JPH01160234A - Information transmission system - Google Patents

Abstract

PURPOSE:To improve the utilizing efficiency of an information transmission line of an information transmission system by transmitting an information packet from an optional communication controller to the information transmission line and allowing all communication controllers connected to the information transmission line to identify whether or not an object of the information packet is to be processed by each communication controller. CONSTITUTION:A communication controller 1 uses a control section 12 to generate an information packet, sends it to an information transmission line 4 and to communication controllers 2, 3. The communication controllers 2, 3 receive a start bit and use respectively a packet transmission reception section 20(30) to start the reception operation. The communication controller 2 receives said two addresses and their parities. A control section 22 in the reception of a master address and a slave address checks whether or not they are coincident with the stored individual address in a memory 21. In case of coincidence, the packet reception processing being the requested processing is applied. A communication controller 3 applies similar operation to that of the communication controller 2 simultaneously. Thus, the one information packet sent from the communication controller 1 is received by the communication controllers 2, 3 simultaneously.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to an information transmission system, and particularly to broadcasting of a communication control method in the system.

2. Description of the Related Art Conventional technologies include, for example, digital data buses (digital data buses) for information communication between audio and video equipment.
D2B: Digital Data Bus) (IEC [84 Secretariat (5ear@tar)
iat ) 47 Draft Peri Television (Dτa
it.

Peritelevision /D2B)J. In the conventional D2B information transmission system, one information packet is sent from one source communication control device connected to an information transmission path to one communication control unit connected to the information transmission path. :1 was used for communication.

FIG. 8 is a block diagram showing an embodiment of a conventional information transmission system. Reference numeral 1 denotes an information transmission path for transmitting information packets, and 2 and 3 denote communication control devices that communicate with each other via the information transmission path. On information transmission path 1, logic ``'1'', logic''
It is transmitted as binary information of "0". When nothing is transmitted, it is equivalent to logic "1".

FIG. 9 shows the structure of a conventional information packet.

Consists of a start bit, a mask address indicating the source address, a sulharity bit in the mask address, a slave address indicating the destination address, a parity bit and an acknowledge bit for the slave address, a control field, a parity bit for the control field, and a data field. has been done. The parity bit is a bit for performing a parity check. The mask bit is a response bit that notifies the transmitting side that the receiving side has received the respective data normally, and returns an affirmative response (0) when the data is received normally, and a negative response (1) when there is a reception error.

A communication method in a system having the above-mentioned components will be explained.

When transmitting an information packet from the communication control device 2 to the communication control device 3 in FIG. The address of the communication control device 3 and the parity bit are sent as the address. There is only one address for the communication control device 3 on the information transmission path 1. When the communication control device 3 detects the start bit, it performs an information packet reception operation and receives the mask address, its parity, the slave address, and its harness. If the reception is successful, check the slave address and if it is addressed to you, send an acknowledgment (0) as an acknowledge bit.
) is sent. On the other hand, if a synchronization error or parity error occurs during reception and normal reception is not possible, a negative response (
1) is sent. Further, the communication control device 3 is connected to the information transmission path 1
Since the acknowledge pit is not sent even when the mask is not connected to the mask, it becomes a logic "1" on the information transmission path 1, which has the same meaning as receiving a negative response (1) on the mask side. The communication control device 2 that received the acknowledge bit responds with a negative response (
1), the packet transmission is stopped. Only when an acknowledgment (0) is received, the communication control device 2 and the communication control device 3 perform 1:1 communication and transmit a control field and a parity pit. Thereafter, as before, the communication control device 3 sends out an acknowledge bit. When the communication control device 2 receives a negative response (1), it stops transmitting the packet, and when it receives a positive response (0), it continues to communicate the data field to the communication control device 3.

Problems to be Solved by the Invention In such conventional communication control methods, when the same information is to be sent to multiple communication control devices, an information packet with the same content must be sent to each of the multiple communication control methods. There wasn't.

The present invention has focused on this problem and aims to provide an information transmission system that can perform an efficient communication control method using a simple method.

Means for Solving the Problems In order to solve the above-mentioned problems, the present invention provides an information package that describes that a plurality of predetermined communication control devices are targeted from any one communication control device. All communication controls connected to the information transmission path receive at least information indicating the target of the information packet, and determine whether or not the target of the information packet is something that they should process. It is for identification.

According to the above-described configuration, when it is desired to transmit information packets with the same content from any communication control device to any number of communication control devices connected to an information transmission path, Since processing can be performed by transmitting only one packet, it is possible to reduce the number of packets transmitted from the communication control device, and the efficiency of using the information transmission path of the information transmission system is improved.

Embodiment FIG. 2 is a block diagram showing an embodiment of the information transmission system of the present invention. Reference numeral 1 denotes a communication control device of the information transmission system of this embodiment, which transmits information packets to the information transmission path 4 and receives the information packets on the information transmission path 4, and a packet transmitting/receiving unit 1゜ which transmits information packets to the information transmission path 4 and receives the information packets. It has a memory 11 that stores the addresses to be used, and a control section 12 that controls them. 2 and 3 are communication control devices having the same configuration as the communication control device 1. 20.30 is a packet transmitting/receiving unit, 2
1.31 is a memory, and 22.32 is a control unit. 1.2
．． Each of the three communication control devices has an address consisting of 12 bits. Figure 1 shows the contents of the address code. The 11th bit b11 indicates the type of circular, and is 1"
'0' indicates an individual (normal) address. The 10th to 8th bits indicate the service code. For example, 'ooo' indicates the gateway, and '001' indicates the address. When audio means self-video.

The 7th bit to the 3rd pit indicate the device name. The table shows the correspondence between audio/video device names and codes.

'ooooo'', '11110' indicates an individual device, and '11111' indicates all audio/video equipment. The second bit to the zeroth bit indicate the device number.

According to the above address bit configuration, the individual address of the communication control device 1 is '1Eo(I(EX)'9) and the individual address of the communication control device 20 is 120(HEX).

30 communication control devices with individual addresses 1Co (HEX).

The structure of the information packet is the same as that of the conventional example shown in FIG.

As in the case of 1:1 communication, the individual address of the communication control device to which the information packet is to be sent is written in the V-spread address of this embodiment, as in the conventional case. In addition, for 1:multiple communication, that is, broadcasting, the broadcast type bit of bll in Figure 1 is set to '1'. There are three types of broadcasts: simultaneous broadcast targeting devices, group broadcast targeting communication control devices specified by service code, and group broadcast targeting communication control devices specified by service code and device name. Yes. 3rd
Figure (a) shows the address code '111 (
HEx)'' in Figure 3) is an address that indicates group broadcasting targeting communication control devices belonging to the same service specified by the service code;
1". In FIG. 3(C), bll is set to "1" and b is an address indicating group broadcasting targeting communication control devices of the same device specified by the service code and device name.
2A-bo 1” Write the code corresponding to the service code and device name.

A communication method in an information transmission system having the above-mentioned components will be explained. The 1:1 communication control method is the same as the conventional method, so a description thereof will be omitted.

Hereinafter, a case will be described in which an information packet is transmitted from the communication control device 1 to all the audio/video devices connected to the information transmission medium 4 including the communication control devices 2 and 3.

First, when the system is started, the communication control devices 1, 2, and 3 each store in the memory 11, 21, and 31 the address to be processed, which is indicated by the slave address of the information packet. '1Eo(
HEX)", - simultaneous address "FFF (HEX)", group - simultaneous address "9FF (HEX)" and "9E? (
HEX)”, and the communication control device 2 uses the individual address @12
o(Hli:X)", -sim address"FFF(HEX)
",Group-Saitovy,"eFF(HEX)"
927(HEX)", the communication control device 3 converts the individual address "IGO(HEX)"-simultaneous address" FFF(
HEX)”, Group-Sai Ato vs”eFF (HEX)
"and 5cy (HEX)" are stored in their respective memories.

Communication control device 1 uses mask address "IEO (HEX)"
, an information packet with a slave address "9FF (HEX)" for all audio and video is created by the control unit 12, and as shown in FIG. The parity is sent to the information transmission path 4 and transmitted to the communication control devices 2 and 3. The communication control devices 2.3 receive the start bit and transmit the packet transmitting/receiving units 20.3, respectively.
The reception operation starts at 30. The communication control device 2 receives a mask address, its parity, a slave address, and its parity via the packet transmitting/receiving section 2o as in the conventional case. If the packet can be received normally, the control unit 22 checks the slave address and determines whether or not to continue receiving the packet. FIG. 6 shows the operation of the control section 22.

When the control unit 22 receives the mask address and slave address as shown in A, it checks whether the slave address "eFF (HEX)" matches the individual address "120 (HEX)" stored in the memory 21 as shown in B. investigate.

Since they do not match, the slave address "9FF (
HEX)” and the simultaneous address “’F” stored in the memory 21.
FF (HEX)". Since this also does not match, move on to processing D and change the slave address "9FF (
Check to see if it matches the group address "927 (HEX)" for the device stored in the memory 21. Since this also does not match, move on to processing E. Group address for the service stored in 21 "9FF (
HEX)". Since they match, perform packet reception processing, which is the process of F. At this time,
No response is made to 80 for the master address and slave address, and the section waits for the ACK time, and this section information transmission line 4 becomes logic "'1". When the communication control device 1 broadcasts the slave address, it does not confirm the ACK response, continues to send out the control field and parity, waits for the ACK period, and sends out the data field. The communication control device 2 performs reception processing F on them. The communication control device 3 also performs the same operations as the communication control device 2 at the same time.

The slave address receives a group-uniform information packet for the service with g″eFF(HEX)″.

As described above, one information packet sent from the communication control device 1 can be received by the communication control devices 2 and 3 at the same time.

For the ACK response, the communication control device that first detects the synchronization bit output from the communication control device 1 and determines that the packet is addressed to itself outputs an acknowledgment (0) on behalf of the communication control device 1. A method may be adopted in which the next data is sent only when a response (0) is received.

Next, other embodiments of the present invention will be described.

One embodiment of the information transmission system is similar to that shown in FIG. FIG. 6 shows the contents of the address code. The 11th bit to the 8th pit indicate a service code.

For example, "oooo" means a gateway, and "oOo1" means audio/video.

The 7th bit to 3rd pit and the 2nd bit to 0th bit are the same device name and device number as in the embodiment of the present invention shown previously. Further, when the 11th bit to the 0th bit are set to 61'', this is an address for simultaneous broadcasting to all communication control devices connected to the information transmission path 4.

The structure of the information packet is the same as that of the conventional example shown in FIG. In the slave address of this embodiment, during 1:1 communication, the individual address of the transmission destination is written as in the conventional example. Also, in the case of 1:many communication, that is, broadcasting, the simultaneous broadcasting address is written. When simultaneous broadcast is written in the slave address, the first 1' byte of the data field indicates the target of the broadcast group. In advance, individual addresses are divided into eight groups, which are called groups 0 to 7. As shown in FIG. 7, when the bit corresponding to each group is 1, it indicates that the group will be broadcast, and when it is 0, it will not be broadcast. In this embodiment, the communication control devices 1.2.3 in FIG. 2 are group 0.

A communication method in an information transmission system having the above-mentioned components will be explained. The 1:1 communication control method is the same as the conventional method, so a description thereof will be omitted. Hereinafter, a case will be described in which an information packet is transmitted from the communication control device 1 to all the audio/video devices connected to the information transmission path 4 including the communication control device 2.3.

First, when the system is started, the communication control devices 1, 2 and 3 respectively store the collective address "'FFF" which is the address to be received and processed indicated in the slave address of the information packet, and each individual address in the memories 11 and 21 and 31, respectively. Remember it.

The communication control device 1 creates an information bucket with the mask address "IEO", the slave address "FFF" indicating the address, and the data field 1 byte o1 indicating the group 0 address in the control section 12, and transmits the information to the packet transmitting/receiving section 10. The start bit, the mask address, its parity, the slave address, and its parity are sent to the information transmission path 4.The communication control device 2.3 receives the start bit and performs a receiving operation in the packet transmitting and receiving sections 20 and 30, respectively. The communication control device 2 receives the mask address, its parity bit, the slave address, and its parity bit via the packet transmitting/receiving unit 20. If the communication control unit 2 receives the mask address, its parity bit, slave address and its parity bit through the packet transmitting/receiving unit 20. ″F
FF" is compared with the address of the packet to be processed stored in the memory 21, and it is determined whether or not to continue the packet reception operation. The address "120" is stored in the memory 21.
and FFF” are stored, and the FF of the slave address
F”, so the communication control device 2 is the same as in the previous embodiment.
continues to receive the information packets transmitted from the communication control device 1, and temporarily stores the contents of the information packets in the memory 21.

When the communication process is completed to the end of the data field, the control unit 12 looks at the first byte of the data field of the previously received information packet stored in the memory and determines whether this packet is addressed to the group to which it belongs. Find out. The first byte of the data field is '01' bO
= 1, that is, the address is group 0, so the control unit 12 performs processing according to the contents of the data field. Communication control device 3 also performs similar processing and receives a packet sent from communication control device 1 requesting processing for group 0.

As described above, one information packet sent from the communication control device 1 can be received by the communication control devices 2 and 3 at the same time.

Effects of the Invention As described above, according to the present invention, it is possible to extremely easily reduce the number of packets sent out on an information transmission path, and improve the efficiency of using the information transmission path of an information transmission system.

[Brief explanation of the drawing]

Figures 1 and 3 are address code configuration diagrams in an information transmission system according to an embodiment of the present invention, Figure 2 is a block diagram of the information transmission system, and Figure 4 is information packets of simultaneous addresses in the information transmission system. FIG. 6 is a flowchart showing the operation of the control unit of the information transmission system, FIG. 6 is an address configuration diagram in the information transmission system according to another embodiment of the present invention, and FIG. 7 is the information transmission system. Configuration diagram of the first 1 byte of the data field in 8th
The figure is a block diagram of a conventional information transmission system, and FIG. 9 is a packet configuration diagram of the conventional information transmission system and the information transmission system of this embodiment. 1.2.3... Communication control device, 4...
Information transmission path, 10, 20. 30...Packet transmission/reception unit, 11° 21. 31... Memory, 12
, 22.32...control unit. Name of agent: Patent attorney Toshio Nakao and one other name
1 Figure 1°Broadcast O: Individual image (through zero) To the area Figure 3 Figure 4 Figure 6 Figure 7 Figure 8

Claims (2)

[Claims] (1) An information transmission path that transmits control information, a communication control section that communicates with each other via the information transmission path, and control that generates, interprets, and processes the control information that is transmitted via the communication control section. at least two communication control devices each having a
When transmitting control information to more than one communication control device, the communication control device transmits one control information packet having a predetermined destination address indicating that the communication control device targets multiple communication control devices. Each of the communication control devices connected to the information transmission path receives up to the destination address of the control information packet, and combines its own pre-assigned address to receive and the destination address of the control information packet. The control information packet is compared to determine whether or not the control information packet should be accepted and processed, and if the control information packet should be processed, the control information packet with the destination address that is subsequently sent is received and processed, and the broadcast notification is sent. An information transmission system characterized by performing the following. (2) An information transmission path that transmits control information, a communication control section that communicates with each other via the information transmission path, and control that generates, interprets, and processes the control information that is transmitted via the communication control section. at least two communication control devices each having a
When transmitting control information to more than one communication control device, the communication control device targets all the communication control devices connected to the information transmission medium to a plurality of predetermined communication control devices. Each of the communication control devices once receives and stores the control information packet, and processes the information using the address assigned to it in advance in the control unit. An information transmission system characterized by receiving a packet, identifying whether to process it, and issuing a broadcast notification.