JP3709730B2 - Data relay apparatus and data relay method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a data relay device and a data relay method.
[0002]
[Prior art]
FIG. 12 is a system configuration diagram showing each component of a conventional home bus system disclosed in, for example, Japanese Patent Laid-Open No. 7-67186.
In FIG. 12, 101 is a home bus device such as a television, a telephone, and a personal computer, 102 is a home bus control channel, 103 is a home bus controller for controlling the operation of the home bus device 101 via the home bus control channel 102, 104 Is a home bus system setting unit for setting system information in the home bus controller 103, and 108A is a connector for connecting the home bus system 104 and the home bus control channel.
FIG. 13 is a block diagram showing the internal configuration of the home bus system setting unit 104. In FIG. 13, reference numeral 105 denotes a data storage unit 106 that includes a memory 105A and a battery 105B, and stores setting data related to system information. Is a display unit for displaying operating status, system information, setting data, and the like, 107 is for controlling the data storage unit 105 and the display unit 106, and storing setting data edited by a personal computer in the data storage unit 105 when offline. The control unit sets system information based on the setting data stored in the data storage unit 105 when online. A home bus interface unit 108 connects the home bus system setting unit 104 and the home bus control channel 102, and is connected to the home bus control channel 102 by a connector 108A. A personal computer interface unit 109 such as RS-232C is connected to a personal computer or the like by a connector 109A.
[0003]
Next, the operation will be described. First, the home bus system setting unit 104 is connected to a personal computer via the personal computer interface unit 109, and system information and setting data edited and created by the personal computer are stored in the memory 105A of the data storage unit 105 in the home bus system setting unit 104. accumulate. This system information is stored by the internal battery 105B up to the setting site.
At the site where system information and setting data are set by the home bus system setting unit 104, the home bus system setting unit 104 is connected to the home bus control channel 102, and the system information is loaded into the internal memory of the home bus controller 103. The home bus controller 103 controls the home bus device 101 according to the loaded system information, and controls communication between the home bus control channel 102 and the outside.
[0004]
[Problems to be solved by the invention]
In a conventional data relay device such as a home bus controller, since system information is only set in advance, it has not been possible to transmit appropriate data according to the situation such as the state of the transmission path. For example, there has been a request to externally transmit data that requires a wide bandwidth such as a moving image to a device connected to the home bus control channel 102. If the remaining bandwidth is insufficient due to the above, it has been necessary to give up transmission of the moving image data or wait until the bandwidth becomes available. In other words, if the transmission bandwidth cannot be transmitted reflecting the remaining bandwidth of the transmission path, data priority, service quality, etc. and the transmission capacity is exceeded, there is a problem that data is lost or data transfer becomes impossible. there were.
[0005]
The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a data relay apparatus that can perform efficient transmission according to the situation.
[0006]
[Means for Solving the Problems]
  The data relay apparatus according to the present invention includes a transmission path monitoring means for monitoring the state of the first transmission path to which the transmission destination terminal is connected, and data input from the second transmission path to which the transmission source terminal is connected. Input data processing means for processing based on the monitoring result of the transmission path monitoring means, notification means for notifying the destination terminal of notification information based on the data processing state in the input data processing means and the monitoring result of the transmission path monitoring means; Is provided.
[0007]
The transmission line monitoring means monitors the state of the terminal connected to the first transmission line.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
FIG. 1 is a block diagram showing an embodiment of a data relay apparatus according to the present invention. In FIG. 1, reference numeral 1 is a transmission line monitoring means for monitoring the state of the first transmission line 20, and 2 is an input for processing input data from the second transmission line 21 based on the monitoring result by the transmission line monitoring means 1. Data processing means 3 is a notification means for notifying the terminal devices 10 to 13 of the processing method processed by the input data processing means 2.
[0019]
The operation will be described below with reference to the flowchart shown in FIG. In FIG. 2, step S1 shows the operation of the transmission line monitoring means 1. The transmission line monitoring unit 1 monitors the bandwidth used in the first transmission line 20 (step S11). The band used in the first transmission line 20 here is a band used between terminals connected to the second transmission line 21. Then, the input data processing means 2 is notified of the information on how much remaining bandwidth is available in the first transmission path 20 as a monitoring result (step S12). For example, when the terminal apparatus 12 and the terminal apparatus 13 communicate with each other using the first transmission path 20 and 70 Kbps is used for the entire usable bandwidth 100 Kbps of the first transmission path 20, use The input data processing means 2 is notified of the monitoring result that the remaining possible bandwidth is 30 Kbps.
[0020]
Then, the input data processing means 2 operates based on the monitoring result by the transmission line monitoring means 1. In FIG. 2, step S2 shows the operation of the input data processing means 2. In the input data processing means 2, all the input data from the second transmission path 21 are converted to the first based on the monitoring result by the transmission path monitoring means 1, that is, the information on the remaining usable bandwidth of the first transmission path 20. It is calculated whether or not there is a remaining band necessary for output to the transmission line 20 (step S21). As a result, the input data processing means 2 determines whether or not transmission is possible (step S22), and transmits data if transmission is possible (step S23). If the transmission is impossible, the data is discarded (step S24), and the notification unit 3 is notified of the discard (step S25).
For example, the input data processing means 2 calculates the result that the input data 60 Kbps cannot be transmitted from the information that the usable bandwidth by the transmission line monitoring means 1 is 30 Kbps. The input data processing unit 2 notifies the notification unit 3 that the input data 60 Kbps has been discarded because the usable bandwidth is 30 Kbps.
[0021]
In FIG. 2, step S3 shows the operation of the notification means 3, and the notification means 3 that has received the information that the data has been discarded from the input data processing means 2 indicates that the data has been discarded. A notification is sent to the terminal, here the source terminal device 10 (step S31). The transmission source terminal device 10 that has received this notification from the notification means 3 may retransmit the data for the usable bandwidth, or may retransmit the data so as to be within the usable bandwidth after being compressed.
For example, the notification means 3 that has received the information that the input data 60 Kbps is discarded because the usable bandwidth is 30 Kbps from the input data processing means 2 notifies this information to the transmission source terminal device 10 of the discarded data. By doing so, it is possible for the transmission source terminal device 10 to perform more appropriate data transmission or the like according to the situation. For example, the transmission source terminal device 10 that has received this notification from the notification means 3 may retransmit the data corresponding to the usable bandwidth of 30 Kbps, or compress the data using 60 Kbps by half and retransmit the data. May be. As a result, some or all of the discarded data can be transmitted, and the data that is discarded many times is not sent unnecessarily, so that efficient data transmission can be performed.
[0022]
As described above, the transmission line monitoring means for monitoring the state of the first transmission line to which the terminal is connected, and the second transmission line to which the terminal is connected based on the monitoring result of the transmission line monitoring means. By comprising input data processing means for processing input data, and notification means for notifying the terminal of notification information based on the data processing state in the input data processing means and the monitoring result of the transmission path monitoring means Since the state of the first transmission path can be notified to the transmission source terminal, the transmission source terminal can take appropriate measures and perform efficient transmission according to the situation.
[0023]
In this embodiment, only two transmission lines, the first transmission line and the second transmission line, are connected to the relay device, but the transmission line on the transmission side (first transmission line) and the transmission on the reception side Even if a plurality of paths (second transmission paths) are connected, the same effect can be obtained.
[0024]
In the present embodiment, the notification unit 3 notifies the transmission source terminal apparatus 10 that the input data has been discarded, but may notify the transmission destination terminal apparatus 11 of the notification. As a result, the destination terminal device that is notified of the discard of the data addressed to itself is instructed to send only the necessary data to the source terminal device or to send the compressed data. Therefore, efficient transmission can be performed.
[0025]
In the present embodiment, all the input data from the second transmission path 21 is output to the first transmission path 20 based on the information on the remaining usable bandwidth of the first transmission path 20. Although the input data processing means 2 performs the process of step S21 to calculate whether the necessary bandwidth remains, the same effect can be obtained even if the transmission line monitoring means 1 performs this process. In this case, the result including the process of step S21 becomes the monitoring result of the transmission path monitoring means 1, and notification information based on the monitoring result and the processing result by the input data processing means 2 indicating whether or not the data is discarded is notified. Means 3 notifies the transmission source terminal device.
[0026]
Moreover, although the transmission source terminal device 10 is directly connected to the second transmission path 21 in the present embodiment, the same effect can be obtained even when connected via another data relay device.
[0027]
Embodiment 2. FIG.
In the present embodiment, a case where means for analyzing input data is provided will be described. FIG. 3 is a block diagram in the case where input data analysis means is provided. In FIG. 3, reference numeral 4 denotes input data analysis means for analyzing data input from the second transmission path 21 to the data relay apparatus. Other parts similar to those in the above embodiment are indicated by the same numbers.
[0028]
The operation will be described below with reference to the flowchart shown in FIG. The data input from the second transmission line 21 to the data relay device is input to the input data analysis unit 4, and the input data analysis unit 4 analyzes the priority indicated in the header of the input data and the analyzed priority. An operation of adding information (tag) to input data is performed.
In FIG. 4, step S4 shows the operation of the input data analysis means 4. In the input data analysis means 4, the input data is temporarily stored in a buffer (not shown) while waiting for priority analysis. The analysis of the priority of the input data is performed with reference to a priority flag indicating the priority of each payload in the header (step S41). Or when the option part in a header is allocated as a priority flag, the part is referred. A priority is determined based on the information of this priority flag, and this priority information is generated as tag information. Then, the tag information is added to the data temporarily stored in the buffer (step S42). Based on the added tag information, the input data processing means 2 is notified of which priority input data uses how much bandwidth of the first transmission path 20 (step S43).
For example, the priority is divided into four stages from 0 to 3, and all usable information of the first transmission path 20 is shown in FIG. 5 from the tag information generated by analyzing the priority flag in the header. If the analysis result that the data of priority 0 occupies 10 Kbps, the data of priority 1 occupies 15 Kbps, the data of priority 2 occupies 5 Kbps, and the data of priority 3 occupies 20 Kbps with respect to the bandwidth of 100 Kbps, this analysis result Is notified to the input data processing means 2.
[0029]
On the other hand, in FIG. 4, step S1 shows the same operation as the operation of the transmission line monitoring means 1 described in the above embodiment. The transmission line monitoring unit 1 monitors the bandwidth used in the first transmission line 20 (step S11). The band used in the first transmission line 20 here is a band used between terminals connected to the second transmission line 21. Then, the input data processing means 2 is notified of the information on how much remaining bandwidth is available in the first transmission path 20 as a monitoring result (step S12). For example, when the terminal device 12 and the terminal device 13 communicate with each other using the first transmission path 20 and 60 Kbps is used for the entire usable bandwidth 100 Kbps of the first transmission path 20, use The input data processing means 2 is notified of the monitoring result that the remaining possible bandwidth is 40 Kbps.
[0030]
Then, the input data processing means 2 operates based on the analysis result by the input data analysis means 4 and the monitoring result by the transmission path monitoring means 1. In FIG. 4, step S2 shows the operation of the input data processing means 2. In the input data processing means 2, the analysis result by the input data analysis means 4, that is, information on how much bandwidth the input data of each priority uses, and the monitoring result by the transmission line monitoring means 1, that is, the first transmission Based on the information of the remaining usable bandwidth of the path 20, the number of input data from the highest priority to the number of input data that falls within the usable bandwidth of the first transmission path 20 is calculated (step S201). ). As a result, the input data processing means 2 refers to the tag added by the input data analysis means 4 to determine whether or not the input data has a priority that can be transmitted (step S202), and the priority that can be transmitted. Is transmitted (step S203), input data having a priority that cannot be transmitted is discarded (step S204), and the notification unit 3 is notified of the discard (step S205).
For example, the input data processing means 2 obtains the analysis result as shown in FIG. 5 by the input data analysis means 4 and the information that the usable bandwidth of the first transmission line 20 is 40 Kbps by the transmission line monitoring means 1. To do. In this case, priority level 0 data 10 Kbps, priority level 1 data 15 Kbps, and priority level 2 data 5 Kbps (total 30 Kbps) can be transmitted, and priority level 3 data 20 Kbps has a remaining usable bandwidth of 10 Kbps. Therefore, the result that transmission is impossible is calculated. In accordance with this calculation result, the input data processing means 2 refers to the tag added by the input data analysis means 4 and transmits data with a priority of 0 to 2 to the transmission destination. Also, the priority 3 data determined to be unsuccessful is discarded, and the priority 3 data 20 Kbps is notified to the notification means 3 because the usable bandwidth is 10 Kbps.
[0031]
In FIG. 4, step S3 shows the operation of the notification means 3, and the notification means 3 that has received the information that the data has been discarded from the input data processing means 2 indicates that the data has been discarded. The terminal 10 is notified (step S31). The transmission source terminal device 10 that has received this notification from the notification means 3 may retransmit the data corresponding to the usable bandwidth, or may retransmit the data so as to be within the usable bandwidth after being compressed. , You may increase the priority and re-send. The above process is repeated for all input data (step S6).
For example, the notification means 3 that has received the information that the usable data band of 10 Kbps is discarded from the input data processing means 2 and the priority 3 data of 20 Kbps has been discarded is sent to the transmission source terminal apparatus 10 of the discarded data. Notice. The transmission source terminal device 10 that has received this notification from the notification means 3 may retransmit the data for the usable bandwidth of 10 Kbps, or may compress the data that uses 20 Kbps by half and retransmit the data. Good. As a result, some or all of the discarded data can be transmitted.
[0032]
As described above, the input data analysis means for analyzing the data input from the second transmission path is provided, and the input data processing means has an analysis result by the input data analysis means and a monitoring result by the transmission path monitoring means. By processing the data input from the second transmission path based on the above, it is possible to notify the transmission source terminal of the usage status of the first transmission path, so that efficient transmission according to the situation is performed. be able to.
[0033]
In this embodiment, only two transmission lines, the first transmission line and the second transmission line, are connected to the relay device, but the transmission line on the transmission side (first transmission line) and the transmission on the reception side Even if a plurality of paths (second transmission paths) are connected, the same effect can be obtained.
[0034]
In the present embodiment, the input data analysis unit 1 creates a tag from the priority indicated in the header. However, the priority information in the header may be directly used without creating a tag. Similar effects can be obtained.
[0035]
In the present embodiment, the notification unit 3 notifies the transmission source terminal device 10 that the input data from the transmission source terminal device 10 has been discarded, but may notify the transmission destination terminal device 11. Good. As a result, the transmission destination terminal device that has recognized that the data addressed to itself is discarded, instructs the transmission source terminal device to send again only the necessary data, or to compress and send the data, By instructing to increase the priority and retransmit, efficient transmission according to the situation can be performed.
[0036]
In this embodiment, the bandwidth is allocated based on the priority. However, the allocation is performed according to a parameter to which a level can be attached, such as an allowable delay time and a data type such as real-time data / non-real-time data. However, the same effect can be obtained.
[0037]
Moreover, although the transmission source terminal device 10 is directly connected to the second transmission path 21 in the present embodiment, the same effect can be obtained even when connected via another data relay device.
[0038]
Embodiment 3 FIG.
In the present embodiment, a case will be described in which transmission path data control means for controlling data in the transmission path is provided based on the analysis result by the input data analysis section and the monitoring result by the transmission path monitoring section. FIG. 6 is a block diagram when the transmission line data control means is provided. In FIG. 6, reference numeral 5 denotes the transmission line data control means. Other parts similar to those in the above embodiment are indicated by the same numbers.
[0039]
The operation will be described below with reference to the flowchart shown in FIG. In FIG. 7, step S1 indicating the operation of the transmission line monitoring unit 1 and step S4 indicating the operation of the input data analysis unit 4 are the same as those in the above embodiment, and thus description thereof is omitted.
In FIG. 7, step S 2 shows the operation of the input data processing means 2. In the input data processing means 2, the analysis result by the input data analysis means 4, that is, information on how much bandwidth the input data of each priority uses, and the monitoring result by the transmission line monitoring means 1, that is, the first transmission On the basis of the information on how much bandwidth each priority data uses on the channel 20 and how much bandwidth can be used, it is already transmitting (terminal connected to the first transmission channel 20). If it is determined that the bandwidth necessary for outputting all input data to the first transmission path 20 is insufficient in addition to data used in communication between devices) It is calculated how many pieces of data from the higher one fall within the entire band of the first transmission path 20 (step S211).
Based on this result, the input data processing means 2 performs the following individual processes on the data already transmitted and all the input data. For example, it is first determined whether or not certain data is data with a priority that can be transmitted (step S212). If the data is a priority data that can be transmitted (Yes in step S212), it is determined whether the data is already being transmitted or input data (step S213). If the data is already being transmitted (in step S213). (Data being transmitted) is not processed as it is (that is, data transmission between the terminal devices is continued), and if it is input data (input data in step S213), the input data is transmitted to the destination terminal device 11. (Step S214).
If it is determined in step S212 that the data is not priority data that can be transmitted (No in step S212), it is determined in step S215 whether the data is already transmitted or input data. If the data is already being transmitted (data being transmitted in step S215), the data control means 5 in the transmission path is notified that the data transmission is to be stopped (step S216), and if it is input data (input in step S215). Data) discards the input data (step S217), and notifies the notification means 3 that the input data has been discarded (step S218).
For example, the analysis result as shown in FIG. 5 by the input data analysis means 4 and the monitoring result as shown in FIG. 8 by the transmission line monitoring means 1 are obtained. Based on these data, the input data processing means 2 has priority 0 data 30 Kbps (input data 10 Kbps, transmitting data 20 Kbps), priority 1 data 40 Kbps (input data 15 Kbps, transmitting data 25 Kbps), priority 2 data 25 Kbps. (Input data 5 Kbps, transmitting data 20 Kbps) can be transmitted, and priority 3 data 30 Kbps (input data 20 Kbps, transmitting data 10 Kbps) cannot be transmitted. In accordance with this calculation result, the input data processing means 2 does not do anything with the data being transmitted out of the data with the priorities 0 to 2 (that is, the data transmission between the terminal devices is continued). Of the two data, the input data is transmitted to the destination terminal device 11. In addition, for the data being transmitted among the data of priority 3, the transmission line data control means 5 is notified that the data transmission is to be stopped.
In FIG. 7, step S5 shows the operation of the transmission line data control means 5, and the transmission line data control means 5 notified by the input data processing means 2 that the data transmission is stopped is transmitted. Is canceled (step S51).
For example, since the usable bandwidth is 5 Kbps in the above-described example, the data control unit 5 in the transmission path notified from the input data processing unit 2 that the data transmission is stopped for the data of 10 Kbps with priority 3 being transmitted, Control to stop data transmission of the notified contents.
[0040]
On the other hand, the input data of the data of priority 3 is discarded, and the notification means 3 is notified that the data has been discarded.
In FIG. 7, step S3 shows the operation of the notifying means 3, and the notifying means 3 that has received the information that the data has been discarded from the input data processing means 2 is the source terminal device of the data that has been discarded. 10 (step S31). The transmission source terminal device 10 that has received this notification from the notification means 3 may retransmit the data for the usable bandwidth, or may retransmit the data so as to be within the usable bandwidth after being compressed.
For example, since the usable bandwidth is 5 Kbps, the notification means 3 that has received the information that the priority 3 data 20 Kbps has been discarded from the input data processing means 2 is the source terminal device 10 of the discarded data. To notify. The transmission source terminal device 10 that has received this notification from the notification means 3 may retransmit the data corresponding to the usable bandwidth of 5 Kbps, or may compress the data using 20 Kbps to 1/4 and retransmit the data. It is also possible to increase the priority and send it again. As a result, some or all of the discarded data can be transmitted.
The above processing is repeated for all data and input data that are already being transmitted (step S6). In this way, regardless of whether the data is being transmitted or input, bandwidth can be preferentially allocated to high priority data, and the limited bandwidth can be used efficiently. .
[0041]
As described above, by providing the transmission line data control means for controlling the data in the first transmission line based on the analysis result by the input data analysis means and the monitoring result by the transmission line monitoring means, Since data that is already being transmitted in the path can also be controlled, it is possible to allocate a limited band to high priority data regardless of whether the data is being transmitted or input data.
[0042]
In this embodiment, only two transmission lines, the first transmission line and the second transmission line, are connected to the relay device, but the transmission line on the transmission side (first transmission line) and the transmission on the reception side Even if a plurality of paths (second transmission paths) are connected, the same effect can be obtained.
[0043]
In this embodiment, the transmission line data control unit 5 stops the corresponding data transmission and ends, but the terminal device whose transmission is stopped by the transmission line data control unit 5 is used. Data corresponding to the possible bandwidth may be sent again, may be sent again so as to be within the usable bandwidth after being compressed, or may be sent again with a higher priority.
[0044]
In the present embodiment, the notification unit 3 notifies the transmission source terminal device 10 that the input data from the transmission source terminal device 10 has been discarded, but may notify the transmission destination terminal device 11. Good. As a result, the destination terminal device 11 that has been notified of discarding instructs the source terminal device 10 to send only the necessary data, or compresses and sends the data, or increases the priority. By instructing re-transmission, efficient transmission according to the situation can be performed.
[0045]
In this embodiment, the bandwidth is allocated based on the priority. However, the allocation is performed according to a parameter to which a level can be attached, such as an allowable delay time and a data type such as real-time data / non-real-time data. Even so, efficient transmission can be performed.
[0046]
Moreover, although the transmission source terminal device 10 is directly connected to the second transmission path 21 in the present embodiment, the same effect can be obtained even when connected via another data relay device.
[0047]
Embodiment 4 FIG.
In the above embodiment, the case where the control method notification unit 4 notifies the terminal of the control method controlled by the transmission control unit 3 has been described. However, in the present embodiment, the control method notified by the control method notification unit 4 is described. A case where the transmission method is controlled based on a response from the terminal will be described.
[0048]
The operation will be described below with reference to the flowchart shown in FIG. In FIG. 9, step S1 indicating the operation of the transmission line monitoring unit 1 and step S4 indicating the operation of the input data analyzing unit 4 are the same as those in the above embodiment.
In FIG. 9, step S 2 shows the operation of the input data processing means 2. In the input data processing means 2, information on the remaining usable bandwidth of the transmission path by the transmission path monitoring means 1, information on how much bandwidth the input data of each priority uses by the input data analysis means 4, and Based on the above, it is calculated how many pieces of data from the highest priority are within the usable bandwidth of the transmission line (step S221). Then, the calculation result is notified to the notification means 3 (step S222).
For example, the input data processing means 2 obtains the analysis result as shown in FIG. 5 by the input data analysis means 4 and the information that the usable bandwidth of the first transmission line 20 is 40 Kbps by the transmission line monitoring means 1. To do. In this case, priority level 0 data 10 Kbps, priority level 1 data 15 Kbps and priority level 2 data 5 Kbps (total 30 Kbps) can be transmitted, and priority level 3 data 20 Kbps has a remaining usable bandwidth of 10 Kbps. Therefore, the result that transmission is impossible is calculated. Then, the calculation result is notified to the notification means 3.
[0049]
In FIG. 9, step S3 shows the operation of the notifying means 3, and the notifying means 3 that has received the calculation result from the input data processing means 2 sends it to the transmission source terminal device 10 of the data calculated that transmission is impossible. This is notified (step S301). Upon receiving this notification, the transmission source terminal device 10 instructs the input data processing means 2 to transmit data corresponding to the usable bandwidth, or re-sends the compressed data so that it falls within the usable bandwidth. When a notification is sent, a request for the processing method is returned, and the request is waited (step S302). If the input data processing means 2 does not accept the request from the transmission source terminal device 10 and the processing method has not been determined (No in step S303), the transmission source terminal device 10 is notified again and the transmission source terminal is notified again. Wait for a request from the device 10. When the input data processing unit 2 accepts the request from the transmission source terminal device 10 and the processing method is determined (Yes in step S303), the input data processing unit 2 transmits the data previously calculated that transmission is possible, The data calculated that transmission is impossible is processed according to the processing method determined by negotiation (step S304).
For example, the notification means 3 that has received information that the data 20 Kbp of priority 3 is not transmittable because the usable bandwidth is 10 Kbps from the input data processing means 2 is calculated to be unable to transmit this information. This is notified to the data transmission source terminal device 10. The transmission source terminal device 10 that has received this notification from the notification means 3 instructs to transmit data corresponding to the usable bandwidth of 10 Kbps, or re-sends data that occupies 20 Kbps by half and resends it. Notifications and requests for processing methods. After such negotiation (this negotiation can be performed any number of times), if it is determined that the processing method is to compress the data to 1/2 and resend the data, the input data processing means 2 can transmit first. The calculated data is transmitted, the data calculated to be impossible to transmit is discarded, and the data that has been compressed to ½ and retransmitted is transmitted.
[0050]
As described above, the input data processing means determines the input data processing method by negotiating with the terminal by processing the input data based on the response from the terminal to the notification information notified by the notification means. Therefore, efficient transmission according to the situation can be performed.
[0051]
In the present embodiment, after the input data processing means 2 negotiates the processing method with the transmission source terminal device 10, all the data (data previously calculated to be transmittable and data determined by the negotiation) Is transmitted, but the data calculated to be transmittable by the input data processing means 2 is transmitted, then the data calculated to be impossible to transmit is negotiated, and then the data is transmitted based on the negotiation result You may do it.
[0052]
In this embodiment, the input data processing unit 2 negotiates with the transmission source terminal device 10 before discarding the data calculated that transmission is impossible. However, the input data processing unit 2 calculates that transmission is impossible. The same effect can be obtained by negotiating with the transmission source terminal device 10 after the discarded data is discarded and the notification means 3 notifies the transmission source terminal device 10 and then the data is compressed and resent. be able to.
[0053]
In this embodiment, the input data processing means 2 negotiates with the transmission source terminal device 10 to determine the processing method. However, it is efficient to negotiate with the transmission destination terminal device 11. Transmission can be performed.
For example, after negotiation with the transmission source terminal device 10, the input data processing means 2 decides to compress and transmit the data (or the transmission source terminal device 10 tries to transmit data in a compressed format from the beginning), and notifies It is assumed that the destination terminal apparatus 11 is notified to that effect via the means 3. However, since the destination terminal device 11 does not support the compression format, the destination terminal device 11 negotiates with the input data processing means 2 to transmit data in a format that is not compressed. The transmission source terminal device notified of the negotiation result transmits data in a format that is not compressed. In this way, the processing method can be determined in consideration of the situation of the destination terminal device, so that efficient transmission can be performed.
[0054]
In addition, by using the data compression function in the relay device or in a device separate from the relay device, notification is made as to whether or not the data calculated by the input data processing means 2 as non-transmittable can be compressed and transmitted. By negotiating between the means 3 and the terminal (transmission source terminal device, transmission destination terminal device) and transmitting data, efficient transmission can be performed. Alternatively, only the notification may be sent to the terminal, and the data may be transmitted without obtaining consent.
[0055]
Further, if the state of the terminal connected to the transmission line is monitored and the input data processing means 2 processes the input data in consideration of the monitoring result, more efficient transmission can be performed.
For example, by knowing the monitoring result by the transmission path monitoring means 1 such as what compression function the destination terminal device 11 supports, negotiate the data calculated by the input data processing means 2 as impossible to transmit. Therefore, the transmission can be performed with the compression function supported by the destination terminal device 11 without performing the transmission, so that more efficient transmission can be performed in consideration of the state of the terminal connected to the transmission path.
[0056]
Further, even if the transmission line data control means for controlling the data in the transmission line based on the analysis result by the input data analysis means and the monitoring result by the transmission line monitoring means is provided, efficient transmission can be performed. it can.
[0057]
Moreover, although the transmission source terminal device 10 is directly connected to the second transmission path 21 in the present embodiment, the same effect can be obtained even when connected via another data relay device.
[0058]
Embodiment 5. FIG.
In the above embodiment, the case where the bandwidth to be secured is calculated based on the received data and the data is transmitted has been described. However, the bandwidth management means 6 for managing the bandwidth of the transmission path is provided, and the bandwidth management means 6 transmits the data. A case where actual data is transmitted after securing a bandwidth for data to be described will be described with reference to FIG. In FIG. 10, 6 is a bandwidth management means provided in the input data analysis means. Other parts similar to those in the above embodiment are indicated by the same numbers.
[0059]
The operation will be described below with reference to the flowchart shown in FIG. For example, when the usable bandwidths of the real-time data transfer mode and the non-real-time data transfer mode are determined as in the IEEE 1394 bus, the input data analysis unit 4 uses the information from the bandwidth management unit 6 as a basis. Then, how much bandwidth is requested by a plurality of types of real-time data is calculated (step S401), and the input data analysis unit 4 notifies the input data processing unit 2 of the calculation result (step S402). For example, the input data analysis unit 4 calculates that there is real-time data requesting a bandwidth of 25 Kbps, 15 Kbps, and 10 Kbps, and notifies the input data processing unit 2 of these values.
[0060]
The transmission line monitoring unit 1 monitors the band used in the first transmission line 20 (step S101), and inputs information on how much remaining band can be transmitted in the real-time data transfer mode. The data processing means 2 is notified (step S102). For example, assume that the usable bandwidth in the real-time data transfer mode is 50 Kbps, and of these, 10 Kbps is already used in the real-time data transfer mode. In this case, since 40 Kbps can be transmitted in the real-time data transfer mode, the value is notified to the input data processing means 2.
[0061]
Then, the input data processing means 2 compares the bandwidth requested in the real-time data transfer mode with the remaining usable bandwidth based on the analysis result by the input data analysis means 4 and the monitoring result by the transmission path monitoring means 1. (Step S231). As a result of comparison, if the requested bandwidth is smaller than the remaining bandwidth (No in step S232), all the bandwidths are secured (step S233), and if the requested bandwidth is greater than the remaining bandwidth (step S232). Yes), which request among the requested real-time data cannot be transmitted is calculated (step S234), and the calculation result is notified to the notification means 3 (step S235). For example, as described above, the input data processing means 2 compares and compares the information that the bandwidth required in the real-time data transfer mode is 25 Kbps, 15 Kbps, and 10 Kbps with the information that the usable bandwidth is 40 Kbps. As a result, for example, based on whether or not the available bandwidth can be used most efficiently, it is calculated that real-time data requesting a bandwidth of 10 Kbps cannot be transmitted, and the calculation result is notified to the notification means 3. .
[0062]
The notifying unit 3 that has received the calculation result from the input data processing unit 2 may transmit the real-time data in the non-real-time data transfer mode to the transmission source terminal device 10 that is the request source terminal of the bandwidth request. Is notified (step S311). When receiving the notification from the notification unit 3 and determining that the transmission source terminal device 10 may transmit in the non-real-time transfer mode (Yes in step S312), the transmission source terminal device 10 notifies the input data processing unit 2 accordingly ( In step S313), the input data processing means 3 receiving this notification transmits the real-time data in the non-real-time data transfer mode (step S314). (At this time, the destination terminal device 11 is also notified that the real-time data is to be transmitted in the non-real-time data transfer mode.) As a result, the real-time data is not processed as non-transmittable (usually The data is transferred to the destination terminal device 11 (the transmission becomes impossible due to insufficient bandwidth). In addition, when the transmission source terminal device 10 needs to transmit the real-time data in the real-time transfer mode and refuses transmission in the non-real-time transfer mode (No in step S312), the input data indicates that The processing means 2 is notified (step S315), and the input data processing means 2 processes the real-time system data as untransmittable (step S316).
As described above, by providing the band management means for managing the transmission band of the first transmission path, the state of the transmission band of the first transmission path can be notified to the terminal, so the efficiency according to the situation Can perform good transmission.
[0063]
In this embodiment, only two transmission lines, the first transmission line and the second transmission line, are connected to the relay device, but the transmission line on the transmission side (first transmission line) and the transmission on the reception side Even if a plurality of paths (second transmission paths) are connected, the same effect can be obtained.
[0064]
In this embodiment, the input data management means has a bandwidth management function. However, the same effect can be obtained even if other means in the relay apparatus or another apparatus other than the relay apparatus has. Obtainable.
[0065]
In the present embodiment, the requested bandwidth is compared with the available bandwidth, and a determination is made as to which bandwidth is to be secured based on the most efficient use of the available bandwidth. However, the same effect can be obtained even if it is determined for which request the bandwidth is secured based on the priority or the like.
[0066]
Similar to the above embodiment, it is possible to notify the transmission source terminal device and the transmission destination terminal device, negotiate with these terminals, or monitor the status of the terminals connected to the transmission path. An effect can be obtained.
[0067]
【The invention's effect】
  According to the data relay device of the present invention, the data is input from the transmission line monitoring means for monitoring the state of the first transmission line to which the transmission destination terminal is connected and the second transmission line to which the transmission source terminal is connected. An input data processing means for processing data based on the monitoring result of the transmission path monitoring means, and a notification for notifying the destination terminal of notification information based on the data processing state in the input data processing means and the monitoring result of the transmission path monitoring means By providing the means, the state of the first transmission path can be notified from the notifying means to the destination terminal, so that efficient transmission according to the situation can be performed.
[0068]
In addition, since the notification unit can notify the destination terminal of the state of the terminal connected to the first transmission path, it is possible to perform efficient transmission according to the situation.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an embodiment of a data relay apparatus according to the present invention.
FIG. 2 is a flowchart showing the operation of the data relay apparatus according to the present invention.
FIG. 3 is a block diagram showing an embodiment of a data relay device according to the present invention.
FIG. 4 is a flowchart showing the operation of the data relay apparatus according to the present invention.
FIG. 5 is a table showing an example of an analysis result by the input data analysis means.
FIG. 6 is a block diagram showing an embodiment of a data relay apparatus according to the present invention.
FIG. 7 is a flowchart showing the operation of the data relay apparatus according to the present invention.
FIG. 8 is a table showing an example of monitoring results by the transmission path monitoring means
FIG. 9 is a flowchart showing the operation of the data relay apparatus according to the present invention.
FIG. 10 is a block diagram showing an embodiment of a data relay apparatus according to the present invention.
FIG. 11 is a flowchart showing the operation of the data relay apparatus according to the present invention.
FIG. 12 is a system configuration diagram showing each component of a conventional home bus system.
FIG. 13 is a block diagram showing an internal configuration of a home bus system setting device
[Explanation of symbols]
1 Transmission line monitoring means
2 Input data processing means
3 Notification means
4 Input data analysis means
5 Data control means in transmission line
6 Band management means
10 Source terminal device
11 Destination terminal device
12, 13 Terminal device
20 First transmission line
21 Second transmission line

Claims (2)

The transmission line monitoring means for monitoring the state of the first transmission line to which the destination terminal is connected and the data input from the second transmission line to which the transmission source terminal is connected are used as the monitoring result of the transmission line monitoring means. Input data processing means for processing based on the data, and notification means for notifying the destination terminal of notification information based on the data processing state in the input data processing means and the monitoring result of the transmission path monitoring means. Characteristic data relay device. 2. The data relay apparatus according to claim 1, wherein the transmission line monitoring unit monitors a state of a terminal connected to the first transmission line.

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