireless network system according to claim 8, wherein 13. The communication terminal according to claim 1, wherein the communication terminal itself and the communication terminal serving as the central control station cannot directly transmit, the communication terminal capable of direct transmission cannot directly transmit to the communication terminal of the final destination, and 9. The wireless network system according to claim 8, wherein if the transmittable communication terminal can directly transmit with the communication terminal serving as a central control station, the address of the directly transmittable communication terminal is designated as the relay destination address. . 14. The communication terminal according to claim 1, wherein the communication terminal serving as the central control station and the communication terminal serving as the central control station are capable of directly transmitting, and the communication terminal capable of direct transmission is not capable of direct transmission with the communication terminal of the final destination. 9. The wireless network system according to claim 8, wherein the address of the communication terminal serving as the central control station is designated as the relay destination address. 15. The communication terminal according to claim 1, wherein the communication terminal capable of direct transmission with the communication terminal of the final destination is a communication terminal capable of direct transmission with the communication terminal of the transmission source. 9. The wireless network system according to claim 8, wherein an address of a communication terminal is specified as the relay destination address. 16. Each of the communication terminals described above, if its own address is designated as a destination address of the transmitted information,
The wireless network system according to claim 1, wherein the information is received. 17. Each of the communication terminals receives the information if its own address is specified as the destination address of the transmitted information, and confirms the information with the communication terminal specified as the source address of the received information. The wireless network system according to claim 1, wherein information is transmitted. 18. The wireless network system according to claim 17, wherein each of the communication terminals transmits the confirmation information to a communication terminal specified in a relay source address of the received information. 19. Each of the communication terminals stores a destination address and a relay destination address added to transmitted information in association with each other, and uses the stored relay address when transmitting information thereafter. 2. The wireless network system according to claim 1, wherein a relay destination address to be added to the information is specified. 20. Each of the communication terminals stores a source address and a relay source address added to transmitted information in association with each other, and when transmitting information thereafter, stores the stored relay address. 8. The wireless network system according to claim 7, wherein a relay destination address to be added to the information is designated using the information. 21. Each of the communication terminals stores the source address and the relay source address added to the transmitted confirmation information in association with each other, and when transmitting the information thereafter, stores the stored relay address. 18. The wireless network system according to claim 17, wherein a relay destination address to be added to the information is designated by using the information. 22. A communication terminal comprising a plurality of communication terminals and serving as a central control station for managing information transmission between the communication terminals, and a hidden communication terminal which cannot directly communicate with the communication terminal serving as the central control station. A source address specifying a source of information, a destination address specifying a final destination of information, a relay destination address specifying a relay destination of information transmission, and a relay of information. A communication control method characterized by adding a relay source address specifying a source and transmitting information to a communication terminal specified by the relay destination address. 23. If the own address is specified as the relay destination address of the transmitted information and the own address is not specified as the destination address of the transmitted information,
23. The communication control method according to claim 22, wherein the information is transmitted to another communication terminal. 24. The method according to claim 2, wherein a relay destination address for specifying a relay destination of information transmission is rewritten, and information is transmitted to a communication terminal specified by the relay destination address.
3. The communication control method according to 3. 25. The communication control method according to claim 22, wherein, if the own address is designated as the destination address of the transmitted information, the information is received. 26. If the own address is designated as the destination address of the transmitted information, the information is received, and the confirmation information is transmitted to the communication terminal designated by the source address of the received information. The communication control method according to claim 22, characterized in that: