KR100607950B1 - Channel time request command data structure, channel time allocation method and apparatus - Google Patents

Abstract

The present invention relates to a medium access control protocol, and more particularly, to a channel time request command data structure, a channel time allocation method, and an allocation apparatus for guaranteeing QoS in channel time allocation. The channel time request command data structure of the present invention includes a stream type field in which information on the type of stream to be transmitted is recorded; And a sequence information field indicating a serial number of the stream. In addition, the channel time allocation method of the present invention comprises the steps of: (a) receiving a channel time request command; (b) storing the channel time request command in a separate memory according to the information on the type of stream to be transmitted, included in the channel time request command; And (c) preferentially processing the channel time request instruction stored in the high weight memory queue in accordance with the weights assigned to the respective memories. Therefore, the channel time allocation method of the present invention can be implemented in hardware or in software, and can guarantee differential QoS depending on the type of stream.

Description

Channel time request command data structure, channel time allocation method and apparatus

1 is a diagram illustrating a network topology of the IEEE 802.15.3 standard.

FIG. 2 is a diagram illustrating a structure of a superframe to which channel time is assigned.

3 is a format of a channel time request command of the present invention.

4 is a diagram of classifying stream types according to values stored in the stream type field.

5 is a diagram illustrating a queue memory used for channel time allocation.

6 is a flowchart of the channel time allocation method of the present invention.

7 is a block diagram of a channel time allocation apparatus of the present invention.

The present invention relates to a medium access control protocol, and more particularly, to a channel time request command data structure, a channel time allocation method, and an allocation apparatus for guaranteeing QoS in channel time allocation.

In order for a plurality of terminals to share one channel for communication, each terminal should be allocated a channel time for using the channel. In Time Division Multiple Access (TDMA), one channel is divided by time and an allocated channel time is allocated to each UE. In the CSMA / CD (Carrier Sense Multiple Access / Collision Detect) method, each terminal generates a random number, and after the time corresponding to the random number, determines the channel state and uses the channel if the other terminal does not use it. . Therefore, the QoS (Quality of Service) is not differentiated according to the type of terminal or the type of data to be transmitted.

1 is a diagram illustrating a network topology of the IEEE 802.15.3 standard.

The network has several devices (DEVs) 101, 102, 103, 104, and has a Piconet Coordinator (PNC) 105 that relays and manages data and commands between these devices. The devices may be home appliances such as TVs, camcorders, and the like, and the PNC 105 may be an AV receiver or a computer. The PNC 105 receives channel time specification commands from each device and allocates channel time, and each device directly transmits data to other devices at the assigned channel time. The PNC 105 also performs power save mode management, authentication management, and the like.

The Media Access Control (MAC) protocol used in Ultra Wide Band (UWB) is described in the IEEE 802.15.3 standard, "Wireless MAC and PHY specification for High Rate WPAN." However, this standard does not describe the QoS guarantee required for channel time allocation.

An object of the present invention is to provide a differential channel time allocation method and apparatus according to a data stream by adding information on the type of the data stream to the channel time request command format in order to guarantee QoS in channel time allocation. To provide.

Another object of the present invention is to provide a channel time allocation method and apparatus for dividing a data stream into several classes according to the types of received data streams and assigning channel times by giving priority to each class. have.

In order to achieve the above object, the channel time request command data structure according to the present invention comprises: a stream type field in which information on the type of stream to be transmitted is recorded; And a sequence information field indicating a serial number of the stream.

In order to achieve the above object, the channel time allocation method according to the present invention comprises the steps of: (a) receiving a channel time request command; (b) storing the channel time request command in a separate memory according to the information on the type of stream to be transmitted, included in the channel time request command; And (c) preferentially processing the channel time request instruction stored in the high weight memory queue in accordance with the weights assigned to the respective memories.

In order to achieve the above object, a channel time allocation apparatus according to the present invention comprises: a channel time request command receiving unit for receiving a channel time request command from a plurality of devices; A stream type determination unit that reads the stream request ID included in the received channel time request command and determines what kind of stream is to be transmitted; A memory for storing the channel time request command in each of the other queues separated according to the determined stream type; A multiplexer that selects the plurality of queues one by one and reads and outputs a channel time request command equal to a weight assigned to each queue; And a channel time allocator configured to perform channel time allocation according to the channel time request command.

In order to achieve the above object, the present invention provides a computer-readable recording medium recording the channel time request command data structure.

In order to achieve the above object, the present invention provides a computer-readable recording medium recording a program for executing the method on a computer.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a diagram illustrating a structure of a superframe to which channel time is assigned.

The superframe includes beacons 201, CAPs 202, MCTAs 203, 204, and CTAs 205, 206, 207. The CAP 202 is an abbreviation of Contention Access Period and means time for allocating channel time through competition, and the MCTAs 203 and 204 are used for managing channel time allocation. CTAs 205, 206, and 207 are assigned channel times. Since one device may transmit various types of streams, there may be a plurality of CTAs.

3 is a format of a channel time request command of the present invention.

The channel time request command CTRqB requests, modifies and terminates channel time allocation according to the type of data stream. In order for the device to communicate with other devices, it must first be allocated from channel time, so the PNC sends a channel time request command. The channel time request command includes a plurality of channel time request command blocks 301a, 301b, and 301c, information 303 on the number 302 of channel time request command blocks, and the type of command. Types of commands include request, modify, and terminate.

One channel time request instruction block 301b includes a desired number of TUs 310, a minimum number of TUs 311, and a channel time request time unit (301). CTRq TU (312), channel time allocation bit rate factor (CTA rate factor) (313), channel time request control (CTRq control) 314, stream index (stream index) (315), stream request ID (stream request ID) 316, a DSPS set index 317, a target ID list 318, and the number of targets 319.

In the present invention, information on the type of stream is recorded in the stream request ID field 316. The upper two bits of the stream request ID 316 indicate the stream type information 320 and the lower six bits indicate the sequence number 321. That is, by dividing the stream into four types and recording them in the information stream type information 320 and assigning serial numbers to each stream, 64 types of streams are generated according to one type of stream, and all 256 streams are generated. Can be processed.

4 is a diagram of classifying stream types according to values stored in the stream type field.

According to the stream, the data is classified into high definition (HD) data, standard definition (SD) data, and asynchronous data. If the value of the stream type field is '00', HD data is stored, '01' is SD data, '11' is asynchronous data, and '10' is reserved for future use. HD-class data is high quality, high-speed data of 20Mbps or more, and SD-class data is lower quality and lower speed data. Asynchronous data is low-speed data that does not have to be transmitted in real time, such as e-mail.

In the Wirelesss Personal Area Network (WPAN), which is much smaller in bandwidth than the current wired network, HD / A / V streams or data streams requiring wide bandwidths are used. However, it is important to transmit asynchronous data with high priority.

A channel time allocation method will be described with reference to FIGS. 3 to 4.

In Piconet, when a device requests a channel time from the PNC, it inserts a stream request ID of 8 bits, that is, one octet, to generate a channel time request instruction as shown in FIG. Reconstruct Stream Request ID The most significant two bits mean the type of stream, that is, the type of class that classifies the stream. The type of class type is as shown in FIG.

At this time, the PNC issues a channel time request command to each corresponding queue according to the stream type value of the most significant 2 bits of the Stream Request ID, and performs a channel time allocation algorithm.

5 is a diagram illustrating a queue memory used for channel time allocation.

There are a plurality of queue memories depending on the type of stream. For example, the first queue 501 stores a channel time request command for HD data, and the second queue 502 stores a channel time request command for SD data. The third queue 503 stores a channel time request command for asynchronous data, and the fourth queue 504 stores a channel time request command for other data. Each cue has different priorities (weights). Multiplexer (MUX) 505 processes the channel time request commands in each queue 501 through 504 in order.

As shown in FIG. 5, since the memory for storing the channel time request command is a FIFO type queue memory, the first input is processed first. However, if different weights (priorities) are given to different queues, the channel time request command stored in the queue with the higher weight is first performed according to the value, thereby increasing the probability of allocating the channel time first.

For example, suppose that the weights N, M, O, and P for each queue are set to 8, 4, 2, and 1, respectively, according to the type of data stream. Then, the PNC processes the eight channel time request instructions in the first queue 501 in order, processes the four channel time request instructions stored in the next second queue 502, and then executes the next third queue 503. Process two channel time request instructions stored in the second queue; process one channel time request instruction stored in the next fourth queue 504; and process channel time request instructions stored in the first queue 501 again.

Thus, in the present invention, the channel time is allocated so that a stream having a low priority can also be processed while processing a data stream having a high priority first.

6 is a flowchart of the channel time allocation method of the present invention.

A channel time request command is received from the device (S610). The stream request ID field 316 of the channel time request command includes a stream type value and a sequence number according to the type of stream to be transmitted. The channel time request command is stored in the allocated memory queue according to the stream type included in the channel time request command (S620), and the channel time request command stored in the memory queue having a high weight according to the weight assigned to each memory queue is executed. Processing is preferentially (S630).

7 is a block diagram of a channel time allocation apparatus of the present invention.

The channel time allocation apparatus includes a channel time request command receiver 710, a stream type determiner 720, a memory 730, a multiplexer 740, and a channel time allocator 750.

The channel time request command receiver 710 receives a channel time request command from various devices. The channel time request command includes information on the type of data stream to be transmitted as shown in FIG. The stream type determination unit 720 reads the stream request ID 316 of the received channel time request command and determines what kind of stream is to be transmitted. The memory 730 has a plurality of queues separated according to this type. Therefore, channel time request commands are stored in different queues depending on the type of stream.

The multiplexer 740 selects a plurality of queues one by one and reads and outputs a channel time request command equal to the weight assigned to each queue. The channel time allocator 750 performs channel time allocation.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet). Include. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

So far I looked at the center of the preferred embodiment for the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

As described above, the channel time allocation method of the present invention can be implemented in hardware or software, and has an effect of ensuring differential QoS depending on the type of stream.

Claims (14)

A stream type field in which information on the type of stream to be transmitted is recorded; And And a sequence information field indicating a serial number of said stream. A computer-readable recording medium having recorded thereon a channel time request instruction data structure. The method of claim 1, wherein the stream type field and the sequence information field And a stream request ID field included in said channel time request command. A computer-readable recording medium having recorded thereon a channel time request command data structure. 3. The method of claim 1 or 2, wherein the channel time request command is A computer-readable recording medium having recorded thereon a channel time request command data structure, wherein the channel time request command is used in the IEEE 802.15.3 standard. The method of claim 1, wherein the information about the type of the stream is A computer-readable recording medium recording a channel time request command data structure characterized by being divided into high quality HD data, low quality SD data, and asynchronous data. delete delete A method of allocating channel time to a device so that data can be transmitted and received between the devices, (a) receiving a channel time request command; (b) reading information on the type of stream recorded in the stream request ID field of the channel time request command and storing the channel time request command in a separate memory queue for each type of stream; And and (c) preferentially processing the channel time request instruction stored in the high weight memory queue in accordance with the weights assigned to the respective memory queues. delete 8. The method of claim 7, wherein the channel time request command is A channel time allocation command method, characterized in that the channel time request command used in the IEEE 802.15.3 standard. delete An apparatus for allocating channel time to a device so as to transmit and receive data between the devices, A channel time request command receiving unit to receive a channel time request command from a plurality of devices; A stream type determination unit that reads information on the type of the stream recorded in the stream request ID field of the received channel time request command and determines what kind of stream is to be transmitted; A memory for storing the channel time request command in each of the other queues separated according to the determined stream type; A multiplexer that selects the plurality of queues one by one and reads and outputs a channel time request command equal to the weight assigned to each queue; And And a channel time allocator configured to perform channel time allocation according to the channel time request command. 12. The method of claim 11, wherein the channel time request command is A channel time allocation apparatus, characterized in that the channel time request command used in the IEEE 802.15.3 standard. delete A computer-readable recording medium having recorded thereon a program for performing a method for allocating channel time to a device so as to transmit and receive data between devices, the method comprising: (a) receiving a channel time request command; (b) reading the information on the type of the stream recorded in the stream request ID field of the channel time request command and storing the channel time request command in a separate memory according to the information on the type of the stream to be transmitted; And and (c) preferentially processing the channel time request instruction stored in the high-weight memory queue according to the weights assigned to the respective memories. Recordable computer-readable recording media.

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