JPH10303909A - Data communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To dynamically perform the increase and decrease of traffic, to avoid data circuit failures and to loosen transmission delay by sending information to that effect when speech information does not reach an input level that is preliminarily set for a time which is preliminarily set. SOLUTION: Data stored in a buffer 4 is stored together with a flag in a buffer 6 after the flag is made into 'one' when a data compressing part 5 detects that speech information does not reach the level that preliminarily set according to an instruction of an information compression controlling part 18. A transmission controlling part 8 adds information that speech data does not reach the input level which is preliminarily set during a time that is preliminarily set according to time length which detects that voice information which is designated by the flag sent from the buffer 6 and the part 18 continues to be in a state in which it is a prescribed level or less. At the time of receiving data, data stored in a buffer 13 is undergone signal processing, etc., in a data expanding part 14 and after that is stored in a buffer 15.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is applied to an industrial field in which data communication between devices is applied.

[0002]

2. Description of the Related Art In today's world, where multimedia-related products that transmit and receive drawing information and voice to and from each other via a communication network are expected to increase rapidly, the amount of data flowing through the communication network is also expected to increase rapidly. .

[0003] To cope with a rapid increase in the amount of data, it is conceivable to improve the data transfer speed and compress the data. For example, there is an optical fiber in a communication network, a compression transmission method of drawing information represented by Fax, and the like.

[0004] However, the number of communication devices connected to the network has increased rapidly, and the information to be handled has changed from mere data to multimedia-related information including voice and drawing information. It is expected that the amount will be much larger and the line utilization rate in the network will increase and the fluctuation will increase. However, in the current communication network, LAN (Local)
Area Network) achieves a communication speed of about 100 Mbps.

[0005]

Under the current situation as described above, in the near future, the number of communication devices connected to a communication network and the amount of information to be handled will be much larger than in the past.
It is expected that the capacity of the communication network will not keep up with the increase in data, and that a state like traffic congestion in the current transportation system will frequently occur in the communication network.

As described above, in the conventional technology, ATM, LAN,
In the case of (1), cells are frequently discarded, and in the case of a CSMA / CD system LAN represented by Ethernet, the waiting time due to a collision increases, so that not only time is required for data transmission / reception, but also multimedia-related In the handling of voice information, especially in conversation, there has been a serious problem that the sound is interrupted or cut off, making it impossible to transmit and receive normal information.

[0007]

In order to avoid the above-mentioned problem (communication failure), it is necessary to suppress the load (line utilization rate) of the communication network to a certain range.

On the other hand, with the improvement of the capabilities of information processing devices represented by personal computers, the content of data to be processed and the compression / expansion method of the data are also diversified. Do not go.

According to the present invention, (1) in order to reduce the load on a communication network, a state where audio information does not reach a preset input level for a preset time is detected. Alternatively, the audio information data is compressed by sending information indicating that the input level has not reached the preset input level during the preset time, or (2) the response of the communication network is reset for a preset time. If it becomes slower than the value, it is estimated that the load on the communication network has increased, and the length of time for detecting that the audio information has continued to be at or below the predetermined level has been reduced, or the input detection level has been reduced. To increase the data compression ratio and reduce the load on the communication network, or (3) increase the ATM. In the case of LAN, the cell discard rate is monitored. In the case of Ethernet, the number of retries due to collisions and the data throughput are monitored at preset time intervals to measure or estimate the load on the communication network. Has increased and it is determined that the occurrence of a network failure is expected.
By reducing the length of time for detecting that the audio information has continued to be at or below the predetermined level, or by increasing the input detection level, the data compression ratio is increased, and the degree of reduction of the data amount is increased. 2. The amount of data to be transmitted and received and the number of times of transmission and reception are reduced by means such as extending the information transmission cycle, and the load on the communication network is reduced. If it is determined that the load on the communication network is low and the line has room, By increasing the length of time for detecting that the audio information has continued to be at or below the predetermined level, or by lowering the input detection level, the data compression ratio is reduced to reduce the degree of reduction in the data amount. 2. By increasing the amount of data to be transmitted and received and the number of times of transmission and reception to improve the quality of data to be transmitted and received by means such as shortening the information transmission cycle, the data amount can be dynamically adjusted according to the load on the communication network. To change it.

According to the present invention, (1) in order to reduce the load on a communication network, a state in which voice information does not reach a preset input level for a preset time is detected, and the voice information is replaced with the voice information itself. By sending information indicating that the information has not reached the preset input level for a preset time, the data amount of voice information is reduced and the load on the communication network is reduced. (2) Response of the communication network In the case of slowing down, the amount of information can be reduced by increasing the data compression rate by reducing the length of time to detect that the audio information has continued to be at or below the predetermined level, or by increasing the input detection level. Reduce the load on the communication network by reducing it. (3) It is detected that the voice information has continued to be at or below a predetermined level according to the load on the communication network. Increase or decrease the amount of traffic by changing the length or the input detection level of the time, to allow avoidance and transmission delay mitigation in line fault in the communication network.

(4) According to the load of the communication network,
Compression of audio information by dynamically changing the length of time to detect that the audio information has continued to be at or below a predetermined level, the input detection level of the audio information, the information transmission / reception cycle, etc. in multiple stages. By dynamically changing the rate, even in applications where real-time properties are required / important especially in data transmission / reception, for example, transmission / reception of multimedia-related voice information—especially conversation—when the load on the communication network is high, By greatly reducing the amount of data and transmitting and receiving long-time data a small number of times, the load on the communication network can be reduced, and sound can be prevented from being interrupted or broken.

[0012]

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

FIG. 1 is a block diagram of a data communication system to which the present invention is applied.

The data communication device 1 converts an analog audio signal input from the audio input microphone 2 into a digital signal by the AD converter 3 and stores the digital signal in the buffer 4.

The A / D conversion section is controlled by the information compression control section 18. When the data stored in the buffer 4 detects a state in which the audio information does not reach the preset input level in accordance with the instruction of the information compression control unit 18, the data compression unit 5 sets the flag to “1” and sets the flag together with the flag. Store in buffer 6.

Thereafter, the data and the flags stored in the buffer 6 are sent to a transmission / reception unit 7 which sends and receives data to and from a communication network. The transmission / reception unit 7 includes a transmission control unit 8, a transmission unit 9, a line load monitoring unit 10 for detecting the number of retries and data throughput due to a collision in the network,
The transmission control unit 8 is instructed by a flag sent from the buffer 6 and an information compression control unit 18. According to the length of time for detecting that the state where the audio information is below the predetermined level continues, information indicating that the audio data does not reach the preset input level for the preset time is added.

The information compression control unit 18 obtains information on the number of retries due to a collision in the network and data throughput information detected by the line load monitoring unit 10 at fixed time intervals, thereby obtaining the traffic amount (load, line usage rate) on the communication network. Is also equivalent), and instructs the data compression unit 5 on the data compression rate—time interval and input level. For example, if the traffic amount and the data compression ratio are within a preset range, the compression ratio and the like are not changed. 5 for a higher compression ratio or the like. Of course, when the traffic amount falls outside the set range due to a decrease in the traffic amount, the data compression unit 5 is instructed to perform a lower compression ratio or the like-e.g., to extend the set time or to reduce the set input level-.

The information compression control unit 18 adds information such as a data compression ratio for each information unit of communication to the transmission control unit 8 every time the data compression ratio or the like is changed,
The communication destination is notified of information necessary for decompressing the compressed data.

At the time of data reception, the process is the reverse of the voice input process. The information compression control unit 18 adds information such as the data compression rate to the data received by the reception unit 11 under the control of the reception control unit 12. If it has been extracted, it is taken out and the data decompression unit 1
Instruct 4 The data decompression unit 14 can know the decompression rate and the like from the given compression rate and the like. Data other than the data compression ratio is temporarily stored in the buffer 13.

The data stored in the buffer 13 is decompressed by a data decompression unit 14 such as a signal decompression process in accordance with an instruction of an information compression control unit 18. After processing for adding information, such as outputting background noise (random noise), is stored in the buffer 15.

The data communication device 1 converts the data stored in the buffer 15 into an analog signal by a DA converter 16 and outputs the analog signal from a speaker 17 for audio output.

FIG. 2 shows a communication network system using a communication device to which the present invention is applied. The data communication device 1 dynamically changes the data compression / decompression rate and the like according to the load of the communication network 19 to which the same data communication devices 20 to 25 are connected, thereby reducing the information amount (load) on the communication network. Can be increased or decreased.

FIG. 3 shows an example of a communication frame format. The communication frame 30 is divided into a header area 31 and a data area 32, and information to be transmitted and received between the devices is stored in the data area. An indication 33 of presence / absence of compression / expansion information is provided at the beginning of the data area, and when the information is set, as the detailed information 34, a time for detecting that the audio information has continued to be at or below a predetermined level is detected. Length information 35, audio information input detection level information 36,
The voice information recording time information 37 is indicated, followed by information 38 that should be sent.

In FIG. 2, all communication devices connected to the communication network need not be communication devices to which the present invention is applied.

In this case, it is first checked whether or not the communication partner can dynamically change the data compression / decompression ratio, and if possible, dynamically changes the data compression / decompression ratio, etc. If possible, communication is performed according to a method preset as a standard.

[0026]

According to the present invention, (1) the traffic amount is dynamically increased or decreased according to the load of the communication network, so that in the communication network, data line failure can be avoided and transmission delay can be reduced. Becomes

(2) For the same reason, it is possible to increase the average load with respect to the capacity of the communication network and to use the communication network. Therefore, it is possible to reduce the cost for installation / operation of the communication network.

(3) According to the load of the communication network,
By dynamically changing the data compression / decompression ratio, data transmission interval, and the like in a plurality of stages, especially in applications where real-time performance is required / important in data transmission / reception, for example, transmission / reception of multimedia-related audio information. When the load on the communication network is low, high-quality data is frequently transmitted and received, and when the load on the communication network is high, high compression and long-time data is transmitted and received a small number of times.

(4) For the same reason, it is possible to use a lower-speed communication network than before, for example, in the field of multimedia, where real-time property at the time of data transmission / reception is required / emphasized. The related cost can be significantly reduced.

It has the following effects.

[Brief description of the drawings]

FIG. 1 is a block diagram of a communication device to which the present invention is applied.

FIG. 2 is an example of a system configuration using a communication device to which the present invention is applied.

FIG. 3 is an example of a communication frame format used in a communication device to which the present invention is applied.

[Explanation of symbols]

1. Data communication device 2. Microphone for voice input
3 AD converter, 4 buffer, 5 data compression unit, 6 buffer, 7 transmission / reception unit,
8: Transmission control unit, 9: Transmission unit, 10
... Line load monitoring unit, 11 ... Reception unit, 12
... Reception control unit, 13 buffer, 14 data expansion unit, 15 buffer, 16 DA converter, 17 speaker, 18 information compression control unit, 19 communication network, 20 25 data communication device, 30 ... Communication frame, 31 ... Header area,
32: data area, 33: display of presence / absence of compression / expansion information, 34: detailed information, 35: time information for detecting that audio information has continued below a predetermined level, 36: input of audio information Detection level information, 37... Voice information input detection level information, 38.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hiroshi Takigami 810 Shimoimaizumi, Ebina-shi, Kanagawa Prefecture Hitachi Systems Office Systems Division (72) Inventor Kazuhiro Soma 1st Horiyamashita, Hadano-shi, Kanagawa Hitachi Information, Ltd. Within technology

Claims (6)

[Claims] A communication network having a function of detecting whether or not an input level of audio data input from an input / output device has reached a predetermined value, and a function of transmitting and receiving the data to and from the communication network. In the communication device connected to the input device, if the audio data does not reach the preset input level for a preset time, the audio data does not reach the predetermined input level. If only the information is transmitted to the communication network and the receiving device receives information from the communication network indicating that the audio data does not reach the preset input level, whether to suppress the output of the audio information Or a data communication method characterized in that it has a function of outputting background noise (random noise), thereby compressing the data amount of voice information. 2. The method according to claim 1, wherein a determination value of an input level of the audio data input from the input / output device and a time during which the input level is kept lower than the input level can be set in a plurality of steps or continuously variable. A data communication method characterized in that the compression ratio of the data amount of voice information is variable. 3. An output device according to claim 1, wherein the output device receives, from the communication network, information indicating that the audio data does not reach the preset input level for a preset time. Is a data communication system having a function of suppressing output of voice information for a preset time or outputting background noise (random noise) according to a set level. 4. The input device according to claim 1, wherein: For each information unit of communication, instead of the audio data itself, add information indicating that the audio data does not reach the preset input level for a preset time,
2. 2. When it is necessary to compress the data amount or when there is an instruction, the audio data itself adds information indicating that the audio data does not reach the preset input level for a preset time. During the preset time of the audio data in the communication protocol, addition and deletion of information indicating that the input level does not reach the preset input level, and exchange of information such as setting of the input level and the duration are set in advance, The compression ratio of the data amount can be set by changing the setting information as necessary, or the data amount of the audio information can be dynamically changed by changing the compression ratio as necessary by combining these. Data communication system characterized by things. 5. The input device according to claim 1, wherein:
It has a function of measuring or estimating the amount of traffic on the communication network (load and line usage rate are equivalent). 1. For each information unit of communication, information indicating that the audio data does not reach a preset input level for a preset time is added instead of the audio data itself. When it is necessary to compress the data amount, if the audio data does not reach the preset input level for a preset time, instead of the audio data itself, 2. Add information indicating that the input level does not reach the preset input level. During the time when the voice data is set in the communication protocol in advance, the addition and deletion of information indicating that the input level does not reach the preset input level, and the exchange of information such as the setting of the input level and the duration are set in advance,
If necessary, information indicating that the audio data has not reached the predetermined level for a predetermined time instead of the audio data is added, and the compression rate of the data amount can be dynamically changed by changing the time and level as necessary. A data communication method characterized by dynamically changing the amount of data to be transmitted and received in accordance with the amount of traffic on a communication network by any of the above or a combination thereof. 6. A communication system according to claim 1, wherein each node on the communication network, not the communication device, includes means for measuring a traffic amount and transmitting the information to the communication device. 6. A data communication system, wherein the functions of the above-mentioned claims 1 to 5 are realized by a communication device.