JP3485248B2 - Power line communication device - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power line communication device for transmitting and receiving digital data using a power line,
In particular, the present invention relates to a power line communication device that sets transmission parameters such as a frame length so that optimum transmission efficiency can be obtained with a change in transmission error occurrence rate.

[0002]

2. Description of the Related Art In power line communication, an existing power line is used for data transmission, and it is not necessary to install a new data transmission line.
Application to N etc. is under consideration. But on the power line,
Since many home electric appliances are connected and noise generated from those appliances appears, the environment of the data transmission path is poor. In addition, since a large number of home appliances are connected, the impedance becomes extremely low in the frequency range used for data transmission, and the data signal is severely attenuated.

Application of a spread spectrum modulation method or the like has been studied in order to favorably perform data communication even in such a bad noise environment, but the occurrence of a data error is unavoidable, and when a data error occurs, retransmission is performed. Therefore, it is necessary to secure the reliability of the data. However, when the noise level of the power line is high, the occurrence of data error is repeated and the data is retransmitted frequently, so that the data transmission efficiency is significantly reduced.

In order to reduce the number of times data is retransmitted in power line communication, for example, a system disclosed in Japanese Patent Laid-Open No. 4-322519 has been proposed. In this method, paying attention to the fact that the high-level burst noise generated in the power line is synchronized with the cycle (50 Hz or 60 Hz) of the commercial AC power supply, and the transmission start time of the retransmission data is based on the AC power supply cycle. With this control, burst noise is avoided without changing the data frame length, and the number of retransmissions is reduced.

[0005]

However, in recent years, an inverter circuit has been increasingly used as a power source for home electric appliances, and the occurrence of noise in power lines has been changing. The noise generated from various devices equipped with an inverter circuit is continuous, not burst-like, although its temporal characteristics are synchronized with the power supply cycle. Moreover, since the average noise level is high, it is difficult to avoid noise by controlling the transmission start time as described above. Further, it is difficult to deal with a data error caused by the attenuation of the data signal on the power line.

Therefore, the present invention has been made in view of the above-mentioned conventional problems, and in a data transmission procedure in which an information frame containing data is sent from the transmitting side and a response frame is returned from the receiving side, a response from the receiving side is sent. The quality of the power line as a data transmission line is grasped based on the information frame length transmitted according to this quality, and the maximum number of consecutive information frames that can be transmitted at one time without waiting for a response from the receiving side. It is an object of the present invention to provide a power line communication device capable of reducing the number of times data is retransmitted by changing transmission parameters such as.

[0007]

Power line communication according to the present invention
The device, communication means for transmitting and receiving data through the power line, error detection means for detecting an error in the received data,
At the time of data transmission, a transmission result storage means for storing and accumulating a transmission result for each communication partner, a transmission path state analyzing means for determining the quality of the power line as a data transmission path using the transmission result, Based on the quality of the data transmission path determined by the transmission path condition analysis means, a transmission parameter including at least one of the frame length of the transmission data and the maximum number of consecutive frames that can be continuously transmitted at one time is determined. Transmission parameter determination means, frame generation means for generating a frame of transmission data by referring to the transmission parameter, error detection code generation / addition means for adding an error detection code to the frame, and data reception from the receiving side. A non-response determination means for detecting that there is no response of
For each transmission, the transmission result stored in the transmission result storage means
The type of result is that the transmitted data was transmitted to the receiving side without error.
Information indicating that there was an error in the transmitted data,
Or information indicating the degree of error and from the receiving side
There was an error in the response data of the
Information indicating the degree of existence and the receiving side for data transmission
Information indicating that there was no response from the
The type of transmission result stored in the result storage means is predetermined.
Each of the assigned points is assigned to
The state analysis means is stored in the transmission result storage means.
Calculation is performed using the points corresponding to past transmission results.
The quality of the data transmission line based on the result of the above calculation.
To achieve the above objectives.
It The power line communication device according to the present invention is a device for transmitting power through a power line.
Communication means for sending and receiving data, and error in received data
Error detection means for detection and communication phase during data transmission
Transmission result storage means for storing and accumulating transmission results for each hand
And a data transmission line of the power line using the transmission result
And a transmission path condition analyzing means for determining the quality of the transmission.
Quality of data transmission path judged by path condition analysis means
Based on the frame length of the transmitted data, and continuous at once
At least one of the maximum number of consecutive frames that can be transmitted
Transmission parameter determination including transmission parameter determination
Means and the transmission data frame with reference to the transmission parameters.
A frame generating means for generating a frame,
Error detection code generation and addition means for adding an error detection code,
Detects that there is no response from the receiving side for data transmission
And a non-response judging means for
Encoding means for performing encoding, and the error correction coded reception data
Further comprising a decoding means for decoding the parameter,
The transmission parameter determined by the determining means is the code
Whether or not there is coding in the coding means, the type of code, and the coding rate
For each transmission, including at least one of
The type of transmission result stored in the result storage means is the transmission data.
Sent to the receiving side without any error, and
There is an error in the data, or there is an error
There is an error in the information indicating the degree and the response data from the receiving side.
Information indicating the existence of the error or the degree of error
And there was no response from the receiving side to the data transmission
Information indicating that it is stored in the transmission result storage means.
Each type of transmission result that is
A number is assigned to the transmission path state analysis means,
Supports past transmission results stored in the transmission result storage means
The calculation is performed using the above-mentioned points, and the result of the calculation is
Characterized by determining the quality of the data transmission line based on
Therefore, the above object is achieved . The transmission line state solution
The calculation by the analysis means corresponds to multiple past transmission results.
Calculate the average score per unit transmission from each score
May be a calculation for. The transmission line
The calculation by the status analysis means is the progress after the transmission.
Is a weighted average calculation that is weighted by time,
The weight corresponding to the score corresponding to the transmission result that is new in time
It may be characterized by being large.

According to the present invention, the transmission parameter including at least one of the frame length of the transmission data and the maximum number of consecutive frames that can be transmitted at one time is determined based on the quality of the data transmission path, A frame of transmission data is generated and transmitted by referring to this transmission parameter.
For example, if the quality of the data transmission path is good, increase the frame length of the transmission data and increase the maximum number of consecutive frames,
If the quality of the data transmission path is poor, the frame length of the transmission data is shortened and the maximum number of consecutive frames is reduced, thereby improving the data transmission efficiency and reducing the number of retransmissions.

[0009]

For example, if the quality of the data transmission line is good,
Without coding, select the type of code with low redundancy, reduce the coding rate, and if the quality of the data transmission path is poor, perform coding and select the type of code with high redundancy. Increase the rate of conversion. This makes it possible to further improve the data transmission efficiency and further reduce the number of retransmissions.

[0011]

Based on such a transmission result, the quality of the data transmission path can be accurately determined.

[0013]

By thus allocating the respective scores to the types of the transmission result, it is possible to simplify the determination of the quality of the data transmission path.

[0015]

Thus, by referring to the history of past transmission results, the quality of the data transmission path can be determined more reliably.

[0017]

By thus increasing the weight as the number of points corresponding to the transmission result that is new in time, the quality of the data transmission path can be determined more accurately.

[0019]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1) FIG. 1 is a block diagram showing Embodiment 1 of the power line communication device of the present invention. This power line communication device is also a transmitter and a receiver, and when operating as a transmitter, it transmits an information frame,
When receiving the response frame from the receiving device and operating as the receiving device, the information frame from the transmitting device is received and the response frame is transmitted.

The general operation of the power line communication device of the present embodiment as a transmission device is as follows.

The frame construction unit 1 inputs transmission data and forms an information frame including this transmission data. In addition, the frame configuration unit 1 may, for example,
A transmission parameter indicating the maximum number of consecutive information frames that can be continuously transmitted at one time without waiting for a response from the receiving side is input from the transmission control unit 9, and at least one information frame (one Information frame or each continuous information frame less than or equal to the maximum number of continuous information frames). The information frame configured by the frame configuration unit 1 is output to the error detection code addition unit 2.

The error detection code adding section 2 calculates and obtains an error detection code for each information frame from the frame construction section 1, and incorporates this error detection code into the information frame,
This information frame is output to the modulator 3.

The modulation unit 3 modulates the information frame from the error detection code addition unit 2 and outputs the modulated signal to the power line coupling unit 4. The power line coupling unit 4 is connected to a power line (not shown) and superimposes the modulated signal from the modulation unit 3 on the power line. Further, the modulation unit 3 outputs a timing signal to the no-response determination unit 5 when the modulation of one information frame is completed.

The power line coupling unit 4 extracts the modulated signal superimposed on the power line and outputs it to the demodulation unit 6. The demodulation unit 6 demodulates the modulated signal and reproduces the response frame from the receiving side. The error detection unit 7 receives the demodulated response frame, performs an operation for detecting an error in the data included in the response frame, and receives the data indicating whether or not there is a data error in the response frame, and the received content analysis unit 8 , The transmission control unit 9 and the transmission result storage unit 10, and outputs the response frame data to the reception content analysis unit 8.

When the timing signal from the modulation circuit 3 is input, the no-response determining unit 5 determines whether or not there is a response frame from the receiving side to the transmission of the information frame for a certain period of time after the timing signal is input. Judgment is made based on the demodulation output of No. When it is determined that there is no response frame from the reception side, the no-response determination unit 5 outputs data indicating that there is no response from the reception side to the transmission control unit 9 and the transmission result storage unit 10.

If the error detection unit 7 does not detect an error in the data contained in the response frame, the reception content analysis unit 8 analyzes the content of the response frame, and the content of the response frame is a positive response (hereinafter referred to as ACK). ) And a negative response (hereinafter referred to as NAK) are output to the transmission control unit 9 and the transmission result storage unit 10.

The transmission result storage unit 10 includes data from the error detection unit 7 (indicating the presence or absence of an error in the data included in the response frame) and data from the received content analysis unit 8 (a response to a certain period or a certain number of transmissions). The contents of the frame) and the data from the no-response judging unit 5 (which shows no response) are stored. The transmission path state determination unit 11 uses the data in the transmission result storage unit 10 (indicating the presence or absence of an error in the data included in the response frame, the content of the response frame for a certain period or a certain number of transmissions, and no response). The quality of the power line as a data transmission path is determined and output to the transmission control unit 9.

The transmission control unit 9 determines the information frame length, the maximum number of consecutive information frames that can be continuously transmitted at one time without waiting for a response from the receiving side, etc., based on the quality of the power line as a data transmission path. The transmission parameter to be shown is determined, and this transmission parameter is output to the frame configuration unit 1. In the transmission control unit 9, the error detection unit 7 detects an error in the data included in the response frame, the no-response determination unit 5 determines no response, and the received content analysis unit 8 determines the NAK of the response frame. Once extracted, it decides to retransmit the transmission data, and outputs the data indicating this result to the frame configuration unit 1. In response to this, the frame configuration unit 1 determines the retransmission of the transmission data, and configures an information frame including the transmission data that has already been transmitted at least once based on the transmission parameter from the transmission control unit 9. The information frame is output to the modulator 3 to retransmit the transmission data.

The general operation of the power line communication device of the present embodiment as a receiving device is as follows.

The power line coupling unit 4 extracts the modulated signal superimposed on the power line and outputs it to the demodulation unit 6. The demodulation unit 6 demodulates the modulated signal, reproduces the information frame from the transmission side, and outputs it. The error detection unit 7 inputs the demodulated information frame, performs an operation for detecting an error in the data included in the information frame, and receives the data indicating whether or not there is a data error in the information frame, the received content analysis unit 8, The data is output to the transmission control unit 9 and the transmission result storage unit 10, and the data of the information frame is output to the reception content analysis unit 8.

If the error detecting unit 7 does not detect an error in the data contained in the information frame, the reception content analyzing unit 8 outputs the data of the information frame.

If the error detection unit 7 does not detect an error in the data contained in the information frame, the transmission control unit 9 forms a response frame indicating ACK, and detects an error in the data contained in the information frame. For example, a response frame indicating NAK is formed and this response frame is output to the modulator 3.

The modulation section 3 modulates the response frame from the error detection code addition section 2 and outputs the modulated signal to the power line coupling section 4.

FIG. 2 shows a connection state of the two power line communication devices having the configuration shown in FIG. In FIG.
One power line communication device 100 operates as a transmission side, and the other power line communication device 200 operates as a reception side. In the power line communication device 100 on the transmission side, each block necessary for transmitting an information frame and receiving a response frame from the receiving device is described, and has the same configuration as the device of FIG. 1. There is. In addition, the power line communication device 1 on the receiving side
In 00, only each block necessary for receiving the information frame from the transmission device and transmitting the response frame, that is, the non-response determination unit 5, the transmission result storage unit 10, and the transmission path state determination unit 11 are excluded. Each block is marked.

Further, FIG. 3 shows a power line communication device 1 on the transmitting side.
4 is a flowchart showing the operation of the power line communication device 200 on the receiving side. The operation of the power line communication device 100 on the transmission side and the operation of the power line communication device 200 on the reception side will be described in more detail with reference to these flowcharts.

First, the operation of the power line communication device 100 on the transmitting side will be described with reference to the flowchart shown in FIG. In the power line communication device 100 on the transmission side, the frame configuration unit 1 determines whether there is transmission data (S1), and waits until there is transmission data (S1, Yes). When there is transmission data (S1, Yes), the frame configuration unit 1
Determines based on the data from the transmission control unit 9 whether the transmission of the transmission data is the first transmission or the retransmission due to the occurrence of a transmission error (S2). As described above, in the transmission control unit 9, the error detection unit 7 detects an error in the data included in the response frame, the non-response determination unit 5 determines no response, and the reception content analysis unit 8
When the NAK of the response frame is extracted by, the retransmission of the transmission data is decided. In response to this, the frame configuration unit 1 determines the retransmission of the transmission data.

In the case of the first transmission, the transmission control unit 9 determines, for example, the information frame length based on the quality of the power line as the data transmission line from the transmission line state determination unit 11 without waiting for a response from the receiving side. A transmission parameter indicating the maximum number of consecutive information frames that can be transmitted continuously is determined (S3). When determining the transmission parameters, if it is determined that the quality of the power line as a data transmission path is poor, reduce the probability that the data transmission period on the power line and the noise generation period overlap, and retransmit the information frame. In order to reduce the frequency, for example, one with a short information frame length is selected, and the maximum number of consecutive information frames is set small.

When the information frame is retransmitted, the transmission control unit 9 refers to the transmission parameter used in the previous transmission of the information frame, and the information frame length shorter than the set value,
A small maximum number of consecutive information frames is reset (S4).

The frame construction unit 1 incorporates the transmission data into the information frame within a range not exceeding the information frame length determined by the transmission control unit 9. In addition, the frame configuration unit 1 converts the information frame into a plurality of information frames as necessary from the relationship between the length of transmission data and the information frame length within a range that does not exceed the maximum number of consecutive information frames determined by the transmission control unit 9. Divide (S5).

If the entire transmission data cannot be incorporated into each information frame that can be transmitted continuously at one time, the transmission data is divided into a plurality of pieces, and the data portion is divided once for each divided data portion. Will be incorporated into each information frame that can be transmitted continuously and transmitted.

The error detection code addition section 2 calculates and obtains an error detection code for each information frame from the frame construction section 1 and adds this error code to the information frame (S).
6). A CRC code, for example, is used as the code for error detection.

The modulation unit 3 modulates the information frame to which the error detection code is added (S7), and sends the modulated signal to the power line 300 via the power line coupling unit 4. The modulation method used here is preferably a method that is unlikely to be affected by noise, distortion, etc., which are problems in power line communication, such as a spread spectrum modulation method.

The no-response judging section 5 measures a certain time by a timer circuit built in the no-response judging section 5 from the input of the timing signal indicating the end of the output of the modulated signal from the modulating section 3, and this constant time Whether or not there is a response frame is determined based on the demodulation output of the demodulation unit 6 (S8). If there is no response frame (S8, Yes), no response determination unit 5
Records data indicating no response in the transmission result storage unit 10 (S10). After this, the process proceeds to S14.

If there is a response frame (S8, No), the response frame is demodulated by the demodulation section 6 (S8).
9).

The error detector 7 detects an error in the data contained in the demodulated response frame (S11), and if a data error is detected (S11, Yes), it outputs data indicating a transmission error in the response frame. The data is recorded in the transmission result storage unit 10 (S13). After this, the process proceeds to S14.

When no data error is detected (S11, No), the received content analysis unit 8 analyzes the data of the response frame and the response from the receiving side is ACK and NA.
It is determined which of K is shown (S12).

When the response from the receiving side is determined to be ACK (S12, Yes), it can be determined that the information frame transmitted from the transmitting side apparatus 100 has reached the receiving side without error, and therefore the received content analysis unit 8 Records data indicating normal transmission of the information frame in the transmission result storage unit 10 (S1).
5). After this, the process proceeds to S14.

When the response from the receiving side is determined to be NAK (S12, No), it can be determined that the information frame transmitted from the transmitting side apparatus 100 has erroneously reached the receiving side. Therefore, an information frame transmission error occurs. Is recorded in the transmission result storage unit 10 (S16). After this, the process proceeds to S14.

As is clear from the above description, in one transmission of the information frame, the transmission result of any one of no response, a response frame transmission error, an information frame normal transmission, and an information frame transmission error. Transmission result storage unit 1
It is stored in 0. Each transmission result before a certain number of times or within a certain time period before the transmission of this information frame is also stored in the transmission result storage unit 10 in time series by the same procedure.

The transmission line state determination unit 11 uses the transmission result of this time stored in the transmission result storage unit 10 and the past transmission result to perform calculation for estimating the quality of the data transmission line, The quality of the data transmission path obtained by this calculation is stored as the latest (S14). After this, the process returns to S1. The calculation for estimating the quality of the transmission path will be described later.

By the above procedure, the latest quality of the transmission line can be grasped at the time of one transmission of the information frame, and the transmission control unit 9 from the transmission line state judging unit 11 can transmit the next and subsequent transmissions. It is possible to select the optimum frame length and the maximum number of continuous information frames based on the latest quality of the transmission path.

Next, the operation of the power line communication device 200 on the receiving side will be described with reference to the flowchart shown in FIG. In the power line communication device 200 on the receiving side, the power line coupling unit 4
Determines whether or not there is a modulated signal on the power line 300 (S20), and waits until the signal is present (S20, Yes). When the modulated signal is present (S20, Yes), the demodulation unit 6 demodulates the modulated signal, reproduces the information frame from the transmission side (S21), and outputs this information frame to the error detection unit 7. To do.

The error detector 7 detects an error in the data contained in the information frame (S22). If an error in the data is detected (S22, Yes), the received content analysis unit 8
Discards the information frame data (S23b). At this time, the transmission control unit 9 inputs the data indicating the transmission error of the information frame from the error detection unit 7, and generates the data indicating the NAK returned to the transmission side (S25).

When no data error is detected (S22, No), the reception content analysis unit 8 outputs the data of the received information frame (S23a). Further, the transmission control unit 9 inputs the data indicating the normal transmission of the information frame from the error detection unit 7 and generates the data indicating the ACK returned to the transmission side (S24).

AC previously generated by the transmission control unit 9
The data indicating either K or NAK is output to the frame composing unit 1 and incorporated into the response frame (S26), and the error detecting code adding unit 2 adds the error detecting code to the response frame (S26). S27). The response frame to which the error detection code is added is modulated by the modulator 3 and then sent to the power line 300 via the power line coupling unit 4 (S28).

With the above, the reception of the information frame and the response thereto are completed, and the process returns to S20 to wait for the next reception.

Next, the calculation performed in the transmission path state determination unit 11 will be described. In the transmission result storage unit 10,
Every time at least one continuous information frame is transmitted, the transmission result of no response, a response frame transmission error, a normal information frame transmission, or an information frame transmission error is stored. Alternatively, each transmission result within a fixed time is stored.

Comparing these four types of transmission results,
First, in the case of normal transmission of the information frame, it means that both the information frame from the transmitting side and the response frame from the receiving side could be transmitted without error, and it is estimated that the quality of the power line as the data transmission line is the best. .

In the case of no response, it is considered that at least one of the signals of the information frame and the response frame is deteriorated in the data transmission line to the extent that it cannot be demodulated, so that the quality of the data transmission line is the highest. Estimated to be bad.

Next, the transmission error of the information frame and the transmission error of the response frame are compared. An information frame transmission error occurs when an error is detected in the information frame on the receiving side and no error is detected in the response frame on the transmitting side. On the other hand, a response frame transmission error occurs when an error is detected in the response frame on the transmission side regardless of the error detection result of the information frame on the reception side. Even if both of them have an error, the transmission result may be a response frame transmission error. Therefore, it is estimated that there is a higher probability that the quality of the transmission path will be better when there is an information frame transmission error.

In this way, since the quality of each transmission path estimated by each transmission result is ranked, each transmission path quality point is assigned to each transmission result.
For example, 4 points for normal transmission of the information frame,
3 points are assigned to information frame transmission errors, 2 points are assigned to response frame transmission errors, and 1 point is assigned to no response.
Each time one information frame is transmitted, the transmission result point is stored in the transmission result storage unit 10. Then, the transmission control unit 9 calculates an average point per information frame transmission from the points of each transmission result in the past a certain number of times or within a certain time, and this average point and the average point associated with the new transmission. The quality of the current transmission path is determined according to the fluctuation of In the case of assigning each point to each transmission result described above, it can be seen that the transmission path quality is better as the average point is larger.

When the degree of the transmission error, that is, the degree of the error of the data in the frame is obtained as the transmission result, the points may be set more finely according to the degree of the transmission error.

Further, since the transmission result storage unit 10 stores each transmission result in time series, when calculating the above-mentioned average points, a great weight is applied to the point of the transmission result which is new in time. It is also possible to obtain a weighted average. For example, the point for the latest transmission result is multiplied by 1, the point for the transmission result one time before is multiplied by 0.9, and the point for the transmission result two times before is multiplied by 0.8. After this, if the points of each transmission result for a certain number of times are totaled and the weighted average is obtained, it becomes possible to grasp the quality of the data transmission path more accurately. Especially in power line communication where the quality of the data transmission path changes rapidly, the optimum transmission parameters, such as the information frame length and the maximum number of consecutive information frames, are set according to the quality of the data transmission path in order to maintain the transmission efficiency. Since it is necessary to set and it is important to know the accurate quality of the data transmission line at the present time, the above estimation of the quality of the data transmission line is effective.

As described above, according to the present embodiment, it is possible to accurately estimate the quality of the data transmission path from the past transmission result stored in the transmission result storage unit 10, and to obtain the optimum transmission parameter. That is, the frame length and the maximum number of consecutive information frames can be determined. As a result, even when the quality of the data transmission line is deteriorated, the frequency of retransmissions can be reduced, the reduction in the efficiency of data transmission can be suppressed, and when the quality of the data transmission line is good, By changing the transmission parameter, it is possible to promptly improve the transmission efficiency.

In the present embodiment, the quality of the data transmission line is obtained by averaging the points of each transmission result. However, an approximate function approximating the time change of the points is obtained, and the integral calculation of the function is performed. Alternatively, the quality of the data transmission line may be obtained by performing a differential operation or the like, and the effect of the present invention can be obtained by any other method that can reflect the quality of the data transmission line.

Further, in the present embodiment, the operation of data communication has been described in which two power line communication devices are connected to a power line and one device is a transmission side device and the other is a reception side device. Since the receiving side device usually has the same function and configuration, even if the transmitting side and the receiving side are switched, the same operation is performed and the effect is not changed. In addition, when three or more power line communication devices are connected to the power line, each power line communication device transmits each past transmission result (transmission result) for all other power line communication devices that are communication partners. (History) is stored in the transmission result storage unit 10, and the transmission control unit 9 uses the respective transmission result history with each communication partner to achieve the same effect.

(Embodiment 2) FIG. 5 is a block diagram showing Embodiment 2 of the power line communication device of the present invention. The power line communication device of the present embodiment is obtained by additionally inserting an error correction coding unit 13 and an error correction decoding unit 12 into the device shown in FIG. Note that, in FIG. 5, parts that perform the same functions as in FIG.

In the power line communication device on the transmission side, the transmission control unit 9 determines whether or not to perform error coding based on the quality of the data transmission line from the transmission line state determination unit 11 as a transmission parameter, and transmits this transmission. Parameter correction coding unit 13
Give to.

When the correction coding unit 13 is instructed to perform error coding by the transmission parameter, the correction coding unit 13 performs error correction coding processing on the information frame from the detection code adding unit 2 and further indicates that there is error coding. The data shown is included in the information frame, and the information frame obtained by this is output. Further, when the correction encoding unit 13 is instructed not to perform the error encoding by the transmission parameter, the error encoding unit 13 does not perform the error correction encoding process on the information frame from the detection code adding unit 2 and does not perform the error encoding. Is included in the information frame, and the information frame is output. The information frame output from the correction encoding unit 13 is the modulation unit 3
It is modulated by and then output to the power line coupling section 4.

In the power line communication device on the receiving side, the error correction decoding unit 12 inputs an information frame from the power line combining unit 4 via the demodulation unit 6, and performs error correction coding processing based on the data in this information frame. It is determined whether or not is applied. When the error correction decoding unit 12 determines that the error correction coding process is performed, the error correction decoding unit 12 performs the error correction decoding process on the information frame, and the information frame obtained by this is sent to the error detection unit 7. Output. When the error correction decoding unit 12 determines that the error correction coding process is not performed, the error correction decoding unit 12 outputs the information frame to the error detection unit 7 without performing the error correction decoding process on the information frame. .

In the power line communication device on the transmitting side,
The quality of the data transmission path is determined by the same processing as in the first embodiment. The transmission control unit 9 can determine not only the presence / absence of correction coding according to the quality of the data transmission path but also the coding rate of the error correction processing, the type of code, etc. as the transmission parameters. The correction encoding unit 13
On the basis of the presence or absence of the determined coding, the determined coding rate and the type of code, the information frame is coded or not coded. The error correction code processing is performed, and further data indicating the presence / absence of error coding, the coding rate, and the type of code is included in the information frame, and this information frame is output to the modulator 3. In the power line communication device on the receiving side, when the error correction decoding unit 12 inputs the received information frame, it determines the presence / absence of error correction coding, the coding rate, and the type of code based on the data in this information frame. When the error correction code processing is performed, the error correction decoding processing corresponding to the code rate and the error correction coding of the type is performed on the information frame, and the information frame obtained by this is output.

Thus, for example, when the quality of the data transmission line is good, it is possible to select not to perform encoding, to reduce the encoding rate, or to use an encoding method with a small number of redundant bits. If the quality of the data transmission line is poor, the transmission efficiency is improved by selecting encoding, increasing the encoding rate, or using an encoding method with many redundant bits. It becomes possible.

Regarding the type of error correction code, the same effect can be obtained with any code as long as it is a code such as a BCH code or a Reed-Solomon code that can automatically correct error bits in the decoding process on the receiving side.

[0075]

As described above, according to the present invention, the transmission side stores the transmission result based on the response from the receiving side for each data transmission, and the data is transmitted by using the result. We know the quality of the road accurately. By this means, it is possible to select a transmission parameter such as an information frame length suitable for the quality of the data transmission path, so that the frequency of retransmissions is reduced and the transmission efficiency is improved.

[Brief description of drawings]

FIG. 1 is a block diagram showing a first embodiment of a power line communication device of the present invention.

2 is a diagram illustrating a power line communication device on the transmitting side obtained by extracting necessary components for the transmitting side in the device of FIG. 1 and a receiving side obtained by extracting necessary components for the receiving side of the device of FIG. It is a block diagram showing a power line communication device.

FIG. 3 is a flowchart showing the operation of the power line communication device on the transmission side of FIG.

FIG. 4 is a flowchart showing an operation of the power line communication device on the receiving side in FIG.

FIG. 5 is a block diagram showing Embodiment 2 of the power line communication device of the present invention.

[Explanation of symbols]

1 frame component 2 Error detection code addition section 3 Modulator 4 Power line connection 5 No-response judgment section 6 Demodulator 7 Error detector 8 Received content analysis unit 9 Transmission control unit 10 Transmission result storage section 11 Transmission line status determination unit 12 Error correction decoder 13 Error correction coding unit 100 sender device 200 Receiver device 300 power lines

─────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-63-40423 (JP, A) JP-A-2-281835 (JP, A) JP-A-9-160851 (JP, A) (58) Field (Int.Cl. ⁷ , DB name) H04L 1/00

Claims (4)

(57) [Claims] 1. A communication means for transmitting and receiving data through an electric power line, an error detecting means for detecting an error in received data, and a transmission result for storing and accumulating a transmission result for each communication partner when transmitting data. Storage means, a transmission path state analysis means for determining the quality of the power line as a data transmission path using the transmission result, and a transmission based on the quality of the data transmission path determined by the transmission path state analysis means Transmission parameter determining means for determining a transmission parameter including at least one of a data frame length and a maximum number of consecutive frames that can be transmitted at one time, and a transmission data frame is generated with reference to the transmission parameter. Frame generation means, error detection code generation / addition means for adding an error detection code to the frame, and a response from the receiving side to the data transmission. And a no-response determination means for detecting that no transmission imaging for each transmission, that is stored in the transmission result storage means
The type of result is that the transmitted data was transmitted to the receiving side without error.
Information indicating that there was an error in the transmitted data,
Or information indicating the degree of error and from the receiving side
There was an error in the response data of the
Information indicating the degree of existence and the receiving side for data transmission
It is information indicating that there is no response from the transmission result storage means stored in the transmission result storage means.
Are assigned to respective predetermined points, and the transmission path state analysis means records in the transmission result storage means.
Uses the above-mentioned points corresponding to the remembered past transmission results
And perform calculation, and data transmission based on the result of the calculation
A power line communication device characterized by determining the quality of a road . 2. Communication for transmitting and receiving data through a power line
Means, an error detection means for detecting an error in the received data, and a storage of the transmission result for each communication partner during data transmission.
A transmission result storage means for accumulating and a data transmission path of the power line using the transmission result
And a data transmission determined by the transmission path state analysis means.
Based on the quality of the path, the frame length of the transmitted data, and
Of the maximum number of consecutive frames that can be
Transmission parameters for determining transmission parameters including at least one
Data transmission means by referring to the data determining means and the transmission parameters.
Frame generation means for generating and an error detection code generator for adding an error detection code to the frame
Detects that there is no response from the receiving side to the data forming means and data transmission
No response determination and means, encoding means for performing error correction coding on transmission data, further comprising a decoding means for decoding the received data subjected to error correction coding, transmission parameter determined by said parameter determining means for but the presence of coding in the coding means, the type of code comprises at least one of a coding rate, transmission imaging for each transmission, that is stored in the transmission result storage means
The type of result is that the transmitted data was transmitted to the receiving side without error.
Information indicating that there was an error in the transmitted data,
Or information indicating the degree of error and from the receiving side
There was an error in the response data of the
Information indicating the degree of existence and the receiving side for data transmission
It is information indicating that there is no response from the transmission result storage means stored in the transmission result storage means.
Are assigned to respective predetermined points, and the transmission path state analysis means records in the transmission result storage means.
Uses the above-mentioned points corresponding to the remembered past transmission results
And perform calculation, and data transmission based on the result of the calculation
A power line communication device characterized by determining the quality of a road . Wherein computation by said channel state analysis unit, or claim 1 characterized in that it is a calculation for obtaining the average number per unit transmission from each number corresponding to a plurality of past transmission results power line communication apparatus according to 2. 4. The calculation by the transmission path state analyzing means is a weighted average calculation in which weighting is performed according to an elapsed time after transmission, and the weight is larger as the point corresponding to a new transmission result in time. Claims characterized in that
The power line communication device according to 1 or 2 .