KR100887858B1 - Method for controlling priority-based reservation code multiple access protocol in wireless personal area network - Google Patents

Abstract

The present invention relates to a system and method for priority-based RCMA protocol control for short-range wireless communication, and more particularly, to a media access control protocol (Media Access Control, MAC) required for short-range wireless communication based on CDMA (Code Division Multiple Access). The present invention relates to a priority based RCMA protocol control system and method for short-range wireless communication in which priority is given to voice packets that are more sensitive to transmission delays than data packets. The present invention provides a PB-RCMA (Priority-based RCMA) protocol control system and method for improving the quality of voice service and controlling the RCMA protocol at a relatively simple and low cost.

Description

Method for controlling priority-based reservation code multiple access protocol in wireless personal area network

1 is a view for explaining the conventional RCMA protocol.

2 and 3 are diagrams for explaining priority-based RCMA protocol for short-range wireless communication according to the present invention.

4 is a flowchart illustrating an operation of a terminal in a priority-based RCMA protocol control method for short-range wireless communication according to the present invention.

5 is a flowchart illustrating the operation of a base station in a priority-based RCMA protocol control method for short-range wireless communication according to the present invention.

The present invention relates to a priority-based RCMA protocol control method for short-range wireless communication, and more particularly, to a data packet in a media access control protocol (MAC) required for short-range wireless communication based on CDMA (Code Division Multiple Access). The present invention relates to a priority-based RCMA protocol control technique for short-range wireless communication in which priority is given to voice packets sensitive to transmission delay.
In general, the MAC protocol relates to a transmission protocol between a wireless terminal and a base station, and relates to a rule for efficiently using radio channel resources shared between wireless terminals. Recently, many short-range wireless communication schemes using CDMA technology have been proposed. The short-range wireless communication method using the CDMA technology is a MAC protocol that considers a service integrating voice and data in a service that was previously limited to voice. Among them, the RCMA (Reservation Code Multiple Access) protocol is a MAC protocol proposed for short-range wireless communication that enables voice and data services using CDMA technology.

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This conventional RCMA protocol is described with reference to FIG. 1 as follows.

In the conventional RCMA protocol, time is divided into slots 1, and a voice packet 2 and a data packet 3 having a predetermined size are transmitted for each slot 1. The number of codes available in any slot is set to n, and the code information 4 available in each slot 1 is transmitted through the forward channel from the base station to the terminal. The base station is always ready to receive data for n codes. Each terminal randomly selects one code out of n in any slot 1, spreads packet data using the code, and transmits it to the base station through a reverse channel. The base station always tries to despread the n codes and processes them when there is data transmitted for each code.                         

However, in the conventional RCMA protocol, when the number of terminals is larger than a predetermined number of codes, any two terminals may accidentally select the same code and transmit a packet in the same slot 1. At this time, both packets cannot be normally received by the base station. This phenomenon is called packet collision (A). Referring to FIG. 1, in a packet collision A, a voice packet 2 and a data packet 3 are simultaneously transmitted in one slot 1 and collide with each other.

In addition, the conventional RCMA protocol transmits the voice packet 2 and the data packet 3 in different ways. Voice packet 2 and data packet 3 require different transmission characteristics, a representative difference being sensitivity to transmission delay. The voice packet 2 is very sensitive to delay while the data packet 3 is not sensitive to delay. Therefore, when the terminal transmits the voice packet 2, the code used for the first successful packet transmission is continuously reserved and used from the next slot. The code used for the first received voice packet for any terminal at the base station is reserved for the terminal and excluded from the code information available from the next slot. In the case of the data packet 3, since there is no reservation for a code, a method of randomly selecting an available code for each slot is used. The protocol that improved this RCMA protocol is the E-RCMA (Enhanced-RCMA) protocol. E-RCMA is based on the RCMA protocol and is a protocol that transmits voice packets prior to data packets. The method of preferentially transmitting the voice packet controls to maintain two power levels for the voice packet and the data packet, and uses a higher power level for the transmission of the voice packet. If the power of the voice packet is high on the base station side, the voice packet can be successfully received even when a collision occurs between the voice packet and the data packet. This effect is called a capture effect. Therefore, the E-RCMA protocol can reduce the packet loss of voice packets sensitive to transmission delay through two levels of power control and a method of transmitting voice packets with priority. However, this E-RCMA protocol has a problem in that the implementation is difficult because it must maintain exactly two power levels through power control.

The present invention has been made to solve the above problems, and by transmitting the priority to the voice packet prior to the data packet to improve the quality of the voice service and control the RCMA protocol at a relatively simple and low cost to reduce the loss of the voice packet. Its purpose is to

In order to achieve the above object, a priority-based RCMA protocol control method for short-range wireless communication according to the present invention includes a first step of confirming synchronization of a slot when transmitting a packet in an arbitrary slot, and a packet type of data to be transmitted. A second step of confirming, a third step of transmitting a voice packet prior to the data packet among the packets of data to be transmitted, and a fourth step of transmitting a data packet if a voice packet reception confirmation signal is received and there is no transmission of the voice packet. Characterized in that it comprises a.

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In addition, the priority-based RCMA protocol control method for short-range wireless communication of the present invention for achieving the above object, the first step of transmitting the code information available in the next slot when transmitting a packet in any slot, A second step of determining whether to receive a voice packet at the start of the slot, a third step of transmitting a voice packet acknowledgment signal upon reception of the voice packet, a fourth step of reserving a code for the voice packet and a voice packet If there is no reception, characterized in that it comprises a fifth step of determining whether or not to receive the data packet.

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

2 and 3 are diagrams for describing a priority-based RCMA protocol control system for short-range wireless communication according to the present invention.

Referring to FIG. 2, the present invention consists of a forward channel, which is a channel from the base station 20 to the terminal 10, and a reverse channel, which is a channel from the terminal 10 to the base station 20.

2 and 3, the reverse channel is divided into slots 11, and in each slot 11, the terminals 10 transmit packets to the base station 20 using n codes. First, the terminal 10 confirms slot synchronization with the base station 20. (Step S10) The base station 20 transmits code information 14 usable in the next slot to the terminal 10 through the forward channel. (Step S20) In one slot 11, the voice packet 12 and the data packet 13 are transmitted at different time points, but the voice packet 12 is transmitted first at the time point B (step S30). In operation 20, the voice packet 12 is received at the time when the slot starts, and the voice packet acknowledgment signal 15 for notifying the voice packet 12 is transmitted to the terminal 10 through the forward channel. After the acknowledgment signal 15 is transmitted to the terminal 10, the data packet 13 is transmitted to the base station 20 at the time point C. (Step S50) During the transmission of the data packet 13, a code reservation process The packet is transmitted using the code information 14 available in the next slot. Here, the time required for the voice packet reception confirmation signal 15 to reach the terminal 10 from the start of the slot 11 is referred to as Td. In the present invention, the slot 11 is increased by the time Td as compared with the conventional RCMA or E-RCMA. However, since the present invention considers near field communication, the size of this Td time can be almost negligible.

4 is a flowchart illustrating an operation process of the terminal 10 in the priority-based RCMA protocol control method for short-range wireless communication according to the present invention.

First, when the terminal is driven (step 100), the terminal acquires slot synchronization from the base station and recognizes a time point at which any slot starts after slot synchronization is established. (Step 101), a packet to be transmitted to the base station It is determined whether there is data (step 102), and if there is a current packet to be transmitted, the type of packet to be transmitted is determined to determine whether it is a voice packet or a data packet (step 103).

As a result of determining the type of the packet to be transmitted, the transmission is started at the time when the slot starts in case of a voice packet. In the case of a voice packet, if the first packet is successfully transmitted, the code used to transmit the packet is reserved for the voice packet thereafter, so that there is currently a reserved code (step 104). If there is no reserved code, the available code information received from the base station is checked (step 106), and one of the available code information is randomly selected (step 107). If the reserved code exists, the reserved code is used. (Step 105) Then, the terminal transmits the voice packet to the base station using the selected code. (Step 108). After that, it is determined whether or not the transmission of the packet has been successfully performed (step 109). If this is not the last packet, the code just used is reserved (step 110) and used for the next voice packet transmission. On the other hand, if the voice packet transmission is not successful, the process moves back to step 102 to determine whether there is data to transmit.

If the type of data to be transmitted in step 103 is a data packet, a code available in the next slot is checked. (Step 111) When transmitting a data packet, one of the available code information received from the base station is always arbitrarily received without a code reservation process. Select to send the data packet using that code. Thereafter, an arbitrary code is selected (step 112), and before transmitting the data packet, it is determined whether a voice packet acknowledgment signal is transmitted from the base station indicating that the voice packet has already started transmission on the current slot. Only when there is no voice packet transmission, the data packet is transmitted to the base station in accordance with the data packet transmission time of the next slot.

5 is a flowchart illustrating an operation process of the base station 20 in the RCMA protocol control method for short-range wireless communication according to the present invention.

First, in each slot, the base station transmits information on codes available to terminals other than codes reserved for the current voice packet to the terminal through the forward channel (step 200). At the time of transmission of the voice packet, it is checked whether or not the voice packet has been received for each code (step 201), and a voice packet acknowledgment signal for the result is transmitted to the terminal through the forward channel (step 202). If the reception of the voice packet from the terminal is confirmed, it is checked whether the code for the voice packet is already reserved. (Step 203) If the code for the voice packet is not reserved, it is reserved for the terminal and the code is reserved. Is excluded from the available code information. (Step 204) Here, it is determined whether the received voice packet is the last packet. If the received voice packet is the last packet, the code used in the packet is included in the available code information (step 206), and the received voice packet is processed (step 207). If there is no reception of the data packet, it is checked whether the data packet has been received from the time point at which the data packet is transmitted. (Step 208) If there is a received data packet, it is processed.                     

Therefore, the present invention gives priority to the transmission of the voice packet over the transmission of the data packet, thereby preventing the loss of the voice packet due to the data packet insensitive to the transmission delay, thereby improving the voice quality.

As described above, the present invention can effectively support a voice packet and a data packet in consideration of its transmission characteristics, and can give priority to voice packets sensitive to transmission delay, thereby reducing the loss of voice packets. .

Claims (8)

A first step of confirming synchronization of a slot when transmitting a packet in an arbitrary slot; A second step of confirming a packet type of data to be transmitted; A third step of transmitting a voice packet out of the packet of data to be transmitted over a data packet; And And a fourth step of transmitting a data packet when a voice packet acknowledgment signal is received and there is no transmission of the voice packet. The method of claim 1, wherein the second step Determining whether a reserved code exists if the packet type of data to be transmitted is a voice packet; Using a reserved code if a reserved code exists, and if the reserved code does not exist, checking a code available in the next slot, and selecting a random code for short-range wireless communication. Priority-based RCMA protocol control method. The method of claim 1, wherein the second step Checking a code available in a next slot and selecting an arbitrary code when the packet type of data to be transmitted is a data packet; And determining whether there is a transmission of the voice packet. The method of claim 1, wherein the third step And receiving a voice packet acknowledgment signal and reserving a code for successful transmission of the voice packet. Transmitting code information usable in the next slot upon transmission of a packet in any slot; A second step of determining whether to receive a voice packet at a start point of the slot; Transmitting a voice packet acknowledgment signal when the voice packet is received; A fourth step of reserving a code for the voice packet; And And a fifth step of determining whether to receive a data packet when there is no reception of the voice packet. The method of claim 5, wherein the fourth step If a code for the voice packet is not reserved, reserving the code and excluding it from the available code information; Determining whether the voice packet is the last voice packet; And if the voice packet is the last voice packet, including the currently reserved code in usable code information. delete delete

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