JP2000244544A - Band generator for up transmission information - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently transmit up transmission information as a result by efficiently requesting a band size for up transmission information. SOLUTION: This device is provided in the terminal station of an asymmetric communication system and generates the up transmission information to be sent from a terminal station 12 to a base station H. In this case, the device has a request band size calculating circuit 18 for calculating the request band size for up transmission information to be next requested to the base station 11 during the transmission of the up transmission information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an uplink transmission information band generating apparatus, and more particularly to an uplink transmission information generating apparatus for generating an uplink bandwidth request size value for transmitting uplink information from a terminal station to a base station in an asymmetric communication system. The present invention relates to a transmission information band generation device.

[0002]

2. Description of the Related Art Heretofore, there have been known an upstream band calculation circuit and a buffer memory control circuit for standby for upstream transmission, which are requested by a terminal station to allocate to a base station in asymmetric communication. These circuits, when the terminal side requests the amount of information to be transmitted in the uplink from the base station that is in charge of the determination of the uplink bandwidth allocation, requests an efficient amount of information, and efficiently transmits the uplink. Used to output information.

In such an apparatus for generating a band for uplink transmission information, the amount of information determined by the terminal side and requested to the base station is determined by the amount of uplink band allocation notified by downlink reception information from the base station. It is common not to change it until it receives it.

However, in recent years, it has been required to change the amount of information determined by the terminal side and requested to the base station before receiving the amount of uplink bandwidth allocation notified by the downlink information from the base station.

In a polling system or the like in which a terminal requests transmission permission from a base station, a transmission permission is promptly given to a transmission permission request from a plurality of terminals, and a transmission band is efficiently allocated. Several proposals have been made.

For example, a dynamic time slot allocation system disclosed in Japanese Patent Application Laid-Open No. H10-242981 discloses a method in which a polling system allocates a time slot to a polling waiting buffer and an empty area of the minimum guaranteed polling according to the polling waiting information amount. This is a method of using a shared band control unit to perform efficient use of the upstream band.

[0007]

However, in the conventional dynamic time slot allocation system, the amount of information determined on the terminal side and requested to the base station is determined by the amount of uplink band allocation notified by downlink information from the base station. Until the terminal station receives it, the operation is not sequentially updated, and the operation is to newly request a bandwidth allocation for the next uplink transmission information after receiving the uplink bandwidth allocation.

As a result, a bandwidth size request for efficient uplink transmission information cannot be made, and as a result, uplink transmission information cannot be transmitted efficiently.

An object of the present invention is to provide an uplink transmission information band generation device capable of efficiently requesting a bandwidth size for uplink transmission information and consequently efficiently transmitting uplink transmission information. .

[0010]

In order to achieve the above object, an apparatus for generating a band for uplink transmission information according to the present invention is provided in a terminal station of an asymmetric communication system, and transmits an uplink transmitted from the terminal station to a base station. Requested band size calculating means for calculating a requested band size for the next upstream transmission information to be requested of the base station while transmitting the upstream transmission information in the upstream transmission information band generating apparatus for generating transmission information. It is characterized by having.

[0011] With the above configuration, a requested band size calculating means is provided in a band generating apparatus for uplink transmission information, which is provided in a terminal station of an asymmetric communication system and generates uplink transmission information transmitted from the terminal station to the base station. Calculates the required bandwidth size for the next uplink transmission information to be requested from the base station while transmitting the uplink transmission information. This allows
An efficient bandwidth size request for uplink transmission information is performed, and as a result, uplink transmission information can be transmitted efficiently.

[0012]

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

FIG. 1 is a block diagram showing a schematic configuration of an asymmetric communication system provided with an apparatus for generating a band for uplink transmission information according to an embodiment of the present invention. As shown in FIG. 1, the asymmetric communication system 10 includes a base station 11, a plurality of terminal stations 12 (only three are shown in the figure), and a communication medium 13 connecting each of them.

[0014] The base station 11 transmits, to a communication medium 13, time-division multiplexed downlink transmission information of each of the plurality of terminal stations 12. The transmitted downstream transmission information includes upstream transmission information (UP1, U1) of each terminal station 12.
(P2,..., UPn) are also included. Further, the base station 11 transmits the uplink transmission information from the terminal station 12,
It also has a function of transferring to another base station 11.

The terminal stations 12 extract only information necessary for each terminal station 12 from the downlink transmission information transmitted from the base station 11. When each terminal station 12 transmits uplink transmission information, it requests the base station 11 for the size of the desired uplink transmission information, and communicates the uplink transmission information according to the size of the uplink transmission information arbitrated by the base station 11. The data is sequentially transmitted to the medium 13.

FIG. 2 is a block diagram showing a configuration of a band generating apparatus for uplink transmission information provided in the terminal station shown in FIG.
As shown in FIG. 2, the upstream transmission information band generation device 14 provided in the terminal station 12 (see FIG. 1) includes a transmission data amount controller 15, a memory 16, an upstream transmission standby buffer memory 17, A required bandwidth size calculation circuit 18 for good upstream transmission information is provided.

The upstream transmission information band generation device 14
The terminal station 12 controls transmission information transmission.
A request size value for the upstream band is generated. The transmission data amount controller 15 includes an upstream transmission standby buffer memory control circuit 19.
Having. The transmission data amount controller 15 and the memory 16 are connected via an address bus 20, and the memory 16 and the upstream transmission standby buffer memory 17 are connected via a data bus 21, respectively.

The transmission data amount controller 15 has roughly two functions. One is to take into consideration the write completion data amount L,
Control is performed to transfer and write the upstream transmission information data a from the memory 16. The other is an individual uplink transmission information band size SIZE _{DN n} assigned by the base station 11 to each terminal station 12.
Based on (t), control is performed to read the upstream transmission information UPn from the upstream transmission standby buffer memory 17.

The memory 16 is a storage device for storing the upstream transmission information data a before transferring the upstream transmission information data a to the upstream transmission standby buffer memory 17. The upstream transmission standby buffer memory 17 stores upstream transmission information UPn.
Is a memory that can be read (read) and written (written) at the same time, and is stored before sending it, and uses a built-in buffer memory address in a cyclic manner.

FIG. 3 is a circuit diagram of the required bandwidth size calculation circuit for upstream transmission information of FIG. As shown in FIG. 3, the required bandwidth size calculation circuit 18 for uplink transmission information includes:
Transfer data constant counter 22, latch circuit (first latch circuit) 23, adder (first adder) 24, latch circuit (second latch circuit) 25, adder (second adder) 26,
And a one-packet transfer completion detector 27.

The transfer data constant counter 22 is a memory 1
6 is sequentially measured. The latch circuit 23 detects the transfer data constant counter 2 at the detection timing of the one-packet transfer completion detector 27.
Hold the value of 2.

At the output timing of the transmission completion signal output from the transmission data amount controller 15, the adder 24 subtracts the required transmission band size RSIZ _UPn (t) from the transmission data constant counter value K, The value is set to the initial value of the transfer data constant counter 22. Latch circuit 2
5 is the output timing of the read completion signal (uplink transmission completion signal) b output from the transmission data amount controller 15,
The write completion data amount L of the latch circuit 23 is held.

The adder 26 outputs the read completion signal b output from the transmission data amount controller 15 at the output timing.
After subtracting the required bandwidth size RSIZ _UPn (t) for the upstream transmission information from the write completion data amount L, the value is set in the latch circuit 23. The one-packet transfer completion detector 27
A break in data in the upstream transmission information data a to be transferred from the memory 16 to the upstream transmission standby buffer memory 17 is detected.

FIG. 4 is a flowchart showing a general operation of information exchange performed between the base station and the terminal station in FIG. As shown in FIG. 4, the size of each uplink transmission information band allocated by the base station 11 to each terminal station 12 is SIZE _DNn (t-1).
And the size transmitted from the base station 11 is SI
The downlink transmission information of ZE _DN (t-1) is time-division multiplexed from the base station 11 to each terminal station 12 and transmitted.

Each information size is SIZE.
_UP1 (t), SIZE _UP2 (t) and SIZE
_UPn (t), the upstream transmission information UP1, the upstream transmission information UP2, and the upstream transmission information UPn are sequentially transmitted between the terminal stations 12 and 12 so that the upstream transmission information between the terminal stations 12 does not collide with each other. Sent out.

When the uplink transmission information is transmitted from each terminal station 12, the transmission amount RSIZ _UP1 (t), RSIZ _UP2 (t), and RSIZ _UPn (t) of the next desired uplink transmission information at each terminal station 12 is transmitted. ) Is not the same for each of the terminal stations 12. Therefore, the method of equally allocating the band for transmitting the upstream transmission information to each terminal station 12 is based on the communication medium 13.
Is always inefficient to use.

Therefore, the base station 11 considers the required bandwidth size RSIZ _UPn (t) of the uplink transmission information from each terminal station 12 and considers the bandwidth size SIZE _DN1 (t) of the uplink transmission information suitable for each terminal station 12. , SIZE _DN2 (t), SIZE
There is a method of instructing _DNn (t) to increase the use efficiency of the communication medium 13.

Next, the required bandwidth size calculation circuit 18 (FIG. 3)
An example of the operation according to the present embodiment will be described. Transmission data amount controller 1
According to the instruction 5, the upstream transmission information data a read from the memory 16 is supplied to the upstream transmission standby buffer memory 17 and the required band size calculation circuit 18 for upstream transmission information.

The amount of data SIZE _UPn (t) output from the buffer memory 17 for standby for upstream transmission is the required bandwidth size RSIZ _UPn (t-1) for upstream transmission information previously requested to the destination base station 11. _Is output in accordance with the individual uplink transmission information band size SIZE _DNn (t) assigned by the base station 11 to each terminal station 12.

Here, the requested bandwidth size RSIZ _UPn (t) for the next uplink transmission information is the individual uplink transmission information bandwidth size SIZE _DNn assigned by the base station 11 to each terminal station 12.
It is updated many times until (t) is received.

The terminal station 12 is configured such that the base station 11
The size of each upstream transmission information band allocated to
_It is determined whether or not _DNn (t) has been received. _Unless it is received, the requested bandwidth size RSIZ for the next uplink transmission information is determined.
_The operation of constantly updating _UPn (t) is realized by the required bandwidth size calculation circuit 18 for uplink transmission information.

Next, the operation of the required bandwidth size calculation circuit 18 for upstream transmission information will be described in detail based on the above-described operation outline.

First, the data size of the upstream transmission information data a read from the memory 16 is counted by the transfer data constant counter 22. At this time, the one-packet transfer completion detector 27 notifies the latch circuit 23 that the upstream transmission information data a has counted one packet of data.

As a result, the latch circuit 23 transmits the upstream transmission information data a counted by the transfer data constant counter 22.
Holds the data size of one packet. At this time, if the upstream transmission completion signal b is not output, the latch circuit 23 holds the total of the data sizes of the plurality of packets.

Next, the transmission data amount controller 15 notifies the latch circuit 25 using the uplink transmission completion signal b that the uplink transmission standby buffer memory 17 has completed the uplink transmission information UPn.

In response to this notification, the latch circuit 25 sets the data held in the latch circuit 23, that is, the write completion data amount L
And the requested bandwidth size RSIZ for the next uplink transmission information
_UPn (t).

Similarly, at the output timing of the upstream transmission completion signal b, the adder 24 subtracts the requested bandwidth size RSIZ _UPn (t) for the next upstream transmission information from the transfer data continuous counter value K which has been counted so far, and K -RSIZ
_UPn (t) is newly set in the transfer data constant counter 22.

Similarly, at the output timing of the upstream transmission completion signal b, the adder 26 subtracts the next required upstream transmission information bandwidth size RSIZ _UPn (t) from the write completion data amount L held by the latch circuit 23. , L-RSIZ
_UPn (t) is newly set in the latch circuit 23.

The operation performed by these two adders 24 and 26 to subtract the required bandwidth size RSIZ _UPn (t) for the next upstream transmission information calculates the required bandwidth size for the next upstream transmission information following this required size. The requested bandwidth size RSI for the next uplink transmission information that has already been determined and requested.
Z _UPn (t) is _stored in the counter 22 and the latch circuits 23 and 25.
It is because it is necessary to reduce from.

The upstream transmission standby buffer memory 17 is controlled by write timing and read timing. The write timing signal c controls the size of the upstream transmission information data a that can be written to the upstream transmission standby buffer memory 17 based on the difference between the write completion data amount L and the maximum storage capacity of the upstream transmission standby buffer memory 17. .

The read timing signal d is the allocated uplink transmission information band size SIZE _DNn (t)
Is controlled as the maximum size of the upstream transmission information UPn to be read.

Further, the buffer memory 17 for standby for upstream transmission is provided.
In the control of (1), there is a further device capable of accurately responding to a retransmission request from the base station 11 side. Its configuration is shown in FIG.
Since this is the same as that of FIG.

As described above, the upstream transmission standby buffer memory 17 is controlled by the address management on the buffer memory by the upstream transmission standby buffer memory control circuit 19. That is, when the terminal station 12 receives permission from the base station 11 for the requested bandwidth size RSIZ _UPn (t) for the uplink transmission information, the terminal station 12 uses the read timing signal 12 to read the address up to the address corresponding to the requested size. read out.

Here, by storing an address corresponding to the upstream transmission information band size RSIZ _DNn (t-1) which has been previously permitted, the base station 11 can retransmit the upstream transmission information. If there is a request, there is an advantage that the same uplink transmission information can be easily retransmitted.

Therefore, when the terminal station 12 receives a retransmission request from the base station 11 by some status notification in the downlink reception information, the terminal station 12 uses the above configuration as it is, and is controlled by the uplink transmission standby buffer memory control circuit 19. It is possible to easily and efficiently retransmit past upstream transmission information from the upstream transmission standby buffer memory 17.

In other words, the upstream transmission information band generation device 14
Is the terminal station 12 to the base station 1 in the asymmetric communication system.
A required bandwidth size calculating circuit 18 for efficient upstream transmission information and a buffer memory control circuit 19 for standby upstream transmission are provided in the component for generating a required size value of upstream bandwidth for transmitting upstream information to 1. .

Calculation of required bandwidth size for this upstream transmission information
Circuit 18 and buffer memory control circuit 1 for standby for upstream transmission
9 is transmitting the upstream transmission information UPn to the base station 11
In the meantime, a request for uplink transmission information to be requested next to the base station 11
Bandwidth request size RSIZ_UPnIntegrate (t). Also,
While requesting the required bandwidth size for upstream transmission information
If there is no response to the bandwidth allocation from the base station 11,
Required bandwidth size RSIZ _UPnUpdate (t).

Therefore, the time for transmitting the upstream transmission information UPn is effectively used, the required bandwidth size RSIZ _UPn (t) for the next upstream transmission information to be transmitted next is integrated, and the bandwidth for the upstream transmission information UPn is _calculated. Time-efficient asymmetric communication can be realized by reducing the time from the size request to the actual transmission of the upstream transmission information.

As described above, according to the present invention, a request for bandwidth allocation for transmitting uplink transmission information and transmission of uplink transmission information in accordance with the bandwidth capacity of uplink transmission information obtained as a result of the request can be efficiently performed. Can be implemented well. In other words, while the uplink transmission information is being transmitted, the amount of information to be transmitted next to the upstream can be determined by using the required bandwidth size calculation circuit of the uplink transmission information, and the transmission of the preceding uplink transmission information is almost completed. In accordance with the timing, it is possible to execute a bandwidth allocation request together with the last uplink transmission information.

The required bandwidth size calculation circuit 18 for upstream transmission information has a function of monitoring the amount of write completion data accumulated in the upstream transmission standby buffer memory 17 while transmitting upstream transmission information. Therefore, the amount of upstream transmission information to be written into the upstream transmission standby buffer memory 17 can be arbitrarily controlled.

[0051]

As described above, according to the present invention, a band generating apparatus for uplink transmission information which is provided in a terminal station of an asymmetric communication system and generates uplink transmission information transmitted from a terminal station to a base station. In the above, while the requested bandwidth size calculating means calculates the requested bandwidth size for the next uplink transmission information to be requested from the base station while transmitting the uplink transmission information, the bandwidth for the efficient uplink transmission information is calculated. A size request is made, and as a result, uplink transmission information can be transmitted efficiently.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a schematic configuration of an asymmetric communication system provided with a band generation device for uplink transmission information according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of a band generation device for uplink transmission information provided in the terminal station of FIG. 1;

FIG. 3 is a circuit configuration diagram of a required bandwidth size calculation circuit for uplink transmission information in FIG. 2;

FIG. 4 is a flowchart showing a general operation of information exchange performed between the base station and the terminal station in FIG. 1;

[Explanation of symbols]

 Reference Signs List 10 asymmetric communication system 11 base station 12 terminal station 13 communication medium 14 band generation device 15 transmission data amount controller 16 memory 17 upstream transmission standby buffer memory 18 required band size calculation circuit 19 upstream transmission standby buffer memory control circuit 20 address bus 21 Data Bus 22 Transfer Data Constant Counter 23, 25 Latch Circuit 24, 26 Adder 27 1 Packet Transfer Completion Detector K Transfer Data Constant Counter Value L Write Completion Data Size a Up Transmission Information Data b Read Completion Signal c Write Timing Signal d Read timing signal

Claims (6)

[Claims] Claims: 1. An asymmetric communication system provided in a terminal station,
An uplink transmission information band generation device for generating uplink transmission information transmitted from a terminal station to a base station, comprising: A bandwidth generation apparatus for uplink transmission information, comprising: a required bandwidth size calculating means for calculating a required bandwidth size. 2. The requested bandwidth size calculating means updates the requested bandwidth size while the base station requests no bandwidth allocation while requesting the requested bandwidth size for uplink transmission information. The upstream transmission information band generation apparatus according to claim 1. 3. An upstream transmission information storage device according to claim 1, further comprising a buffer memory control means for controlling an upstream transmission standby buffer memory which stores the upstream transmission information before transmitting the upstream transmission information. Band generator. 4. By storing an address corresponding to the bandwidth size of the upstream transmission information that has been previously permitted,
If there is a request for retransmission of uplink transmission information from the base station side,
4. The method according to claim 3, wherein the same uplink transmission information is retransmitted.
2. The band generation device for upstream transmission information according to item 1. 5. An upstream transmission standby buffer memory, comprising: storage means for storing upstream transmission information data before transferring upstream transmission information data to said upstream transmission standby buffer memory; Control for transferring and writing uplink transmission information data from the storage means to the buffer memory for reading, or control for reading uplink transmission information from the buffer memory for uplink transmission standby based on the uplink transmission information size allocated to the terminal station. 5. The apparatus according to claim 3, further comprising a transmission data amount control unit for performing transmission data amount control. 6. The requested bandwidth size calculating means, a transfer data constant counter for sequentially measuring the size of uplink transmission information data transferred from the storage means, and transferring the data from the storage means to the uplink transmission standby buffer memory. A one-packet transfer completion detector that detects a break in data in the upstream transmission information data, a first latch circuit that holds a value of the transfer data constant counter at a detection timing of the one-packet transfer completion detector, At the output timing of the transmission completion signal output from the data amount control means, after subtracting the required bandwidth size for upstream transmission information from the transfer data constant counter value, the value is set to the initial value of the transfer data constant counter. An adder, and an output timing of a read completion signal output from the transmission data amount control means, A second latch circuit for holding the write completion data amount of the switch circuit, and after subtracting the requested bandwidth size for the upstream transmission information from the write completion data amount at the output timing of the read completion signal output from the transmission data amount control means. 6. The apparatus according to claim 5, further comprising a second adder for setting the value in the second latch circuit.