JP2000244527A - Transmission method, transmitter and lan system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize transmission within prescribed delay time or below, to improve the availability of a communication channel and to prevent transmission efficiency from being deteriorated even in a high traffic state. SOLUTION: In this radio or bus type LAN system consisting of one transmission control station 10 and plural slave stations 40-42, on the basis of transmission demands from the respective slave stations 40-42, the transmission control station 10 allocates transmission time zones to the respective slave stations 40-42. Thus, when a traffic is not crowded, a lot of transmission time zones are allocated to the slave stations so that the use efficiency of the communication channel can be improved, and even in the high traffic state, the transmission time bands are equally allocated to all the slave stations, so that the respective slave stations 40-42 can perform transmission at prescribed intervals without fail.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission method, a transmission apparatus, and a LAN (local area network) system, and more particularly to a transmission method, a transmission apparatus, and a LAN system with high transmission efficiency suitable for a wireless or bus type LAN. is there.

[0002]

2. Description of the Related Art Conventionally, in a wireless or bus type LAN, for example, a well-known CSMA transmission system or TDM is used.
A transmission system was adopted. In the CSMA transmission system, each station monitors the state of a channel or a transmission line, starts transmission when the station is free, detects collision, and performs retransmission when transmission is unsuccessful. The TDMA transmission method is
Either a fixed time slot is assigned to each slave station, or a time slot is assigned according to a transmission request.

[0003]

In the conventional CSMA transmission system as described above, since transmission cannot be performed while another station is transmitting, it is difficult to transmit information within a predetermined delay time, and traffic is also reduced. When the transmission rate increases, there is a problem that the transmission efficiency is rapidly deteriorated due to collision and retransmission. Further, although it is possible to transmit information with a predetermined delay time or less in the fixed allocation TDMA, there is a problem that the transmission efficiency deteriorates with an increase in the number of terminals, and a time slot is set according to a transmission request. In the TDMA to be allocated, there is a problem that transmission cannot be performed until a slot becomes empty. SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art, enabling transmission with a predetermined delay time or less, high use efficiency of a communication channel, and transmission efficiency does not deteriorate even in a high traffic state. A transmission method, a transmission device, and a LAN system are provided.

[0004]

SUMMARY OF THE INVENTION The present invention provides a wireless or bus-type LAN comprising one transmission control station and a plurality of slave stations.
Assuming a system, the transmission control station is characterized in that a transmission time zone is assigned to each slave station based on a transmission request from each slave station.

According to the present invention, when traffic is vacant, a large number of transmission time zones are allocated to a slave station that has issued a transmission request, so that the efficiency of use of a communication channel is improved and a high traffic state is achieved. Also, by allocating the transmission time zone equally to all the slave stations, for example,
Each slave station can always transmit at a predetermined interval, and the transmission delay can be reduced to a predetermined value or less.

[0006]

Embodiments of the present invention will be described below in detail. FIG. 1 is a block diagram showing a configuration of a wireless LAN system to which the present invention is applied. The master station 10 is connected to a plurality of terminals 30 via a bus-type LAN 20 and to a plurality of slave stations 40 to 42 via a wireless transmission path. The plurality of slave stations 40 to 42 are connected to the plurality of terminals 60 via bus-type LANs 50, respectively. The hardware configuration of each of the slave stations 40 to 42 is the same as that of the master station 10, and only the program for controlling transmission differs. Therefore, only the hardware configuration of the master station 10 will be described.

[0007] LAN interface circuit 1 of master station 10
Reference numeral 1 denotes a terminal 6 having an interface function of a signal with a well-known bus-type LAN 20 and connected from a terminal 30 to a slave station.
0 data (LAN packet) is received and output to the transmission buffer 12, and is also transmitted from the terminal 60 connected to the slave station to the terminal 30 and accumulated in the reception buffer 17 (LAN packet). To the terminal 30.

The transmission circuit 13 reads the data stored in the transmission buffer 12, generates a cell by adding a header or an error check code for each predetermined length, and transmits the cell. The modulation method is arbitrary such as QAM, and the band is also arbitrary. Further, a spread spectrum method may be adopted. The transmission signal is transmitted from the antenna 15 via the circulator 14.

The receiving circuit 16 demodulates and decodes a signal received from the antenna 15 via the circulator 14, performs processing such as error correction, restores cell data, and further transmits a format (LAN) that can be transmitted to the LAN 20. ) And output to the reception buffer 17. Further, it has a function of detecting a frame header which is a synchronization signal. The data (LAN packet) stored in the reception buffer 17 is sent to the LAN interface circuit 11 by the LA interface circuit.
It is transmitted to N20. The control circuit 18 includes a CPU, RA
M, ROM storing transmission control program and data
And the like, and controls each circuit in the master station 10.

FIG. 2 is a signal flow diagram showing the order of signals transmitted between a master unit and a slave unit, which are transmission control stations. FIG. 3 is an explanatory diagram showing a format of a signal to be transmitted. In this embodiment, it is assumed that the number of currently connected slave stations is 3, and numbers 1 to 3 are assigned from the master station.

The master station 10 transmits data of the schedule section at the beginning of each transmission cycle (frame). As shown in FIG. 3, the schedule unit includes a frame header including a preamble and a unique synchronization signal indicating the start of the frame,
It consists of start time information and permission time information which are transmission permission time zone information for each slave station. This transmission permission time zone information has a fixed length, and the transmission time position is assumed to correspond to each slave station.

When each slave station detects a synchronizing signal from the received signal, it starts a timer that advances, for example, at every data modulation unit time, and fetches and stores transmission permission time zone information assigned to itself. deep.

The master station 10 transmits a slave station ID (slave station number) as a data header in order to transfer downlink data addressed to each slave station, following the schedule section, and subsequently transmits the slave station ID. Is transmitted by a predetermined amount.
The slave station having no data to be transferred is skipped and transmitted. Flags or delimiters exist at the boundaries of each data.

When the transmission of the master station is completed, the process shifts to the transmission period of the slave station after a predetermined time gap (non-transmission period) for absorbing a variation in transmission or processing delay. Note that a gap is also provided between the transmission timings of the slave stations.

In the slave station 1, when the value of the activated timer becomes equal to the transmission start time t11, the transmission permission time t
The transmission data including the request part and the data part is transmitted only during the period of twelve. Thereafter, the transmissions of the slave stations 2 and 3 are performed in the same manner as the slave station 1 with a gap therebetween. The data section consists only of the data to be transferred. Since the request section has a fixed length, the data length of the data section can be calculated from the transmission permission time designated by the master station. However, the data length of the data section may be added to the request section as needed.

As shown in FIG. 3, the request unit includes an upstream header comprising a preamble and a synchronization code, a slave station ID, a transmission wait data amount and a data attribute or priority stored in the slave station transmission buffer. It is composed of waiting data amount information which is information. The information on the amount of waiting data requested by the requesting unit from the slave station is, for example, the LAN to be transferred.
The packet is transmitted only once when the packet arrives, stored in the master station, and the amount of waiting data is reduced in the master station for each subsequent transfer.

At this time, the amount of data to be transferred from the master station 10 to the slave stations 40 to 42 and the
It is determined according to the amount of data requested to be transmitted from the server 42 and the attributes of the data, for example, whether or not the data is real-time data such as voice, and whether or not the data is priority data such as fault information. For example, if the traffic volume is small and free, a large transmission time is allocated to the transmission request and a large amount of data is transferred at one time. That is, in a system in which three slave stations are connected, there is no downlink data, and LAN packets having the same attributes and priorities are transmitted from the two slave stations 1 and 3 to the terminal connected to the master station as uplink data. If this is done, the downlink signal will be data only for the schedule part,
As uplink data, the slave stations 1 and 3 are composed of a request section and a data section, and the slave station 2 is data of only the request section. Accordingly, the slave stations 1 and 3 have the following maximum transmission time T
Can be assigned.

T = (1/2) * (one frame period-schedule part-
Request part x 3-capacity x 4).

As described above, when the traffic is small, the average transfer speed can be increased. On the other hand, when there is a lot of traffic, for example, even when a plurality of LAN packets to be transmitted to the master station in the slave station 1 arrive, all the transmission requests (LAN packets) are equally or by priority. Since a transmission time can be allocated with a difference, a very short packet can arrive at a partner terminal within a predetermined delay time or less even when traffic is heavy.

When a plurality of LAN packets to be transmitted to the master station arrive at the slave station 1, for example, the transmission time allocated to the slave station 1 is equally allocated to all transmission requests (LAN packets). It is also possible,
Alternatively, all times may be allocated to one transmission request on a first-come-first-served basis, and when the transfer is completed, all times may be allocated to the next transmission request.

While the embodiment of the present invention has been disclosed above, the present invention may have the following modifications. In the embodiment, the method is disclosed in which the request unit allocates the transmission band (time) to the master station every time a data transfer request occurs. For example, the transmission start time and the transmission permission time information are set to 1 for each slave station. After the assignment, the transmission may be repeated in the assigned transmission time zone unless a change instruction is given. In this case, if the above-mentioned transmission start time and transmission permission time information allocation instruction is performed in the downlink data section, or the waiting data amount information is reported in the uplink data section, transmission time zone information and request The waiting data amount information of the unit may be deleted. Alternatively, the master station may measure the traffic volume and determine the transmission time to be assigned to each slave station based on the measurement result.

As the transmission request information, an example of transmitting the amount of data waiting to be transmitted, the attribute, the priority, and the like has been disclosed. However, the transmission request information is not information on the amount of data, but merely with / without data to be transmitted or with transmission. Information on the number of packets to be transmitted may be transmitted. In the embodiment, the example in which the ID of the slave station is added to the request unit is disclosed. However, since it is possible to determine which slave station is transmitting in the transmission order, the slave station ID can be deleted. .

Although an example has been disclosed in which transmission start time information and transmission permission time information are transmitted as transmission permission time zone information, the unit of time information is a minimum modulation section, a time required for 1-byte transfer, or n bytes (n is (Integer of 2 or more) Transfer time or the like may be adopted. In the embodiment, the system that performs communication only between each slave station and the master station is disclosed.However, for example, by adding a header to a data portion transmitted from the slave station, data is directly transmitted from the slave station to another slave station. Can also be transmitted.

In the system shown in FIG. 1, an example in which the master station and the slave station are connected to the terminal via the LAN is disclosed. However, the master station and the slave station are connected to the terminal by means other than the LAN such as one-to-one connection. Alternatively, the master station and the slave stations themselves may have the function of the terminal. In the embodiment, an example in which the present invention is applied to a wireless LAN system has been disclosed. However, the present invention is not limited to wireless, and is applicable to any LAN system that exchanges signals via a common signal line such as a bus type. It is possible.

[0025]

As described above, in the present invention,
Assuming a wireless or bus-type LAN system consisting of one transmission control station and a plurality of slave stations, the transmission control station allocates a transmission time zone to each slave station based on a transmission request from each slave station. However, when traffic is vacant, the use efficiency of the communication channel is improved by allocating a large number of transmission time zones to the slave station that has issued the transmission request, and even in a high traffic state, all the slave stations can be used. For example, by equally allocating the transmission time zones, each slave station can always transmit at a predetermined interval, and the transmission delay can be reduced to a predetermined value or less.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a wireless LAN system to which the present invention has been applied.

FIG. 2 is a signal flow diagram showing an order of signals transmitted between a master unit and a slave unit.

FIG. 3 is an explanatory diagram showing a format of a transmitted signal.

[Explanation of symbols]

10: master station, 11: LAN interface circuit, 12
... transmission buffer, 13 ... transmission circuit, 14 ... circulator, 15 ... antenna, 16 ... reception circuit, 17 ... reception buffer, 18 ... control circuit, 20, 50 ... bus type LAN, 3
0, 60: terminal, 40-42: slave station

[Procedure amendment]

[Submission date] February 17, 2000 (2000.2.1
7)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claims

[Correction method] Change

[Correction contents]

[Claims]

Claims (5)

[Claims] In a LAN system in which one transmission control station communicates with a plurality of slave stations via a common transmission path, the transmission control station sends a request to each slave station based on transmission request information of each slave station. First to determine the transmission permission time zone to be assigned
And a second step of notifying the synchronization signal from the transmission control station to the plurality of slave stations and information about a transmission permission time zone corresponding to each slave station, Transmitting the data to be transferred and the transmission request information in the transmission permission time zone allocated to the own station based on the synchronization signal. 2. The transmission request information is information on an amount of data stored in a transmission buffer of a slave station, and the information on the transmission permitted time zone is information on a time interval from a synchronization signal to the start of transmission, and 2. The transmission method according to claim 1, wherein the information is time interval information from the start of transmission to the end of transmission, and a time zone in which no mobile station transmits is provided between transmission time zones of each mobile station. . 3. Synchronization signal transmitting means for transmitting a synchronization signal to a plurality of slave stations, transmission request information collecting means for collecting transmission request information from each slave station, and transmission request information collected from each slave station. Transmission permission time zone determination means for determining a transmission permission time zone to be assigned to each slave station based on the transmission permission time zone notification means for notifying the plurality of slave stations of information about the transmission permission time zone from the transmission control station. A transmission device comprising: 4. Synchronization signal receiving means for receiving a synchronization signal transmitted from the transmission control station, transmission permission time zone receiving means for receiving information on the transmission permission time zone of the own station transmitted from the transmission control station, A transmission unit for transmitting data to be transferred and transmission request information in a transmission permission time zone allocated to the own station based on the information received by the transmission permission time slot reception means. . 5. Synchronous signal transmitting means for transmitting a synchronous signal to a plurality of slave stations, transmission request information collecting means for collecting transmission request information from each slave station, and transmitting request information collected from each slave station. Transmission permission time zone determining means for determining a transmission permission time zone to be assigned to each slave station based on the transmission permission time zone notification means for notifying the plurality of slave stations of information on the transmission permission time zone from the transmission control station. A transmission control station comprising: a synchronization signal receiving means for receiving a synchronization signal transmitted from the transmission control station; and a transmission permission time zone for receiving information on the transmission permission time zone of the own station transmitted from the transmission control station. Receiving means, and transmitting means for transmitting data to be transferred and transmission request information in a transmission permission time zone assigned to the own station based on the information received by the transmission permission time slot receiving means. LAN including a number of slave stations
system.