JPH0666788B2 - System control method - Google Patents

Description

TECHNICAL FIELD The present invention relates to a simple communication system control system such as a simple and economical home telephone.

(Prior Art) Conventionally, a home telephone, a home bus system, a home, a small-scale business, or a telephone, a security system, or a telecontrol system is to be configured.
In the case of the multi-wiring system (bus connection) as shown in FIGS. A and b, the polling access control system from the main unit 1 is generally used. FIG. 2a is a block diagram of a conventional home telephone system, but in FIG. 2a, the main device (ME) 1, a plurality of extension telephones (KT) 2, security devices 3 and other additional devices are each provided with a single device. Inexpensive information processing means 4 such as a chip microcomputer is used. For example, in the extension telephones 2-1 and 2-2, key input information, hook switch information, etc. are taken in and information processing is performed internally.
In addition to controlling LED lamps, speaker amplifiers, ringers, etc., it also transmits to the main unit 1 as line use request information, receives from the main unit (ME) 1 as line use permission information 7, and controls line state lamps. I was in control. On the other hand, the main unit 1 refers to the information in the memory storing the station line state based on the information from the extension telephone 2, and if the station line 17 is available, transmits the information to the extension telephone 2 to Processing such as extending the line 17 to the extension 11 was performed. An example of the signal format on the control line 11 in this case is shown in FIG. 2b. FIG. 2b is an explanatory diagram of signal waveforms on the general control signal in FIG. 2a. # 1 is information,
It is information on the downlink from the main device 1 to the extension telephone 2-1 and information on the uplink from the extension telephone 2-1 to the main device 1. The downlink information signal includes a synchronization signal 5, address information 6 for designating an extension telephone, and line use permission information 7, and the upstream information signal includes a synchronization signal or a reception completion response signal 8 and telephone key input information. It consists of information 9 of.

(Problems to be Solved by the Invention) In the related art, however, when another telephone or security device is additionally connected, the number of nodes increases, so that the signal to be transmitted is, for example, as shown in FIG. The number of blocks of information # 1, # 2, etc. in a increases, and the access time from the main device increases. Therefore, use a CPU capable of high-speed processing as information processing means, or use a multi-C
It had a drawback that the system could not be operated unless the apparent CPU processing speed was increased by adopting the PU method. That is, in the prior art, as the number of telephones and the number of other additional devices increase, the number of signal blocks increases and, for example, the extension telephone 2 of FIG.
In order for the main unit 1 to respond to the line selection key input of KT ₁ and to grant the line use permission, the line selection information is transmitted from the extension telephone 2 and KT _{1 by} the up signal 9 of block # 1, and the next frame is transmitted. The line use permission information 7 is the CPU 4 of the main device 1
Therefore, one frame period is required to transmit the data. Therefore, when the number of nodes increases, the response time from the main unit increases if the information transmission speed is constant, and the time until the lamp lights up after key input increases, which increases the man-machine interface. It will become impractical. To solve this, it is necessary to increase the processing speed of the CPU of the main unit, extension telephone, etc., increase the transmission speed and make the system response time constant from the viewpoint of the man-machine interface. The CPU of the extension telephone or the main unit must be a high-speed CPU or a multi-CPU configuration that uses multiple CPUs to improve the apparent processing speed,
It has a drawback that it becomes difficult to configure a low-cost system such as home telephones used in homes and small businesses.

It is an object of the present invention to eliminate such drawbacks and provide a simple and economical system control system for a communication system.

(Means for Solving Problems) In order to solve the above problems, the present invention focuses on the following points: i) In a system such as a home telephone used in a home or a small business, the signal information is extended. It is not necessary to constantly transmit between the telephone, main device and other additional devices, ii) It is not necessary to always perform control processing even when information is taken in and processed inside the extension telephone, main device and other additional devices. It is sufficient to control only when there is a change in state, iii) Even if the priority order of the node to be preferentially processed is predetermined in the case where the transmission processing requests of the devices occur at different nodes at the same time. For the reason, the probability of simultaneous occurrence is low, and a slight delay in system response time due to a delay of one or several frames in transmission processing does not hinder practical use from the viewpoint of man-machine interface. Iv) Even if the number of nodes increases, if the response delay time of the system due to collision of transmission processing requests is within a certain range, there is no practical problem in terms of man-machine interface.
As a simple and economical closed area communication system, in a communication system in which a plurality of communication nodes are connected to a bus-like communication line, the signal information from the communication line is received in the communication node and the signal information is sent to the communication line. And an information processing / control function for performing necessary internal information processing / control in the communication node, and a sync signal sending for sending a sync signal to the communication line at a constant cycle. The information processing control function temporally separates a period for transmitting and receiving signal information for mutual communication between nodes and a period for performing information processing / control inside the node, and Information transmission / reception processing is started by receiving the synchronization signal, information required for this period is transmitted and received, and after completion of signal information transmission and reception, internal information processing / control unique to each node is performed. After the end of the unique internal information processing / control, it waits for the reception of the synchronization signal again, and when the synchronization signal is received, the necessary information is transmitted and received again, so that the only information processing function in the communication node Performs transmission / reception of signal information and internal information processing / control necessary in the communication node, and at the start of signal information transmission after receiving the synchronization signal, a time slot is defined in advance, and each communication node is set on the time slot. A communication node that needs to be assigned differently defined codes to send signal information sends a predetermined send request code and at the same time receives send request codes from other nodes on the communication line, If it is the same as the own transmission request code, it is checked if it is the same as the transmission request code.
Judge that there is no transmission request code with a high priority,
A system control system was constructed which was equipped with a logic judgment function for acquiring the right to transmit signal information.

(Operation) Since the present invention is configured as described above, in a simple information communication system such as a home telephone or a home bus system for home use or a small-scale business establishment, a simple one-chip microcomputer such as a one-chip microcomputer built in each node is used. When performing internal information processing / control unique to a communication node and transmitting / receiving information signals in each node using information processing means, the transmitting / receiving period of each node and the internal processing period are separated, and the system uses a synchronization signal. Set the transmission and reception start timing, and perform simple collision control for each bit according to the cycle,
Only one node can send.

Embodiment An embodiment of the present invention will be described with reference to the drawings. FIG. 1a is a block diagram of an embodiment of the present invention, FIG. 1b is an explanatory diagram of signal waveforms on the control signal of FIG. 1a, and FIG. 1c is a synchronization signal and collision control period of FIG. 1b. FIG. 3 is a waveform explanatory diagram of an ID signal in FIG.

1 is a main unit (ME), 2 is an extension telephone, and the extension telephone 2
Are denoted as 2-1, 2-2 ... Reference numeral 4 is an information processing means (CPU), 14 is a receiving circuit, and 15 is a transmitting circuit, which is a main unit (ME) 1 and a telephone 2.
It is built in. Reference numeral 10 is a system synchronization signal generating means, 11 is a control signal line, and 17 is a local line. The office line 17 is connected to the main unit (ME) 1, and the telephone set 2 forming a plurality of communication nodes is connected to the control signal line 11 from the main unit (ME) 1 to the system synchronization signal generating means 10. It constitutes a communication system.

The operation of the communication system of the above embodiment will be described. In FIG. 1A, the system synchronization signal generating means 10 periodically transmits the synchronization signal shown in FIG. 1B on the control signal line 11. FIG. 1b shows the arrangement of the signal waveforms on the control signal, where 12 is a synchronizing signal, 13 is ID information, 16 is necessary information, and 18 is a frame. The function of periodically transmitting the synchronizing signal may be connected to the control signal line 11 as an independent device as shown in FIG. 1a, or may be built in the main device 1, the extension telephone 2, and a security device (not shown). CPU 4
May be realized with.

When the synchronization signal 12 is received by each node, the node having the transmission request sends out the ID information 13 of the self-identification information which is predetermined for each node. This ID information 13 can also be used as information for identifying the source of the node that has issued the information transmission request.

On the other hand, in a conventional LAN (local area network), etc., transmission requests are generated at random without using the system synchronization signal. Therefore, even if transmission requests are generated at the same time, transmission is strictly performed at any time. It is unknown whether the request signals collide. Therefore, while one node is transmitting information, another node may start transmission, and the information processing means in the node must constantly monitor the collision with the transmission request from another node. Information processing means 4
It is difficult to use the same one as.

On the other hand, in the present invention, the system synchronization signal 12 is used, and after receiving the synchronization signal 12, only the node having the transmission request receives the ID information 13 in the predetermined time slot.
Is sent, the collision control becomes very simple.

These states will be described with reference to FIG. First, when the synchronization signal 12 from the synchronization signal transmitting means 10 is received by each node, the nodes # 5 and # 3, which simultaneously generate the transmission request, are transmitted.
Nodes on their own time slots on predetermined time slots.
The transmission of the D information 13, for example, (1010) in FIG. 1C (A) and (1100) in FIG. 1C (B) is started. However,
In the explanation, unipolar, RZ (return to zero),
And any other signal system may be used as long as the signal can be logically determined at the physical level such as voltage or current. The same ID information is not used in the system. On the other hand, the receiving circuit 14 of each node first receives the signal of the time slot t ₁ . At this time, the receiving circuits 14 of the nodes # 3 and # 5 receive the same signal as the signal sent from the own transmitting circuit 15, and each node cannot determine whether or not there is a transmission request from another node. Now it becomes the time slot t _2, the node # 3 transmits the transmission request signal in the same manner as the time slot t _1. At this time, since the signal "1" is received to not send the node # 5 in time slot t ₂ transmission request signal in, it can be determined that the transmission request from another node is present. Therefore, in the subsequent time slots, the transmission of the ID signal for the transmission request is stopped, and the transmission of the ID information for the transmission request is stopped until the next synchronization signal is received.

On the other hand, whereby the node # 3 until the time slot t ₂ will have acquired the transmission right. In this way, the younger node number wins each time a collision occurs in each time slot, so multiple nodes transmit within the same frame (one frame between one sync signal and the next sync signal). When there is a request, the node with the smaller number of transmission requests, that is, the node to which a higher priority number is assigned acquires the transmission right, and acquires the transmission right in the transmission period following the collision control period 13, Required information 16
To send.

As shown in FIG. 5, the node that has acquired the transmission right designates the destination node (16-) after the collision control period (t _{1 to} t ₄ ).
1), information type (16-2), data (16-3), etc.
Information will be sent to other nodes.

After receiving the synchronization signal, the node thus requesting transmission transmits ID information during the collision control period to perform contention control, and transmits signal information when the transmission right is acquired. The node that loses the contention control sends the ID information again in the next frame, and acquires the transmission right if there is no collision with other nodes. In a home telephone, it is possible to assign a young node number (for example, 1) to the main device, and the synchronization signal 12 can be transmitted from a specific node. For example, the synchronization signal is generated to the node having the highest priority in the system, that is, the main device. It is also possible to have a function.

By using the synchronization signal in this way, it is easy to detect the collision of transmission requests from each node and to control the contention, and the contention processing can be executed by a simple algorithm, so it can be realized by a simple control means such as a one-chip microcomputer. is there.

On the other hand, in a simple communication system, the node is equipped with only one simple one-chip microcomputer, and this CPU handles all of the lamp control in the node, the communication path switch control, the amplifier circuit control and the key input information acquisition. It controls and processes. However, in order to execute these information processing control and the above-mentioned transmission / reception processing at the same time, a processing speed that is much higher than the signal speed and a memory and control structure that can interrupt one processing and execute another processing are provided. is necessary. It is difficult to perform such two types of information processing with different characteristics in real time by a simple information processing means such as a one-chip microcomputer. Two information processing control means are required.

However, as shown in FIG.
After receiving 2, the information is transmitted and received including the collision control, the communication process is preferentially executed within this period, and when the signal transmission and reception is completed, it is no longer until the next synchronization signal is received. Since there is no signal on the transmission path, the information processing means of each node performs internal processing / control.

On the other hand, for example, if the frame period 18 until the next synchronization signal arrives is set to, for example, 100 msec or less, the delay of the response seen from the man-machine interface accompanying the transmission and reception of information between the nodes is so small that it is not noticeable. can do.

(Effects of the Invention) As described above, according to the present invention, in a simple information communication system, a simple internal information processing / control means such as a one-chip microcomputer built in each node is used to provide an internal structure unique to the communication node. When performing information processing / control and transmission / reception processing of information signals in each node, the transmission / reception period of each node is separated from the internal processing period, and the system sets the transmission / reception start timing using the synchronization signal. Moreover, since the simple collision control for each bit is performed by the synchronization and one node can always transmit, the throughput is improved, and if the traffic is low, the system response time is seen from the man-machine interface even if the number of nodes increases. There is an advantage that the system can be constructed without increasing the value.

[Brief description of drawings]

FIG. 1a is a block diagram of an embodiment of the present invention, and FIG.
FIG. 1A is a diagram for explaining the signal waveform on the control signal of FIG. A, FIG. 1C is a diagram for explaining the waveform of the synchronization signal of FIG. 1B and the ID signal in the collision control period, and FIG. 2A is a configuration diagram of a conventional home telephone system. FIG. 2b is an explanatory diagram of signal waveforms on the general control signal in FIG. 2a. 1 ... Main device, 2,2-1,2-2 ... 2-n ... Internal telephone, 4 ... Information processing means (CPU), 5 ... Synchronization signal, 6
...... Address information that specifies the extension telephone, 7 ...... Line use permission information, 8 ...... Synchronization signal or reception completion response signal,
9 ... Information such as telephone key input information, 10 ... System synchronizing signal generating means, 11 ... Control signal line, 12 ...
Sync signal, 13 ... ID information (collision control period), 14 ...
... reception circuit, 15 ... transmission circuit, 16 ... required information (transmission period), 18 ... frame.

Claims (1)

[Claims] 1. In a communication system in which a plurality of communication nodes are connected to a bus-shaped communication line, signal information from the communication line is received in the communication node, and signal information is transmitted to the communication line. The communication node is provided with one information processing / control function that performs necessary internal information processing / control, and a synchronization signal transmission function that is connected to the communication line and transmits a synchronization signal to the communication line at a constant cycle, The information processing / control function temporally separates a period for transmitting and receiving signal information for mutual communication between nodes and a period for performing information processing / control inside the node to perform transmission / reception processing of signal information. Starts by receiving the synchronization signal, transmits and receives information necessary for this period, and after completion of transmission and reception of signal information, performs unique internal information processing / control in each node, Internal information processing After the control is completed, it waits for the reception of the synchronization signal again, and when the synchronization signal is received, the necessary information is transmitted and received again, so that the transmission and reception of the signal information and the communication node are performed by the only information processing function in the communication node. In addition to performing necessary internal information processing and control, a time slot is defined in advance at the start of signal information transmission after receiving the synchronization signal, and a code determined so as to be different for each communication node on the time slot. Allocation, the communication node that needs to send signal information sends a predetermined transmission request code and at the same time receives a transmission request code from another node on the communication line, and collates with its own transmission request code, If it is the same as the own transmission request code,
Judge that there is no transmission request code with a high priority,
System control method characterized by having a logic decision function for acquiring the right to transmit signal information