SU1202066A1 - Device for controlling local data transmission network - Google Patents

Abstract

DEVICE FOR. CONTROL OF A LOCAL DATA TRANSMISSION NETWORK containing a transmission mode control unit, an information exchange unit, a call counter and after a; ovatively connected information storage unit, an information processing unit and a control command generator, characterized in that in order to increase the data transfer rate and channel utilization factor , a channel access control block, a packet length command decoder, a channel access method command decoder, a channel access intensity command decoder are entered into it. lu, transmission mode command decoder, a counter of packets and request command decoder having an input packet and inputs of the counter and connected to the call counter vkodami information exchange unit to vho-. The ladders of which are connected to the outputs of the transmission mode control unit, the input of which is connected to the output of the decoder of the transmission mode command, the channel access mode control unit,; the first input of which is connected to the output of the channel access mode command decoder, and the output of the packet length command decoder, the input of which is connected to the decoder co input (channel access method decoder input, the output of which is connected to the second) the input of the control unit of the channel access mode, with the decoder input of the command of the transfer mode tN5 and with the output of the control command O, the inputs of the information storage device are connected with the outputs of the call counter, ka packet, and decoder command od od od query.

Description

The invention relates to data transmissions and may find application in local network management with packet switching using high-speed transmission channels. The aim of the invention is to increase the data rate and channel utilization. FIG. 1 shows a structural electrical circuit of the device; in fig. 2 is a structural electrical circuit for information exchange; in fig. 3 is a structural electrical circuit of a control unit for accessing the channel to the channel; in fig. 4 - structures on the electrical circuit of the transmission mode control unit. The device for controlling the local data transmission network comprises an information storage 1, an information processing unit 2, a control command generator 3, a decoder A of a packet length command, an information exchange unit 5, a channel access method decoder 6, a channel access mode control unit 7, the decoder 8 commands the intensity of access to the channel, the decoder command transfer mode, unit 10 controls the transfer mode, the call counter 11, the packet counter 12 and the decoder 13 request commands, and the information exchange unit 5 contains the receiver 14, the transmitter 15, the request control command generator 16 and the decoding unit 17, the channel access mode control unit 7 comprises a pseudo-random sequence generator 18. frequency divider 19 with variable: division factor, generator: 20 clock frequencies, distributor: 21 time division cycles, ele. The elements 22-24 and the element OR 25, and the transmission mode control block 10 comprises a decision feedback control command generator 26, an information feedback control command generator 27, a decision feedback loop distributor 28, a information feedback loop distributor 29 z and the element OR 30. The device operates as follows. The information exchange unit 5 has inputs and outputs that are simultaneously inputs and outputs of the device designed to receive information66 from other transport stations, transfer subscriber information (information packets) to other transport stations, receive messages from subscriber devices and issue messages to the subscriber device connected to this station. . . . The drive 1 information is made in the form of a storage device. The information processing unit 2 is designed to calculate the values of tg. I and 5 | n and decide on the required mode of operation of the network. The decision is made; by a criterion whose components are toi (delay) and 5l ,, (channel utilization factor). According to the allowed values of i, one of the possible modes of operation is selected. The implementation of information storage 1 and information processing unit 2 is carried out on the basis of a minicomputer processor or on a specialized parallel processor (functional processor). The control command generator 3 is designed to encode the operation modes according to the results of the calculations —fca (delay) and 3a (channel utilization factor) and decisions made in block 2 of information processing. The control command is transmitted by a serial code. The decoder 4 of the packet length instruction decrypts that portion of the control command where the packet length is indicated, and the outputs of the decoder 4 packet lengths are set to the position corresponding to the length of the information packet for this mode of operation (512 or 1024 bytes). The decoder 6 of the channel access method command decrypts that part of the control command, where the channel access method, time division or free access is indicated. The outputs of the decoder are set to correspond to one of the access methods. The decoder 8 of the channel access intensity command performs the decoding of that part of the control command, where the probability of access to the channel is indicated when the device is in free access mode. The decoder 9 of the transfer mode command decrypts that part of the command, where the protocol is specified over which information will be exchanged (informational or decisive feedback). The transmission mode control unit 10 is designed to set the transmission mode with informational or decision feedback. The mode is set according to a signal from the decoder 9 of the transmission mode command 9. The mode control block 7 is intended to set the channel access mode, i.e., time division mode, when each station has a time interval for operation, or free access mode, when the stations are in contact at random times. The information exchange unit 5 is intended for transmitting messages converted into frames and receiving frames followed by their subscriber. When superimposing code sequences transmitted by different stations in the free access mode, the information exchange unit 5 generates request control commands for retransmission. The information exchange unit 5 is in communication with similar devices of other stations and a device for forming packets from messages. The information exchange unit 5 operates in two modes. In decision-feedback mode, the analysis of the fidelity of information transmission is performed by decoding the error-correcting cyclic code in the decoding unit 1. When packages from different stations (in the free access mode) are applied, the decoding unit 17 generates a request command in the request control command generator 16. In the information feedback mode in the decoder unit of block 17, the comparison of the transmitted and received same code sequence is realized. When overlaying another station (free access mode), the received sequence does not match the transmitted one. In this case, the decoders unit 17 generates a Request command indicating the retransmission of the packet. The operation of the receiver 14, the transmitter 15 and the decoding unit 17 is controlled by the transfer mode control unit 10, which provides one of two 64 transmission protocols with information or decision feedback. The call counter 11 is designed to determine the number of calls arriving at the transport station and determine the number of calls in directions. The packet counter 12 is designed to determine the number of packets in the buffer store at the time of measurement. The decoder 13 of the request command is intended to determine the request command formed in the information exchange unit 5, i.e. determine if the packet is true. A device for controlling a local data transmission network is located on transport stations on control stations. Stations can operate in two main modes: transmission of service information, transmission of subscriber information. The first mode includes: collecting statistics on the status of transport stations; deciding which of the possible sets of parameters (packet length, access, access intensity, protocol, information or decision feedback) should be established; transfer of control command to transport stations; Setting the required set of parameters at transport stations. In the second mode, after setting the parameters of the transport station, the subscriber information is transmitted. In the service information transfer mode} L1 from the call counter 11, the packet counter 12, the request command decoder 13, the information is transmitted to the storage device 1 for control, and from there to the information processing unit 2, where the utilization rate of the channel and the delay for the given number of calls are calculated , queue length and number of retransmissions for all possible parameters. , From the calculated channel utilization factors and delays, the information processing unit 2 selects a value that satisfies the specified constraints. From the channel utilization factor and delay values, the parameters that should be set at the transport stations are determined. The parameter information is encoded in the shaper 3 control commands and transmitted to all transport stations. At transport stations, the decoders 4, 6, 8 and 9, 1 of the command are determined from the control command, what packet length, access method and access rate, the transmission protocol should be set in the information exchange unit 5 by means of the channel access mode control unit 7 and unit 10 no mode of transmission. In the mode of transmitting information of the subscriber, information from the subscriber belonging to this station is sent to information exchange unit 5, and then to other transport stations. Incoming packets from other transport stations arrive at block 5 of information interchange and to the subscriber. Thus, the device sets the modes that are close to the optimal delay criteria (to and the channel utilization ratio at the same time), changing the local network parameters at two levels: the access method (free access, time division) and free intensity. access, data transfer protocol 66 6.: information transfer protocol, information packet length. Channel provision is carried out randomly using the channel access control block 7. The control parameters in the device are: ion frame (packet), access method (free access to a channel resource or time division), access intensity, i.e., channel access partial for subscribers with free access, transfer protocol (with information or decision feedback). parameters at the same time taking into account the channel utilization rate or the speed of information transfer in the channel. The network status is collected at transport stations, processed at the assigned station with distribution to Mende control all transport stations. vedets based management information analyzing intensity inbound load distribution between its subscribers directionally length, number of conflicts on the directions of the transmission in the free access mode. Service information is transmitted from transport stations to dedicated time slots, i.e. Information networks are used as the control subnetwork.

Claims (1)

DEVICE FOR. CONTROL OF A LOCAL DATA TRANSMISSION NETWORK, comprising a transmission mode control unit, an information exchange unit, a call counter and sequentially connected information storage unit, an information processing unit and a control command generator, characterized in that, in order to increase the data transfer rate and the channel utilization coefficient, into it a channel access control control unit, a packet length command decoder, a channel access method command decoder, a channel access intensity command decoder, are introduced a transmitter of the transmission mode command, a packet counter and a request command decoder, the input of which and the inputs of the packet counter and call counter are connected to the outputs of the information exchange unit, the inputs of which are connected to the outputs of the transmission mode control unit, the input of which is connected to the output of the transmission mode command decoder, control unit channel access mode,; the first input of which is connected to the output of the channel access mode command decoder, and the packet length command decoder output ·, the input of which is connected to the input of the channel access method command decoder, with the input of the channel access intensity decoder command, the output of which is connected to the second the input of the control channel access mode control unit, 5 with the input of the transmit mode command decoder and with the output of the control command generator, while the inputs of the information storage device are connected to the outputs of the call counter, packet counter, and request command decoder. >