TH29622B - Optimization of back and forth transmission delay of multiplex speech channels. - Google Patents

Abstract

DC60 The data group is transmitted in forward and reverse direction through the Multiplex communication medium in which each of these data groups is related to A corresponding connection of a number of interfaces. for each part connect that The transmission is carried out by setting a pass delay limit. Forward and reverse transmission delay limits are corresponding, in which the sum of the forward and reverse transmission delay limits is equal to the transmission delay limit. Go and back for this interface. The forward transmission delay limit set by this grant is used to determine the rank in which the data segments supplied by a number of interfaces will be transmitted in the forward direction. similarly The transmission delay limit is applied. This assignment reverses to determine the rank in which the data bundles supplied by a number of interfaces will be transmitted in the reverse direction. One aspect will bring success. Determination of forward and reverse transmission delay limits by maintaining Forward and reverse transmission lists of interface identity indicators, for example, in increasing rank based on the time of establishment of interfaces in the forward direction. and in descending order based on the time of establishment of the connector in the reverse direction. in another form It determines the pass order by sorting the incoming data group at the time of the corresponding interface identifier, in which it selects the forward and reverse pass ordering rules. in such a way that The sum of the limits Transmission delay in the forward direction and transmission delay limit in the reverse direction is less than or equal to the pass-through delay boundary for each interface. The data group is transmitted in forward and reverse direction through the Multiplex communication medium in which each of these data groups is related to A corresponding connection of a number of interfaces. for each part connect that Transmission is carried out by setting a pass delay limit. Forward and reverse transmission delay limits are corresponding, in which the sum of the forward and reverse transmission delay limits is equal to the transmission delay limit. Go and back for this interface. This conferred forward delay limit is used to determine the rank in which the data segments supplied by a number of interfaces will be transmitted in the forward direction. similarly The transmission delay limit is applied. This assignment reverses to determine the rank in which the data bundles supplied by a number of interfaces will be transmitted in the reverse direction. One aspect will bring success. Determination of forward and reverse transmission delay limits by maintaining Forward and reverse pass-through lists of interface identity indicators, for example, in incremental rank based on the time of the interface establishment in the forward direction. and in descending order based on the time of establishment of the connector in the reverse direction. in another form It determines the rank of the transmission by sorting the incoming data group at the time of the corresponding interface identifier, in which it selects the rules, sorting the forward sequencing and back in such a way that The sum of the limits Transmission delay in the forward direction and transmission delay limit in the reverse direction is less than or equal to the pass-through delay boundary for each interface.

Claims (6)

1. Methodology of transmitting a group of data in forward and reverse directions. It is through a multiplex communication medium in which each of these data groups is connected to the corresponding interface of a number of interfaces. This method includes the steps of Assigning forward transmission delay limits and forwarding limits The corresponding reverse transmission delay for each interface is that the sum of the forward and reverse transmission delay limits is less than or equal to the transmission delay. Go through and back at the boundary for this interface. Using that forward-delivered delay limit to determine The rank in which the data bundles supplied by a certain number of interfaces are sent in the direction. The forward path and the use of the forward pass delay limit are assigned. to determine the rank of the data group supplied by a number of interfaces; will be sent in the reverse direction. Delay limit Passing forward dforward will be in range. dmin is less than dforward <- dmax, where d min is the preset minimum multiplex delay and d max is the preset maximum multiplex delay, and for each interface that connection Delay limit Corresponding reverse transmission d backward is defined as a value corresponding to d backward <-dmax <- dforward 3. Claim Method 1, in which the boundary of the pass-through delay is equal for connection Each segment is connected 4. Methodology of transmitting a group of data in forward and reverse directions. through a multiplex communication medium In which each data group is associated with a corresponding interface of a number of interfaces, this method consists of steps of Preparing the multiplex list in the forward direction Preparing the multiplex list in reverse direction When the connection was established insert an indicator Corresponding interface identity at the first position in the list, multiplexing in the forward direction, and inserting the corresponding connector identity at the second position in the forward-direction multiplexing list. The multiplex in reverse direction, where the distance of the first position from the header The multiplex entry in the forward direction is less than or equal to the distance of the position. Two from the back of the multiplex list in reverse direction. for in the forward direction Send incoming data bundles that are paid out. from a number of connections in the ranks determined by the multiplex list in the forward direction and for the reverse direction Sending incoming data bundles that are paid from a number of connectors in the order determined by the multiplex list in the reverse direction 5. Methodology of claim clause 4, where the first position is the header of the multiplex list in the forward direction; and the second position is the footer 6. The methodology of Claim Item 4, which continues with the procedure of Waiting until the first data group becomes available. If the data group which one should be sent in At that time it was not available. while data groups from other connections are available. for forward direction Jump over the first data group and send the next data group as follows. Determined by the multiplex list in the forward direction if one data group that should be sent at that time is not available, while data groups from other connections are available. Claim 7. The step of jumping over the first data group and sending the next data group as determined by the forward multiplexing list also consists of the next step of the multiplexing. Sending the first group of data After sending the next group of data as follows is defined by the list of multiplexing in the forward direction. Sending the next undelivered data group as determined by the multiplicative list. Plex in the forward direction After the transmission of the first data group 1 0. Methodology of forward and reverse transmission of the data group. through a multiplex communication medium, which each of these data groups will has been associated with one of the corresponding connections of the weld per number This methodology will consist of the steps of For in the forward direction Make a sort order for the data that comes in. The characteristics correspond to the first ordering rule. which is based on the identifier connection of corresponding connectors and transmitting these incoming data segments in a forward direction in a rank based on a sequence step in the forward direction, and in that reverse direction sorting the incoming data group The characteristics correspond to the second ordering rule. which is based on the identifier connection of corresponding connectors and sending these incoming data segments in a reverse direction in a rank based on a reverse sequencing procedure. The first and second rule sorting rules are selected in such a way that The sum of the forward transmission delay limit and the forward transmission delay limit. The reverse is less than or equal to the pass-through delay scope for each connection. Connection 1. in the increasing rank and the second rank ordering rule is the declining order 1 and forward direction transmission consists of steps of Inserting the incoming data group into the buffer so that this buffer Containing all incoming data groups, the buffered contents are sorted. in increasing ranks; and incoming packets from the header buffer in an incremental order 1. 3. Claim Article 10 Methodology The sorting and forwarding procedure consists of the steps of Insertion of connector identifiers associated with the input group. arrives into the buffer, so that this buffer contains all interface identifiers associated with the incoming data group, where the contents of this buffer are arranged in incremental order. and send these data groups. which arrived in the rank determined by the rank of Interface identity indicators in this buffer 1 4. The machine succeeds for sending a group of data in forward and reverse directions. back through multiplex communication mediums in which each data group will be associated with one corresponding interface of a number of interfaces which this finished machine will consist of. Method for setting forward transmission delay limit and define a forward and reverse transmission delay limit for each junction, such that the sum of these forward and reverse transmission delay limits is equal to the round and reverse transmission delay limits for the junction. The method for using this given forward transmission delay limit is to determine the rank in which this bundle, supplied by a number of interfaces, will be sent in the forward direction; and a method for using this stipulated reverse transmission limit to determine the rank at which this packet being paid by a number of interfaces will be transmitted in the reverse direction 1 5 .The completed machine of Claim 14, which, for each interface, connects The dforward pass-forward delay limit is in the dmin <-dforward <-dmax range, where dmin is the predefined minimum multiplexing delay and dmax is the multiplexing delay. The maximum value is pre-set, and for each of these interfaces Delay limit Corresponding reverse pass d backward is defined as a value corresponding to dbackward <- d max - dforward 1 6. Completion of clause 14 in which the transmission delay scope Passes and turns are equal for each interface. Connectivity 1. 7.The terminal is capable of transmitting data segments in forward and reverse directions through multiplex communication mediums. each data group will be associated with one of the corresponding interfaces of a number of interfaces which this finished machine includes. Multiplex list in forward direction The multiplex entry in the reverse direction, which corresponds to the interface that has been established for insertion. Inserts the corresponding interface identifier at one position in the multi list. Plex in the forward direction and inserting corresponding connector identifiers at the second position in the multiplex list in the reverse direction, where the distance of the first position from the heading of the multiplexing list in the forward direction Will the front be less? equal to the distance of the second position from the back of the multiplex list in the reverse direction. for in the forward direction Method for sending incoming data segments which is supplied from a number of connectors in the rankings determined by the list of Multiplexes in the forward direction and for the reverse direction , the path for transmitting incoming packets supplied from a number of interfaces. The rank is determined by the multiplex entry in the reverse direction 1. 8. Methodology of Claim Article 17, where the first position is the header of the multiplex list in the forward direction and the second position is the section. end of the multiplex entry in the reverse direction 1 9. The completion of Claim 17, which is further incorporated, the path which responds to the non-availability of the first data group which should be sent at that moment, while the data pool from other connections is available for pending. Until this first data group becomes available data group 2 0. The machine completed in Claim 17, which continues to be included as well. For the forward direction, the path, which responds to the condition, is not available. of the first data group which should be sent at that moment, for skipping the group First data and group submissions available to groups. Next, as determined by the multiplex entry in the forward direction 2. 1. The accomplishment of Claim Article 20, the method for jumping over the first group of data. and sending the next available data group, as determined by the multiplexing list. Methods for sending one packet after sending the next packet. Goes to be determined by a list of multiplexing forward 2. 2. The finished device of Claim 21, which is further assembled. The path for sending the next unsent data group can be determined by Multiplex list in forward direction After sending this first group of data 2 3. A ready machine for transmitting packets in forward and reverse directions through multiplexed communication mediums, in which each of these packets are bound to one of the corresponding interfaces of a number of interfaces, which this prefabricated machine will consist of For the forward direction, the way for the sorting of groups of data. Enter in a manner consistent with the first ordering rules. which is based on the protagonist Connection interface of corresponding interfaces and for sending these incoming data groups in Forward direction in the order based on the sequence operations in the forward direction and for the reverse direction. Methods for sorting data groups Arrived in a manner consistent with the second sequencing rule. which is based on the viewer The connection identity of the corresponding interface and for sending these incoming data groups In the reverse direction in a rank based on the reverse ordering operation in which the first and second reed sorting rules in such a way do Gives the sum of the forward-direction transmission delay limit and the forward-deceleration limit. The transmission in the reverse direction is less than or equal to the forward and reverse transmission delay limits for each connection 2. 4. The completion machine of claim 23, in which the first ascending rule is the ordering rule of increasing and the second ordering rule is the descending ordering rule. less 2 5. Completion of Claim Article 23, which method for sequencing and the forward direction includes The method for inserting the incoming data block into the buffer so that this buffer will contain all the incoming data groups. where buffer content will be ranked in increasing order ; and a method for sending incoming packets from the header buffer in increments of 2. 6. The completion of Claim Article 23, which the method for organizing The sequential and forward direction includes a path for insertion of interface identifiers associated with a The incoming data pool is inserted into the buffer so that this buffer will be populated with the identity indicator. All connections associated with the data group. which is reached where the content of the buffer is arranged in an increasing order of rank ; and a method for delivering these data groups which arrive in the given ranks. by the rank of the interface identity indicator in this buffer.