JPH0388539A - Protocol kind detection system - Google Patents

Abstract

PURPOSE:To establish a communication between a communication device itself and an opposite communication device by automatically detecting which protocol that the communication device itself has a signal sent from the opposite communication device matches from the feature of the bit pattern constituting the sent signal and automatically selecting corresponding protocol processing. CONSTITUTION:A logic signal which is outputted from a receiving means 5 is inputted to plural comparing means (10-1)-(10-4). Specific bit patterns are stored in bit pattern registers (9-1)-(9-4) according to the kind of protocol to be detected and inputted to one-input sides of the comparing means. The comparing means compares the received contents of a signal pattern register and a state control means shifts the state in order according to bit pattern arrival order characteristic to the protocol. When the state control means enters a certain specific state and then it is found that the bit pattern of the received signal matches a bit pattern characteristic to the protocol, so the kind of the protocol can be decided.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides a method for transmitting data sent from the other communication device via the transmission path when the other communication device and the own communication device are connected via the transmission path. The present invention relates to a protocol type detection method in which the own communication device side detects the protocol type of the other communication device from an incoming signal. Of course, it is assumed that the implementation protocol of the other communication device is not limited to a specific protocol, and even in such a case, such a protocol type detection method is necessary to enable communication with the other communication device. Needed.

[Conventional technology]

Conventionally, in order for a communication device such as a communication terminal or a communication node accommodating the terminal to communicate with the other party, it has been necessary that the implementation protocol of the other party's communication device be the same as that of the communication device. Therefore, when you want to connect communication devices with different protocols, such as when you change the terminal or communication system, you must connect them via a terminal adapter that has a protocol conversion function, or replace the protocol control board in the communication device. The following methods have been adopted.

(Problem to be Solved by the Invention) These methods require that when improving or updating the functionality of a communication system or terminal, the communication device must be completely new, a new terminal adapter must be installed or replaced, or all protocols within the communication device must be replaced. The control board needs to be replaced, and terminal adapters and protocol control boards need to be prepared for each type of protocol, which poses major problems in terms of construction and economy. Furthermore, if a terminal adapter or protocol control board with a different protocol type is used by mistake, not only will communication become impossible, but there is also a risk of interfering with the operation of the communication system.

The present invention solves these problems and implements protocol processing that enables communication between communication devices without being restricted by the type of protocol of the other communication device. It is an object of the present invention to provide a protocol type detection method that allows a communication device to detect the protocol type of a communication device from a signal sent from a partner communication device.

[Means to solve the problem]

The protocol type detection method according to the present invention for detecting the protocol type of a communication device includes, in protocol processing of the communication device, a receiving unit that converts a received signal from a communication device input via a transmission path into a logical signal; A bit pattern register that stores a plurality of bit patterns, a comparing unit that successively compares the output of the receiving unit and the contents preset in the bit pattern register, and a comparison unit that determines the arrival order of the bit patterns of the received signal obtained as a result of the comparison. It is equipped with a state management means that sequentially updates the internal state according to the protocol, and a plurality of protocol control means that controls communication with the other communication device for each type of protocol. identifies that the bit patterns that make up arrive in a particular order that corresponds to the protocol,
It is now possible to select one protocol from a plurality of preset protocols and perform protocol processing. As a result, by automatically selecting the appropriate protocol, regardless of the type of protocol of the other communication device,
Communication can be established between the own communication device and the other party communication device.

[Effect]

The present invention automatically detects which of the protocols of the own communication device the type of protocol of the other communication device corresponds to, based on the characteristics of the bit pattern constituting the signal sent from the other communication device. , automatically selects the appropriate protocol processing, and establishes communication with the other party's communication device.

The present invention differs greatly from conventional techniques in that it enables communication between the other party's communication device and its own communication device even if the protocol of the other party's communication device is not a specific protocol.

〔Example〕

The present invention will be described in detail below with reference to the drawings.

Note that the embodiments are merely illustrative, and it goes without saying that various changes and improvements can be made without departing from the spirit of the present invention.

FIG. 1 is a block diagram showing an example of the configuration of a communication device that employs the protocol type detection method according to the present invention.

In the figure, ■ is the other party's communication device, 2 is the transmission path, 3 is the own communication device that adopts the protocol type detection method according to the present invention, 4 is the protocol control unit of the other party's communication device l, 5 is the receiving means, and 6 is the a transmitting means; 7 a protocol type detecting means;
8 is a protocol control unit that controls multiple types of protocols.

FIG. 2 is a block diagram showing details of the own communication device 3 as an embodiment of the present invention. In the figure, 2 is a transmission path, 5 is a receiving means, 6 is a transmitting means, 7 is a protocol type detecting means, and 8 is a protocol control unit that controls a plurality of types of protocols.

(9-1) to (9-4) are Bit Bakun Regis evening, (
10-1) to (10-4) are comparison means, 11 is a state management means, and (12-1) to (12-3) are protocol control means.

FIG. 3 is an explanatory diagram showing an example of a transmission frame format exchanged between communication devices. In the same figure, 13 is protocol A, 14 is protocol B, and 15 is protocol C.
This is the transmission frame of the signal.

Further, p, a, b, and c are bit patterns specific to the protocol.

FIG. 4 is a diagram showing an example of state transition of the state management means in FIG. 2, with I and P circled.

A, B, and C are states, and arrows represent state transitions when the bit pattern of the lowercase alphabet attached to the arrow is detected.

Next, the operation will be explained using FIGS. 1 to 4.

First, the operation of the own communication device 3 will be explained using FIG.

A transmission signal from the other party's communication device 1 enters the receiving means 5 of its own communication device 3 via the transmission path 2. The receiving means 5 shapes the signal waveform subjected to distortion and noise on the transmission path and converts it into a logical signal. This logic signal enters the protocol type detection means 7 and the protocol control section 8, and the protocol type detection means 7 determines the type of protocol from this logic signal and instructs the protocol control section 8 as to the protocol type to be operated.

The protocol control unit 8 uses the instructed protocol to
It communicates with the protocol control section 4 of the other party's communication device 1 via the receiving means 5, the transmitting means 6, and the transmission path 2. By operating in this way, no matter what the protocol of the other party's communication device, the type can be automatically determined and communication can be performed.

Next, an embodiment of the protocol type detection method will be described in detail using FIGS. 2 to 4. The logic signal output from the receiving means 5 enters a plurality of comparing means (101) to (10-4). On the other hand, bit pattern registers (9-1) to (9
-4) stores a specific bit pattern according to the type of protocol to be detected, and uses this as the other input of each comparing means.

For example, transmission frame formats 13 to 15 in Figure 3
When determining the type of three protocols A, B, and C from , register (9-1) has a bit pattern p register (9-2) a register (9-3) register (9-3) b register (
9-4) Accumulate C.

Each comparing means compares two inputs, that is, the received signal and the contents of the pattern register, and passes the result to the state managing means 11. The state management means has a state transition function determined based on the bit pattern arrival order specific to the protocol given in advance, and sequentially transitions the state using the comparison results of each comparison means as input. When the state of the state management means becomes a certain state, it is known that the bit pattern of the received signal matches a bit pattern specific to one of the protocols, so the type of protocol can be determined.

For example, in the transmission frame format shown in Figure 3,
Under the premise that the same bit pattern as p, a, b, and c does not appear in the data part, the protocol type can be determined by the state management means 11 performing the state transition as shown in FIG. It is.

That is, when communicating with a communication device using protocol A, since the transmission frame 13 is received, the state management means 11 transits from the initial state I to the state P by receiving p, and then a A transition is made to state A by receiving . By entering state A, it can be determined that the received signal is of protocol A.

Furthermore, if the other party's communication device is changed to a protocol B communication device after communicating with a protocol A communication device, the transmission frame 14 will be received, and the bit pattern p will be received in the state wAA. P, and then transition to state B by receiving b. Similarly, when communicating with a communication device using protocol C, a transition is made to state C upon reception of transmission frame 15.

In this way, when the status of the status management means becomes A, B, or C, it can be determined that the protocol of the communication partner is protocol A1, protocol B, or protocol C. Based on this determination result, one of the protocol control means (12-1) to (123), for example, if protocol A, the control means (12-1) is
For protocol B, the control means (11-2) and for protocol C, the control means (12-3) are selected and operated. By operating in this way, even if the protocol of the other party's communication device is unknown or not limited to a specific one, communication can be performed automatically in accordance with the other party's protocol.

The above has been explained using an example of a simple transmission frame format that does not include bit patterns p, a, b, c specific to Protocol I Col in the data part.
If the same bit pattern as b and c is included, the input signal after the protocol type is determined is ignored, and the state is changed to return to the initial state each time the reception of one frame is completed. Similarly, protocol types can be detected.

In this way, the number of bit pattern registers, comparison means, and protocol control means can be increased or decreased depending on the type 1 protocol handled by the communication device and the characteristics of its transmission frame format, and the state transition of the state management means can be changed accordingly. It is clear that the communication device can be designed depending on the application area, ranging from a simple configuration compatible with several types of protocols to a device compatible with a large number of protocols.

Furthermore, in the above explanation, the bit pattern register, comparison means, state management means, and protocol control means were used, but some or all of the functions of these means can be performed by software processing by the CPU. It goes without saying that the same operation can be performed by doing the following.

〔Effect of the invention〕

As explained above, according to the present invention, even if the protocol of the other party's communication device is different from that of the own communication device, it is possible to automatically select a protocol that matches the other party's communication device and establish communication. This has the great effect of making it possible to change communication devices such as communication nodes easily and economically, and simplifying communication system maintenance and operation.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a configuration example of a communication device that employs the protocol type detection method according to the present invention, FIG. 2 is a block diagram showing details of the own communication device as an embodiment of the present invention, and FIG. 4 is an explanatory diagram showing an example of a transmission frame format, and FIG. 4 is a state transition diagram of the state management means. Explanation of symbols

Claims (1)

[Claims] 1) When the other party's communication device and the own communication device are connected via a transmission path, the other party's communication device receives a signal sent from the other party's communication device via the transmission path. A protocol type detection method that detects the protocol type of a device includes a receiving means that receives a signal sent from a partner communication device via a transmission path and converts it into a logical signal, and a bit that has a specific bit pattern set in advance. a pattern register; a comparing means for comparing the received signal received by the receiving means with the bit pattern read from the bit pattern register; A state management means for updating the internal state of the device in accordance with whether the device has arrived at the device, and a state management means for controlling the communication with the destination communication device according to the protocol type of the destination communication device. the state management means for identifying the protocol type of the other communication device based on the fact that the state management means has reached a specific state, and selecting one of the protocol control means accordingly. A protocol type detection method characterized by: