JPH0746261A - Dynamic communication line characteristic detector - Google Patents

Abstract

PURPOSE:To suppressive dynamically the characteristic of a communication line without measurement of signal intensity by collecting the presence of errors through weighting for each transmission origin based on reception history recording and calculating the characteristic of the communication line. CONSTITUTION:A packet reception error history recorder 34 records a transmission origin and a destination detected by an address detector 33, a reception time by time information generated by a clock device 35, and presence of errors detected with a packet error detector 32 by using redundancy of the packet as to the packet received by a packet receiver 31. A communication path characteristic evaluation function calculation device 36 calculates a characteristic evaluation function of a communication line 30 by using a predetermined evaluation function based on data recorded by the recorder 34. Thus, the characteristic of the communication line between a concerned station and other station is monitored dynamically without measurement of the signal intensity.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to an LA as shown in FIG.
The present invention relates to a dynamic channel characteristic detecting device for detecting the characteristic of a channel shared by a plurality of terminals such as N and mobile communication as shown in FIG. 2. In particular, the error characteristic of the channel changes with time. However, the present invention relates to a dynamic channel characteristic detection device capable of dynamically monitoring a channel error.

2. Description of the Related Art Conventionally, as a dynamic channel characteristic detecting device capable of detecting the characteristic of a channel, (a) the characteristic of the channel is detected by monitoring the physical strength of a transmitted signal. And (b) a method of detecting a characteristic of a communication path together with a frame check sequence error, an inter-flag prescribed pit number error, and time information (see Japanese Patent Laid-Open No. 4-47820). There is.

The above-mentioned (a) is used, for example, to detect movement of a mobile station in a car telephone (cellular telephone).

[0003]

However, in the conventional example (a), in addition to identifying the transmission source of the received signal, it is necessary to measure the signal strength of the received signal. Then, there is a drawback that dedicated hardware is required for measuring the signal strength.

Further, the above-mentioned conventional example (b) is limited in application to a protocol based on flag synchronization, and since it is intended for communication with an adjacent station, the characteristics of one link with the communication partner station on the link are It has the drawback of limited application to detection.

Therefore, an object of the present invention is to dynamically monitor the characteristics of a communication path between a local station and another station in a many-to-many communication path such as a LAN without measuring the signal strength. An object of the present invention is to provide a dynamic channel characteristic detecting device that can perform such a function.

[0006]

In order to achieve the above object, the dynamic channel characteristic detecting device according to the invention of claim 1 shares a channel whose error characteristic changes with time among a plurality of terminals. In the dynamic channel characteristic detection / transmission provided in the terminal of the network, the receiving side terminal receiving the packet transmitted from the transmitting means of the terminal can detect whether or not a transmission error occurs in the packet. , Redundant data adding means for including redundant data in the packet, packet reproducing means for receiving a signal on a communication path and reproducing the packet from the received signal, and error detection for detecting the presence or absence of an error in the received packet. Means, source detecting means for detecting the source of the received packet, and destination identifying means for identifying whether the destination of the received packet is its own station, another station, or broadcast A reception time information generating means for generating time information indicating the time when the packet is received, presence or absence of an error in the packet detected by the error detecting device, a destination identified by the destination identifying means, and the reception time information generating means. Recording means for recording the generated time information, and receiving time information from the recording means, and deriving an elapsed time since the packet was received based on the time when the time information was received and the time information, Further, receiving the destination identified by the destination identifying means from the recording means, and receiving the packet error presence / absence information from the error detecting means, the sender based on the elapsed time, the destination and the packet error presence / absence information. And a communication path characteristic calculation means for calculating the characteristics of the communication path to the terminal of the transmission source by weighting and summing the presence or absence of errors for each ing.

The invention described in claim 2 is the same as claim 1
The dynamic channel characteristic detecting device described in (1) is characterized by including a channel characteristic transmitting means for transmitting the calculated channel characteristic to the channel.

The invention according to claim 3 further comprises a communication path selecting means for selecting one of a plurality of communication paths existing between a predetermined terminal and the terminal based on the calculated characteristics of the communication path. It is characterized by having.

[0009]

According to the first aspect of the present invention, the redundant data adding means is provided, and the redundant data adding means determines whether the receiving side terminal receiving the packet transmitted from the transmitting means has a transmission error in the packet. Redundant data is included in the packet so that it can be detected whether or not it is.

On the other hand, the packet reproducing means receives a signal on the communication path and reproduces a packet from the received signal.
Then, the error detecting means detects whether or not there is an error in the received packet. Then, the transmission source detection means detects the transmission source of the received packet. Then, the destination identifying means identifies whether the destination of the received packet is its own station, another station, or broadcast. Then, the reception time information generating means generates time information indicating the time when the packet is received. The recording means records the presence or absence of an error in the packet detected by the error detecting device, the destination identified by the destination identifying means, and the time information generated by the reception time information generating means. The communication path characteristic calculation means receives the time information from the recording means, derives the elapsed time since the packet was received based on the time when the time information was received and the time information, and Receiving the destination identified by the destination identifying means from the recording means, and receiving the packet error presence / absence information from the error detecting means, based on the elapsed time, the destination, and the packet error presence / absence information, for each sender. The characteristics of the communication path leading to the transmission source terminal are calculated by weighting and summing up the presence or absence of errors.

Since the packet transmitted from the terminal is affected by noise characterized by the transmitting means and the receiving means of the terminal and the time in the communication path, the packet received by the receiving means generally contains an error. According to the present invention, by calculating the characteristics of the communication channel, it is possible to evaluate the error that occurs in the packet transmitted on the communication channel.

Further, according to the above invention, when calculating the characteristics of the communication path, the weighting for error occurrence, the weighting for the elapsed time after reception, and the weighting for whether or not it is addressed to the own station are flexibly determined. Is possible.

According to the second aspect of the present invention, since the communication channel characteristic transmitting means for transmitting the calculated characteristic of the communication channel to the communication channel is provided, other terminals are notified of the characteristic of the communication channel. .

According to a third aspect of the present invention, a communication path selecting means for selecting one of the plurality of communication paths existing with a predetermined terminal based on the calculated characteristics of the communication path. Therefore, the optimum communication path is selected and used according to the characteristics of the communication path.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The dynamic channel characteristic detecting device of the present invention will be described in detail below with reference to the illustrated embodiments. FIG. 3 shows the configuration of a receiver provided in an embodiment of the dynamic channel characteristic detecting device of the present invention. The packet receiving device 31 is a device that receives a signal flowing through the communication path 30 shared by a plurality of terminals and converts the signal into packet format data, that is, a packet.

The packet error detecting device 32 is a device for determining whether or not there is an error in the packet by referring to the redundant data included in the packet received through the packet receiving device 31. Further, the packet error detection device 32 corrects the error of the packet if possible.

The address detection device 33 detects the source of the packet by referring to the address information contained in the packet. Further, the address detection device 33 identifies the destination classification (addressed to itself / addressed to other station / broadcast) of the packet. That is, the address detecting device 33 refers to the address information included in the packet to determine whether the packet is addressed to the own station, another station, or all stations including the own station and other stations. It is designed to identify whether or not

Further, if the packet is a packet addressed to itself, the address detection device 33 notifies the host device 37 of the packet.

The time device 35 is adapted to autonomously generate time information.

The packet reception error history recording device 34 determines the source and destination of the received packet.
It is a device that records (address to own station / address to other station / broadcast), reception time, and presence / absence of error. Communication channel characteristic evaluation function calculation device 36
Calculates the characteristic evaluation function value of the communication path using a predetermined evaluation function based on the data recorded by the packet reception error history recording device 34. The evaluation function is determined in advance by the communication path 30 or set by the communication path characteristic monitoring device 38.

The dynamic channel characteristic detecting device of this embodiment is provided with a transmitting device, and the transmitting device is such that the receiving side terminal receiving the packet transmitted from the transmitting device has a transmission error in the packet. A redundant data addition device (not shown) for including redundant data (frame check sequence) in the packet is included so that whether or not the packet has occurred can be detected. Since this redundant data adding device is normally equipped as standard equipment in a general packet communication device, a detailed description thereof will be omitted.

Next, the operation of the above embodiment will be described. In the initial state, the recorded contents of the packet reception error history recording device 34 are cleared (erased). Then, the recorded contents of the packet reception error history recording device 34 are the following (i) to
It is updated in real time by the processing described in (iii).

(I) The signal flowing through the shared communication path 30 shared by a plurality of terminals is received by the packet reception device 31, converted into packet format data, that is, a packet, and then transmitted to the packet error detection device 32. Passed.

(Ii) The packet error detector 32 determines the presence / absence of an error in the packet by utilizing the redundancy of the received packet. Then, the packet error detection device 3
2 passes the received packet and the error presence / absence determination result to the address detection device 33.

(Iii) The address detection device 33 refers to the address information included in the packet, and when the packet is a packet that the local station should receive, notifies the host device 37 of the packet. . Further, the address detection device 33 extracts the source address from the packet and determines the destination classification of the address. Then, the address detection device 33 outputs the information on the presence or absence of an error notified from the packet error detection device 32 to the packet reception error history recording device 34. at the same time,
In the packet reception error history recording device 34, the time device 3
The time information obtained from 5 is input, and this time information is
It is stored in the packet reception error history recording device 34 together with the error presence / absence information.

An example of the recording system of the reception history recorded by the packet reception error history recording device 34 is shown in FIG. In the example shown in FIG. 4, instead of the reception result of each packet,
At a reception time K1 representing a specific time width, a specific transmission source K2
Then, the destination category K3 to which the packet has been transmitted is classified, and the total number of received packets K4 and the number of error detection packets K5 are accumulated.

When the channel characteristic monitor 38 requests the channel characteristic, the channel characteristic evaluation function calculator 36 determines the channel 30 based on the data stored in the packet reception error history recorder 34. Calculate the characteristic evaluation function value,
The calculated characteristic evaluation function value is returned to the characteristic monitoring device 38.

Now, with reference to FIGS. 5 and 6 and 7, a process in which the evaluation function calculation device 36 calculates a characteristic evaluation function value will be described. As shown in FIG. 5, the receiving device of the terminal C receives the packet transmitted by the transmitting device of the terminal B,
Consider a case where the characteristics of the communication path from the terminal B to the terminal C are detected. In FIG. 5, the solid line represents a packet destined to the terminal C, and the broken line represents a packet destined to an unspecified terminal not limited to the terminal C.

In the terminal C, when the packet reception error history recording device 34 acquires the reception history record as shown in FIG. 6, the evaluation function calculation device 36 uses the calculation method shown in FIG. Calculate the characteristic evaluation function value.

In this example, as shown in FIG.
However, of the total number of received packets of 20 received by the terminal B of the transmission source to the own station within 1 second, 4
15 packets out of the total 30 received packets in which the terminal C intercepted the packet transmitted from the terminal B of the transmission source to the other station within 1 second before the error. Including an error, the terminal C received the packet transmitted from the terminal B of the transmission source to the broadcast from 2 seconds before to 1 second before, and out of the total number of 10 received packets, one packet is erroneous. Is included. At this time, as shown in FIG. 7, the evaluation function calculation device 36 sets 2 for the error detection packet number 4 for the packet addressed to the own station, and sets the elapsed time (0 second).
A weighting calculation is performed by multiplying the number of packets 4 by the value 2 ⁰ = 1 that is a power of only and the value 1 corresponding to the own station, and the value 4 × 1 × 1 = 4 is calculated. Also,
For the number of error detection packets 15 for packets addressed to another station, 2 ⁰ = 1 and a value of 0.1 corresponding to another station,
A weighting calculation is performed by multiplying the number of packets by 15, and a value of 15 × 1 × 0.1 = 1.5 is calculated. In addition, for the number of error detection packets of 1 for the broadcast packet, a weighting calculation is performed by multiplying the number of packets 1 by 2 ⁻¹ = 0.5 and the value 0.3 corresponding to the broadcast. Perform 1 × 0.5 × 0.3 = 0.1
Calculate 5. Then, the weighted calculated values 4 and 1.
5 and 0.15 are added to calculate the characteristic evaluation function value 5.65 of the communication path from the terminal B to the terminal C.

Therefore, in this embodiment, it is possible to dynamically monitor the characteristics of the communication path between the own station and another station without measuring the signal strength. Thus, for example, in FIG.
As shown in FIG. 5, since the dynamic characteristic of the communication path 100 between the terminals 91 and 92 can be monitored, the terminal 92 can block the communication path due to the movement of the terminal 92 and can reduce the transmission output of the terminal 91. A drop can be detected.

In the above embodiment, when the terminal is provided with the communication channel characteristic transmitter A1 for transmitting the calculated characteristic of the communication channel 30 to the communication channel, as shown in FIG. A can notify other terminals B, C, and D of the characteristics of the communication path. Therefore, the terminal A that receives the packet can inform the terminal that transmitted the packet of the characteristics of the communication path.

Further, in the above embodiment, as shown in FIG. 10, three communication paths 203, 204 and 205 are provided between at least two predetermined terminals 201 and 202, and the above terminals 201 and 202 are calculated. When the communication path selection devices 201a and 202a for selecting one of the three communication paths 203 to 205 are provided based on the characteristics of the communication paths, the characteristics of the communication paths 203 to 205 are determined according to the characteristics. Thus, the optimum communication path can be selected and used.

[0033]

As is apparent from the above, the dynamic channel characteristic detecting device of the present invention detects the presence or absence of an error in the packet received by the error detecting means, and the sender of the packet received by the sender detecting means. The destination identification means identifies whether the destination of the packet received is its own station, another station, or broadcast, and the reception time information generation means generates time information indicating the time when the packet is received, The recording means records the presence or absence of an error in the packet detected by the error detecting device, the destination identified by the destination identifying means, and the time information generated by the reception time information generating means, and the communication path characteristic calculating means stores the information. The time information is received from the recording means, the elapsed time since the packet is received is derived based on the time when the time information is received and the time information, and the destination identified by the destination identifying means from the recording means. In addition, by receiving packet error presence / absence information from the error detection means, and by adding up the presence / absence of error for each transmission source based on the elapsed time, the destination, and the packet error presence / absence information, , Calculate the characteristics of the communication path to the source terminal.

Therefore, according to the present invention, it is possible to dynamically monitor the characteristics of the communication path between the own station and another station without measuring the signal strength. Further, according to the present invention, without using a special device for detecting the signal strength,
It is possible to obtain a dynamically changing characteristic of the communication path between each transmitting terminal and each receiving terminal. Further, according to the present invention, not only the packet transmitted to the own station but also the packet transmitted to the other station and the broadcast packet which does not specify the destination are received or intercepted to evaluate the characteristics of the communication path. Therefore, how to reflect the error occurrence of the packet addressed to another station in the evaluation of the characteristics of the communication path and how to reflect the past error characteristics in the evaluation of the characteristics of the communication path with the passage of time are optional. By setting, the degree of freedom in the characteristic evaluation of the communication path can be improved, and a wide range characteristic evaluation of the communication path can be executed. Further, according to the present invention, it is possible to detect a change in propagation conditions, movement of equipment, and decrease in transmission output in an environment where communication channel characteristics dynamically change such as mobile communication. Further, in the present invention, since the transmission source detecting means checks the transmission source of the received packet, it is possible to detect each characteristic individually even when the error characteristic of the communication path from each transmission source is different. Become.

Further, since the invention according to claim 2 has the communication channel characteristic transmitting means for transmitting the calculated characteristic of the communication channel to the communication channel, other terminals are informed of the characteristic of the communication channel. be able to.

The invention according to claim 3 further comprises a communication path selecting means for selecting one of a plurality of communication paths existing between the predetermined terminal and the terminal based on the calculated characteristics of the communication path. Since it is provided, the optimum communication path can be selected and used according to the characteristics of the communication path. Therefore, for example, the communication path used by the moving terminal can be appropriately switched to the communication path having the best characteristic to prevent the deterioration of the communication quality.

As described above, according to the present invention, the communication quality can be improved.

[Brief description of drawings]

FIG. 1 is a schematic diagram showing a bus type LAN.

FIG. 2 is a schematic diagram showing a wireless communication device.

FIG. 3 is a configuration diagram showing a configuration of an embodiment of a dynamic channel characteristic detection device of the present invention.

FIG. 4 is a diagram showing an example of an expression format of data written in the packet reception error history recording apparatus of the above embodiment.

FIG. 5 is a diagram showing a situation in which the terminal C of the above-described embodiment is receiving a packet addressed to another station as well as to its own station.

FIG. 6 is a diagram showing an example of a packet reception error history record acquired in the communication path of the above embodiment.

FIG. 7 is a diagram showing a calculation example of an evaluation function value of a communication channel when a history record as shown in FIG. 6 is acquired.

FIG. 8 is a diagram illustrating a modified example of the above embodiment.

FIG. 9 is a diagram illustrating a usage example of the above embodiment.

FIG. 10 is a diagram for explaining another modification of the above embodiment.

[Explanation of symbols]

30 ... Communication path, 31 ... Packet receiving device, 32 ... Packet error detecting device, 33 ... Address detecting device, 34 ... Packet reception error history storage device, 35 ... Time device, 36 ... Communication channel characteristic evaluation function calculating device, 37 ... Upper device, 93 ... Obstacle on communication path.

Claims (3)

[Claims] 1. A dynamic channel characteristic detecting device provided in the terminal of a network in which a plurality of terminals share a channel whose error characteristic changes with time, wherein a packet transmitted from a transmitting means of the terminal is received. In order to enable the receiving terminal to detect whether or not a transmission error has occurred in the packet, redundant data adding means for including redundant data in the packet, and a signal on the communication path are received and Packet reproducing means for reproducing a packet, error detecting means for detecting the presence or absence of an error in the received packet, source detecting means for detecting the source of the received packet, and the destination of the received packet is the own station or another station. Then, a destination identifying means for identifying whether it is a broadcast, a reception time information generating means for generating time information indicating the time when the packet is received, and the error detecting device. Whether there is an error in the packet detected by the device,
Recording means for recording the destination identified by the destination identifying means and time information generated by the reception time information generating means; time information received from the recording means, and the time when the time information is received and the time information The elapsed time since the packet was received based on the above, receiving the destination identified by the destination identifying means from the recording means, and receiving the packet error presence / absence information from the error detecting means. Based on time, the destination, and the packet error presence / absence information, a communication path characteristic calculation means for calculating the characteristics of the communication path to the terminal of the transmission source by weighting and totaling the existence of the error for each transmission source, And a dynamic channel characteristic detecting device. 2. The dynamic channel characteristic detecting device according to claim 1, further comprising a channel characteristic transmitting means for transmitting the calculated channel characteristic to the channel. Communication channel characteristic detection device. 3. The dynamic channel characteristic detecting device according to claim 1, wherein one of a plurality of channels existing between a predetermined terminal and the predetermined terminal is based on the calculated channel characteristics.
A dynamic channel characteristic detecting device comprising a channel selecting means for selecting one of the two.