KR20100035273A - Wireless communication method using channel-adaptive acknowledgement policy - Google Patents

Abstract

PURPOSE: Overhead is reduced in data processing of the MAC layer by applying the response policy having data rate which the radio communications method applying the channel adaptation type response policy more highs according to the state of channel. CONSTITUTION: A frame error rate is continuously measured at. It operates since the update procedure uses the frame error rate measured at as described above(S11). The critical frame error rate pitch(S12). The updated frame error rate as described above is compared with the critical frame error rate(S13). According to the comparison result, the wireless telecommunication applying no answer policy operates(S14). The wireless telecommunication applying the response policy operates(S15). The generating ratio of the error according to the frame forwarding is measured at by continuously accumulating the frame forwarding collection and error occurrence collection for the transmission procedure of data frame between the transmission device and the receiving device.

Description

Wireless communication method with channel adaptive response policy {WIRELESS COMMUNICATION METHOD USING CHANNEL-ADAPTIVE ACKNOWLEDGEMENT POLICY}

The present invention relates to a wireless communication method. More particularly, the present invention relates to a channel adaptive response policy that can improve a data rate (throughput) by adaptively changing a response (ACK) policy applied to data frame transmission according to a channel situation. It relates to a wireless communication method applied.

The IEEE 802.15.3 standard describes the Media Access Control (MAC) layer and the Physical (PHY) layer in wireless personal area networks. It supports high data rates to support applications such as wireless multimedia streaming. In particular, due to the development of high frequency band communication technology such as ultra wide band (UWB) and millimeter wave (mm-wave), the speed of the PHY layer is continuously increasing.However, the MAC layer has been increased due to the overhead incurred in frame processing. The situation is not making the most of the speed of the PHY layer.

Therefore, there is a need in the art for a data processing algorithm of the MAC layer that can reduce the overhead incurred in frame processing and improve the data throughput. In particular, there is an active demand for a method of reducing overhead by more efficiently performing an ACK frame, which is an important part of MAC layer processing.

The present invention provides a wireless communication method capable of reducing the overhead incurred in data processing of the MAC layer by monitoring a channel condition using a frame error rate and adaptively selecting and applying a response policy according to the channel condition. Let it be technical problem.

As a means for solving the above technical problem, the present invention,

Confirming reception of a response frame according to data frame transmission during wireless communication to continuously update a frame error rate;

Determining a threshold frame error rate;

Comparing the updated frame error rate with the threshold frame error rate;

If the updated frame error rate is less than the threshold frame error rate, adopting a non-response policy for omitting an acknowledgment (ACK) frame and transmitting a data frame; And

If the updated frame error rate is greater than the threshold frame error rate, transmitting a data frame by adopting a response policy immediately after transmitting an acknowledgment (ACK) frame for each data frame received by the receiving apparatus;

It provides a wireless communication method applying a channel adaptive response policy comprising a.

The determining of the threshold frame error rate may include comparing a size and a data transmission rate of data used for a previous data frame transmission with a size and a data transmission rate of data to be currently transmitted, and transmitting the previous data frame. Determining a threshold frame error rate used for the previous data frame transmission as a current threshold frame error rate when the size and data transmission rate of the data used for the same size and the size and data transmission rate of the current data to be transmitted are the same; When the size and data transmission rate of the data used for the previous data frame transmission and the size and data transmission rate of the data to be transmitted are different, a new threshold frame error rate is calculated, and the calculated new threshold frame error rate is used as the current threshold frame. Determined by the error rate It may include the step.

Preferably, the threshold frame error rate may be determined as a frame error rate at a point where a frame error rate-data rate relationship curve when the non-response policy is applied and a frame error rate-data rate relationship curve when the immediate response policy is used. .

In one embodiment of the present invention, the step of continuously updating the frame error rate may include updating the frame error rate by applying an immediate response policy to the first data frame of the channel time allocation (CTA) in which wireless communication is performed. It may include.

According to the present invention, by applying a response policy having a higher data rate according to the channel situation, there is an effect of reducing overhead and improving the overall throughput in the data processing of the MAC layer.

Hereinafter, various embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, embodiments of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. Embodiment of this invention is provided in order to demonstrate this invention more completely to the person skilled in the art to which this invention belongs. Therefore, it should be noted that the shape and size of the components shown in the drawings may be exaggerated for more clear explanation.

1 is a flowchart illustrating a method of wireless communication using a channel adaptive response (ACK) policy according to an embodiment of the present invention.

Referring to FIG. 1, a wireless communication method using a channel adaptive response policy according to an embodiment of the present invention includes continuously measuring and updating a frame error rate (FER) (S11), and a threshold frame. Determining an error rate (S12), comparing the updated frame error rate with the threshold frame error rate (S13), and performing wireless communication applying a non-response policy according to the comparison result of the step (S13) ( S14) and performing a wireless communication to which an immediate response policy is applied (S15).

Continuously updating the frame error rate (S13) is a step of continuously monitoring the state of a channel, and continuously accumulates the number of frame transmissions and the number of error occurrences while data frames are transmitted between a transmitting device and a receiving device. By measuring the rate of error caused by the frame transmission. For example, while a communication device applies an Imm-ACK policy as soon as a transmission device receives a response frame for each data frame transmission, the transmission device checks whether or not a response signal is received at every data frame transmission. The frame error rate can be updated.

On the other hand, in the present invention, after transmitting the data frame, the transmitting device may optionally communicate by applying a non-response policy that does not confirm receipt of the response frame. In the case of performing this non-response policy, since the response frame is not received, the data error rate cannot be measured. In order to solve the problem that the data error rate cannot be measured when the non-response policy is applied, the present invention is received in a CTA, which is a time slot allocated by a time division multiple access (TDMA) scheme, as shown in FIG. Apply the response policy immediately for the first data frame. 2 is a flowchart illustrating in more detail the frame error rate updating step S11 according to an embodiment of the present invention. As shown in FIG. 2, when the data frame is transmitted, the present invention checks whether it is the first data frame of the corresponding time slot (CTA) (S111), and in the case of the first data frame, immediately applies a response policy to reduce the frame error rate. Update (S112). On the other hand, if it is not the first data frame, the response policy (S113) used previously is applied as it is (S113). For example, if the existing response policy is the non-response policy, communication is continued with the non-response policy, so the update of the frame error rate is not immediately performed. If the existing response policy is the immediate response policy, the response frame is received. Updates to the frame error rate can be made.

The determining of the threshold frame error rate (S12) is a step of obtaining a threshold value as a reference for identifying the current channel state by using the aforementioned updated frame error rate indicating the current channel state. 3 is a graph illustrating a relationship between a frame error rate and a data rate (throughput) according to a response policy when transmitting data having the same data size and the same data rate. As shown in FIG. 3, when the non-response policy is applied (21), when the frame error rate is low, that is, in a good channel environment where the error is less likely to occur, communication is performed without receiving a response frame, and thus the data rate is very high. However, as the frame error rate increases, the transmission rate decreases significantly because confirmation of a case where a data frame error occurs is not performed. On the other hand, when the immediate response policy is applied (22), since the response frame must be received even in a good channel environment where the frame error rate is low, that is, the error probability is low, the response frame reception itself acts as an overhead and thus the transmission rate does not appear high. However, even when the m frame error rate is high, the data frame rate is not significantly reduced since the response frame confirms whether the data frame is successfully transmitted. In the present invention, by using the relationship between the frame error rate and the data rate, the overall data rate can be improved by applying a response policy indicating a better data rate according to channel conditions. Specifically, in the present invention, the intersection of two graphs showing the relationship between the frame error rate and the data transmission rate shown in FIG. 3 is determined as the threshold frame error rate as a reference. This threshold frame error rate is compared with the updated frame error rate indicating the current channel state, and when the updated frame error rate is less than the threshold frame error rate, wireless communication is performed by applying a non-response policy, and the updated frame error rate is the threshold frame. If it is larger than the error rate, wireless communication may be performed by immediately applying a response policy.

Meanwhile, the relationship curve between the frame error rate and the data rate as shown in FIG. 2 can be obtained by modeling the data rate using the frame error rate for the case where each response policy is applied. According to the modeling of the data rate, the data rate may be modeled as a relationship between the size and transmission time of the data to be transmitted, that is, the transmission rate and the frame error rate. Therefore, the threshold frame error rate may vary depending on the size of data to be transmitted and the current data transmission rate determined in the physical layer. Therefore, in the wireless communication method to which the channel adaptive response policy of the present invention is applied, the step of determining the threshold frame error rate is preferably determined as shown in FIG.

FIG. 4 is a flow chart illustrating the threshold frame error rate determination step S12 according to an embodiment of the present invention in more detail. First, the size and data transmission speed of the data used for the previous data frame transmission, and the data to be transmitted. Compare the size and the data transmission rate of the data transmission rate (S121), and if the size and data transmission speed of the data used for the previous data frame transmission are the same as the size and data transmission speed of the current data to be transmitted, the previous data frame transmission is performed. Determining the threshold frame error rate used in the current threshold frame error rate (S122), if the size and data transmission rate of the data used for the previous data frame transmission and the size and data transmission speed of the current data to be transmitted, Calculate a new critical frame error rate and calculate the new It calculates a frame error rate, and is preferably adapted to compare the updated frame error rate it.

5 is a timing diagram illustrating a communication method when a non-response policy and an immediate response policy are applied. As shown in FIG. 5A, when the updated frame error rate is smaller than the threshold frame error rate, a non-response policy in which an ACK frame transmission is omitted is adopted, and a plurality of data frames 51a to 53a are adopted. ) Can be sent continuously. In addition, as shown in (b) of FIG. 5, when the updated frame error rate is larger than the threshold frame error rate, an acknowledgment (ACK) frame for each data frame 51b, 51b ', 53b received by the receiving apparatus. For the data frame 51b for which no response is received for a predetermined time interval (RIFS), the response policy may be adopted immediately after transmitting the same data frame 51b '.

As described above, a wireless communication method using an adaptive response policy requires a response frame such as, for example, an IEEE 802.15.3 based wireless personal area network (WPAN) or an IEEE 802.11 based wireless LAN, and the like, Response policies, such as immediate response, can be widely applied to a variety of defined wireless communication applications.

In the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the following claims and their equivalents.

1 is a flowchart illustrating a wireless communication method using a channel adaptive response policy according to an embodiment of the present invention.

2 is a flow chart illustrating in more detail the frame error rate update step according to one embodiment of the invention.

3 is a graph illustrating a relationship between a frame error rate and a data transmission rate according to a response policy when transmitting data having the same data size and the same data rate.

4 is a flow chart illustrating in more detail the threshold frame error rate determination step in accordance with one embodiment of the present invention.

5 is a timing diagram illustrating a communication method when a non-response policy and an immediate response policy are applied.

Claims (4)

Confirming reception of a response frame according to data frame transmission during wireless communication to continuously update a frame error rate; Determining a threshold frame error rate; Comparing the updated frame error rate with the threshold frame error rate; If the updated frame error rate is less than the threshold frame error rate, adopting a non-response policy for omitting an acknowledgment (ACK) frame and transmitting a data frame; And If the updated frame error rate is greater than the threshold frame error rate, transmitting a data frame by adopting a response policy immediately after transmitting an acknowledgment (ACK) frame for each data frame received by the receiving apparatus; Wireless communication method applying a channel adaptive response policy comprising a. The method of claim 1, wherein the determining of the threshold frame error rate comprises: Comparing the size and data transfer rate of the data used for the previous data frame transfer with the size and data transfer rate of the data to be currently transmitted; When the size and data transmission rate of the data used for the previous data frame transmission are the same as the size and data transmission rate of the current data to be transmitted, the threshold frame error rate used for the previous data frame transmission is determined as the current threshold frame error rate. Making; And When the size and data rate of the data used for the previous data frame transmission and the size and data rate of the data to be transmitted are different, a new threshold frame error rate is calculated, and the calculated new threshold frame error rate is the current threshold. A wireless communication method using a channel adaptive response policy comprising the step of determining the frame error rate. The method according to claim 1 or 2, The threshold frame error rate is determined by the frame error rate at the point where the frame error rate-data rate relationship curve when the non-response policy is applied and the frame error rate-data rate relationship curve when the immediate response policy is used. Wireless communication method using channel adaptive response policy. The method of claim 1, In the step of continuously updating the frame error rate, the channel error rate is updated by immediately applying a response policy to the first data frame of the CTA (Channel Time Allocation) where wireless communication is performed and receiving the response frame. Wireless communication method applying type response policy.

Images