KR101438488B1 - Transmitting power control method in a wireless lan transmitter - Google Patents

Abstract

The present invention relates to a technique for preventing power from being wasted and preventing the life of parts from being shortened by setting an optimized transmission power value using block acknowledgement frame information transmitted by a receiver when a wireless LAN transmitter using frame aggregation transmits frames. The present invention provides a method for controlling transmission power in the wireless LAN transmitter, comprising the steps of: measuring a received signal strength indication (RSSI) value and a signal to noise ratio (SNR) value from a received CTS frame, and calculating a frame power value to be currently transmitted based on previous frame power and power variation or setting a preset maximum power value as the frame power value to be currently transmitted, according to the measurement result; transmitting data coming down from an upper layer during session time obtained through an RTS frame and the CTS frame in a frame aggregate type, and checking whether a block acknowledgement frame is received from a wireless LAN receiver; and receiving the block acknowledgement frame from the wireless LAN receiver, calculating a frame error rate, and calculating the power variation for a frame to be transmitted in a next session, based on the calculated frame error rate.

Description

TECHNICAL FIELD [0001] The present invention relates to a transmission power control method for a wireless LAN transmitter,

The present invention relates to a technique for controlling transmission power of a wireless LAN transmitter, and more particularly, to a wireless LAN using Frame Aggregation, in which transmission power is controlled in units of transmission frames to reduce power consumption and prolong the life of components The present invention relates to a transmission power control method for a wireless LAN transmitter.

2. Description of the Related Art In general, frame aggregation used in a wireless LAN is a technique of aggregating a plurality of upper layer frames into 802.11 format frames to improve the throughput in the wireless LAN MAC layer . By using such a frame aggregation technique, it is possible to reduce the transmission wait time in the wireless section and improve the data transmission performance.

 The frame aggregation technique is largely classified into an AMSDU (Aggregation-MAC Service Data Unit) technique and an AMPDU (Aggregation-MAC Protocol Data Unit) technique, and the two schemes may be used individually or simultaneously.

 The AMSDU scheme is a scheme for aggregating a plurality of MSDU frames up to about 8 KBytes in a single radio frame after the 802.11 MAC header.

The AMPDU scheme includes a single MSDU frame in an 802.11 MAC header, aggregates up to about 64 Kbytes of MPDU frames, and aggregates the single MPDU frames into a single wireless frame for transmission. Although there is only one wireless header in the AMPDU scheme, since an FCS used for checking the integrity of a MAC header and a frame exists for each MAC frame, when an error occurs in the wireless network, the Acknowledgment information There is an advantage that only the MAC frame is retransmitted.

Among the standards of the conventional WLAN using the frame aggregation technique as described above, there is a standard for the power control (Transmit Power Control) in 802.11h. In this standard, it is possible to transmit more than the maximum power defined for each frequency band , And it is defined that the access point (access point) refuses a connection to a station that violated the connection.

In addition, the above power control standard defines the power margin between the wireless links, but it is not defined in what manner the power control is to be performed.

FIG. 1 shows the amount of power consumed in frame transmission in a transmitter of a conventional WLAN station or an access point using a frame aggregation technique. As shown in FIG. 1, a conventional wireless LAN station or a transmitter of an access point transmits a frame at a maximum power amount allowed for itself when transmitting a frame.

As described above, in the conventional WLAN transmitter using the frame aggregation technique, since the frame is transmitted at the maximum power amount allowed for itself when transmitting the frame, there is a problem that power consumption is unnecessarily consumed and the lifetime of the component is shortened have.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a wireless LAN transmitter that uses frame aggregation, And the like.

According to another aspect of the present invention, there is provided a method of controlling transmission power of a wireless LAN transmitter, the method comprising: transmitting a Request To Send (RTS) frame in a frame aggregation scheme to a wireless LAN transmitter; Send) frame is received; The wireless LAN transmitter measures a received signal strength and a signal-to-noise ratio from the received CTS frame, calculates a current frame power value to be transmitted based on the previous frame power and the power increase / decrease according to the measurement result, Setting a set maximum power value as a current frame power value to be transmitted; Transmitting data from an upper layer during a session time acquired from the RTS frame and the CTS frame by the WLAN transmitter in a frame aggregate form and checking whether a block recognition frame is received from the WLAN receiver; Receiving the block recognition frame from the WLAN receiver, calculating a frame error rate, and calculating the power increase / decrease with respect to a frame to be transmitted in the next session based on the calculated frame error rate .

In the present invention, when a frame is transmitted in a WLAN transmitter using a frame aggregation scheme, the transmission power is optimized by using Block Acknowledgment frame information transmitted from the receiver side, It is possible to prevent wasted components from being consumed and to shorten the service life of parts.

FIG. 1 is an explanatory view showing an amount of power consumed in frame transmission in a conventional WLAN transmitter using a frame aggregation technique.
2 is a control flowchart illustrating a transmission power control method of a WLAN transmitter according to an embodiment of the present invention.
3 is an explanatory diagram illustrating power consumption during frame transmission according to a transmission power control method of a WLAN transmitter according to an exemplary embodiment of the present invention.

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

2 is a control flowchart illustrating a transmission power control method of a WLAN transmitter according to an embodiment of the present invention.

Referring to FIG. 2, the WLAN transmitter transmits a Request To Send (RTS) frame first when transmitting a frame using Frame Aggregation, and transmits a CTS (Clear To Send) frame is received (S1, S2).

 The RTS is a control frame for notifying the surrounding that there is data to be transmitted on the WLAN transmitter side, and the CTS is a control frame for informing the environment that the WLAN receiver side is ready to receive data.

At this time, the WLAN transmitter sets the transmission power for the RTS frame to a settable maximum power so as to avoid a hidden node problem. The WLAN transmitter may include a station or an access point transmitting the RTS frame.

The WLAN receiver having the MAC address recorded in the RTS frame receives the RTS frame from the WLAN transmitter and informs the WLAN transmitter of a CTS Clear To Send) frame. At this time, the WLAN receiver sets the transmission power for the CTS frame to a settable maximum power so as to avoid the hidden node problem as when the WLAN transmitter transmits the RTS frame.

If the CTS frame is found to have been received from the WLAN receiver, the WLAN transmitter calculates a Received Signal Strength Indicator (RSSI) and a Signal to Noise Ratio (SNR) from the received CTS frame, And determines whether the measurement result is a level (level) at which the power control can be used (S3).

 The reason why the WLAN transmitter measures RSSI and SNR values of the CTS frame received as described above is as follows.

When the WLAN transmitter transmits the frame, even if the frames are transmitted without error in the previous session, if the frames are separated by more than a certain distance or when the noise level becomes higher, errors may occur even if frames are transmitted with the same power The probability increases. Accordingly, the WLAN transmitter measures the RSSI and the SNR value to determine whether the power of the frames to be transmitted is set to be a set maximum value or less, or to be maximized.

In addition, since the WLAN transmitter requires a better radio environment than the MCS according to the Modulation and Coding Scheme (MCS) of the aggregated frame, it is necessary to analyze the wireless environment based on the received frame.

The MCS is a frame modulation and coding scheme, and is a value determined according to a wireless environment when transmitting a frame at the wireless LAN transmitter side. The higher the MCS value, the higher the data transmission rate, but a better wireless environment is required.

When the WLAN transmitter measures a received signal strength and a signal-to-noise ratio from the CTS frame and satisfies a preset reference value, the frame power P_tx_cur (P_tx_cur) to be transmitted based on the power increase / decrease (P_delta) (S4).

When the wireless LAN transmitter calculates the frame power (P_tx_cur) to be transmitted at present, since there is no information on the frame error rate (FER) obtained from the WLAN receiver when the first aggregated frame is transmitted, The frame power P_tx_cur to be set is set to the maximum power value P_max and the power increase / decrease portion P_delta is set to zero.

The frame error rate is information indicating the ratio of the number of errors in the total number of MAC frames transmitted from the WLAN transmitter.

However, if the current frame to be transmitted is not the first aggregated frame, that is, if it is not the first session, the previous frame power (P_tx_pre) calculated from the previous session and the power increase / decrease (P_delta) (P_tx_cur) to be transmitted as shown in Equation (1) of FIG.

 At this time, the calculated current frame power P_tx_cur to be transmitted can not exceed a predetermined maximum power value P_max (P_tx_cur? P_max). The power increment (P_delta) includes positive and negative numbers.

The frame power P_tx_cur to be currently transmitted can not be set to be less than a preset minimum power value P_min (P_tx_cur ≥ P_min).

However, if the WLAN transmitter does not satisfy the preset reference value as a result of measuring the received signal strength and the signal-to-noise ratio from the CTS frame, the frame power P_tx_cur to be transmitted at present may be expressed by the following equation (2) To the preset maximum power value P_max (S5).

 Then, the WLAN transmitter transmits data descending from the upper layer during the session time acquired through the RTS frame and the CTS frame in a frame aggregation form (S6).

Thereafter, the WLAN transmitter checks whether a block acknowledgment frame is received from the WLAN receiver for a predetermined time (S7).

If the WLAN transmitter does not receive the block recognition frame from the WLAN receiver for a predetermined period of time, it returns to the second step (S1), which is an initial step of transmitting the frame by the frame aggregation technique, Lt; / RTI >

 The block recognition frame includes information indicating whether or not some of the aggregated frames received from the transmitter side as the control frame transmitted from the receiver side to the transmitter side have been successfully received.

However, if the wireless LAN transmitter receives the block recognition frame from the wireless LAN receiver for a predetermined time, it calculates the FER to check whether a few frame errors have occurred after decoding the received block recognition frame, The power increase / decrease (P_delta) for the frame to be transmitted in the next session is calculated based on the FER calculation result (S8).

For example, the power increase / decrease P_delta may have a negative value when there is no frame error and may have a positive value corresponding to the number of generated errors when an error occurs.

In the above description, the WLAN transmitter calculates the power increase / decrease (P_delta) for the frame to be transmitted in the next session based on the FER calculation result, but the present invention is not limited thereto. As another example, the WLAN transmitter may measure a value of a received signal strength (RSSI) and a signal-to-noise ratio (SNR), and set a power increase / decrease (P_delta) for a frame to be transmitted in the next session .

Thereafter, the WLAN transmitter checks whether there remains a further frame to be transmitted. If it is determined that there remains a frame to be transmitted, the WLAN transmitter returns to the first step (S1). If it is determined that there is no more frame to be transmitted, (S9).

3 is an explanatory diagram illustrating power consumption during frame transmission according to a transmission power control method of a WLAN transmitter according to an exemplary embodiment of the present invention. 3, the frame transmission power is not fixed to the maximum power level, but the frame error rate (FER), received signal strength (RSSI), and signal-to-noise ratio (SNR) It can be seen that it varies in several levels.

Although the preferred embodiments of the present invention have been described in detail above, it should be understood that the scope of the present invention is not limited thereto. These embodiments are also within the scope of the present invention.

S1-S9: Steps 1-9

Claims (7)

(a) checking whether a CTS (Clear To Send) frame is received from a WLAN receiver after the WLAN transmitter transmits a Request To Send (RTS) frame with a frame aggregation scheme;
(b) measuring a received signal strength and a signal-to-noise ratio value from the CTS frame in which the WLAN transmitter has received the frame power value, and calculating a frame power value to be transmitted based on the previous frame power and the power increase / Calculating or setting a preset maximum power value as the current frame power value to be transmitted;
(c) transmitting, by the WLAN transmitter, data descending from an upper layer during a session time acquired from the RTS frame and the CTS frame, in a frame aggregate form, and checking whether a block recognition frame is received from the WLAN receiver;
(d) receiving the block recognition frame from the WLAN receiver by the WLAN transmitter, calculating a frame error rate, and calculating the power increase / decrease with respect to a frame to be transmitted in the next session based on the calculated frame error rate; And transmitting the transmission power of the WLAN transmitter.
The method of claim 1, wherein, in the step (b), when the WLAN transmitter measures a received signal strength and a signal-to-noise ratio from the CTS frame and satisfies a preset reference value, And setting a frame power value to be transmitted to a value different from a frame power value previously transmitted.
The method of claim 1, wherein, in step (b), a maximum power value preset when the WLAN transmitter transmits the first aggregated frame is set as the current frame power value to be transmitted. Power control method.
The method of claim 1, wherein the step (b) does not exceed a preset maximum power value and does not set a preset minimum power value when setting the current frame power value to be transmitted. / RTI >
2. The method of claim 1, wherein the block recognition frame in step (c) includes information indicating how many aggregated frames received from the transmitter have been successfully received, Way.
The method of claim 1, wherein the power increase / decrease in step (d) has a negative value when there is no frame error and has a positive value corresponding to the number of errors generated when an error occurs. / RTI >
The method of claim 1, wherein the step (d) comprises: measuring a value of a received signal strength and a signal-to-noise ratio of the WLAN transmitter; setting a power increase / decrease value for a frame to be transmitted in a next session The method comprising the steps of: determining a transmission power of the wireless LAN transmitter;

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