KR101377308B1 - Method for changing duplex mode in wireless local area network using visible light comunication - Google Patents

Abstract

The present invention provides a method for changing a duplex mode in a time division multiple access (TDMA) based wireless LAN system using visible light communication, wherein a bit is transmitted and received between an access point and a mobile node. Comparing the error probability with a predetermined target bit error probability to determine whether the duplex mode needs to be changed; and if it is determined that the duplex mode needs to be changed, allocating a specific time slot in the frame as a test slot; If the bit error probability of using the new duplex mode in the test slot is lower than the target bit error probability, the method includes changing to a new transmission / reception scheme.

Visible light communication, TDMA, access point, mobile node, half duplex, full duplex

Description

How to change duplex mode in wireless LAN system using visible light communication {METHOD FOR CHANGING DUPLEX MODE IN WIRELESS LOCAL AREA NETWORK USING VISIBLE LIGHT COMUNICATION}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a Visible Light Communication (VLC) system, in particular a half-duplex and full-duplex in a wireless local area network (LAN) system using visible light communications. The present invention relates to a method for supporting all mobile nodes using a method.

The Korean Ministry of Commerce, Industry and Energy predicts that by 2015, light emitting diodes (LEDs) will take the place of current lighting. Recently, as the luminous efficiency of LED (Light Emitting Diode) is improved and the price is lowered, LED is becoming popular in general lighting market such as fluorescent incandescent lamp as well as special lighting market such as mobile device, display, automobile, traffic light, billboard. have. Recently, due to the depletion of RF (Radio Frequency) band frequency, the possibility of crosstalk between various wireless communication technologies, the increased demand for security of communication, and the arrival of ultra-high ubiquitous communication environment of 4G wireless technology, With increasing interest, research on visible light wireless communication using visible LEDs is being conducted by various companies and research institutes.

Home, office, and public places that currently use fluorescent or incandescent lamps will be replaced by LEDs with good performance and long life. By modulating the current applied to the LED used as a lighting lamp, the lighting LED can be used as a communication light source. In other words, broadcasting and data transmission are possible with only the illumination LED without additional light source. A user who uses a terminal or a notebook in a place where an LED light is provided may perform wireless LAN data communication using a visible light wireless optical transceiver module.

The duplex mode of the existing communication system is determined by the characteristics of the transmission medium. In other words, when the transmission and reception transmission media are shared, a half-duplex method is used, which is divided into a signal transmission interval and a signal reception interval. Full-Duplex) method is used.

Visible light, which is a medium used in wireless visible light communication, is not shared when transmitting or receiving the transmission media when ignoring ambient interference or reflection due to the strong linearity of light. The characteristics of can be changed. For example, when the light transmitted from the transmitter of the mobile node is reflected from the access point and comes back into the receiver of the mobile node, the mobile node cannot simultaneously transmit and receive signals. Therefore, some mobile nodes must operate using a half-duplex method that cannot simultaneously transmit and receive, and some mobile nodes must operate using a full-duplex method that can simultaneously transmit and receive.

In a conventional transmission and reception system, since a mobile node using a half-duplex method and a mobile node using a full-duplex method do not exist at the same time, an algorithm for efficiently supporting the same has not been developed.

In case of supporting half-duplex mobile node and full-duplex mobile node at the same time by using half-duplex method, full-duplex mobile node cannot use it even though data can be sent and received at the same time, so it is impossible to use resources efficiently. When supporting the node and the full-duplex mobile node at the same time, the half-duplex mobile node not only cannot transmit and receive data but also requires repeated retransmissions, which increases the overhead of the system and wastes resources of the system.

Therefore, there is a need for the development of an efficient algorithm that can support two duplex modes without wasting resources in the visible light communication that must service both the half-duplex mobile node and full-duplex mobile node.

According to the present invention, an access point of a wireless LAN system using visible light communication is applied to a state of a mobile node to support both a mobile node using a half-duplex method and a mobile node using a full-duplex method. Therefore, we will provide a way to reliably change the duplex mode.

According to an aspect of the present invention, an access point and a mobile node in a method of changing a duplex mode in a time division multiple access (TDMA) based wireless LAN system using visible light communication are provided. Comparing a bit error probability during a transmission / reception operation with a target bit error probability between mobile nodes) to determine whether a duplex mode needs to be changed, and if it is determined that the duplex mode needs to be changed, a specific time slot in a frame is tested. And assigning a slot to a test slot and changing to a new transmission / reception scheme when the bit error probability of using the new duplex mode in the test slot is lower than the target bit error probability.

The determining of whether the duplex mode needs to be changed may include: when the bit error probability is higher than the target bit error probability in the mobile node using a full duplex method, or when the bit error probability is used in the mobile node using a half duplex method. When it is lower than the preset minimum bit error probability, it is determined that the change of the duplex mode is necessary,

In the process of determining whether the duplex mode needs to be changed, when the bit error probability is higher than the target bit error probability in the mobile node using a half-duplex method, the rate is lowered within a preset rate control range.

In the process of determining whether the duplex mode needs to be changed, when the bit error probability is lower than a preset minimum bit error probability in the mobile node using a full duplex method, the rate is increased within a preset rate control range. ,

In the process of determining whether the duplex mode needs to be changed, if the bit error probability is not higher than the target bit error probability and not lower than the preset minimum bit error probability when transmitting and receiving between the mobile node and the access point, the existing duplex Characterized by maintaining the mode,

When the half-duplex method is tested in the test slot and the bit error probability is higher than the preset target bit error probability during transmission, the rate is lowered within a preset rate control range.

When the full-duplex method is tested in the test slot and the bit error probability is higher than the predetermined target bit error probability during transmission, the existing duplex mode is maintained.

According to another aspect of the present invention, in a duplex mode change method in a TDMA-based wireless LAN system using visible light communication, duplex by comparing a bit error probability and a predetermined target bit error probability during transmission and reception between an access point and a mobile node. Determining whether a change of the mode is necessary and changing the duplex mode of a time slot allocated to the corresponding mobile node in a frame when determining that the change of the duplex mode is necessary.

The determining of whether the duplex mode needs to be changed may include: when the bit error probability is higher than the target bit error probability in the mobile node using a full duplex method, or when the bit error probability is used in the mobile node using a half duplex method. When it is lower than the preset minimum bit error probability, it is determined that the change of the duplex mode is necessary,

In the process of determining whether the duplex mode needs to be changed, when the bit error probability is higher than the target bit error probability in the mobile node using a half-duplex method, the rate is lowered within a preset rate control range.

In the process of determining whether the duplex mode needs to be changed, when the bit error probability is lower than a preset minimum bit error probability in the mobile node using a full duplex method, the rate is increased within a preset rate control range. ,

In the process of determining whether the duplex mode needs to be changed, when the bit error probability is not higher than the target bit error probability and not lower than the preset minimum bit error probability when the mobile node and the access point are transmitted or received. The duplex mode is maintained.

The present invention can support a full-duplex mobile node and a half-duplex mobile node at the same time, and can minimize the data transmission error that occurs when the duplex mode changes. In addition, since half-duplex and full-duplex can be supported for each mobile node, the granularity of the rate control can be increased, and the periodic slot allocation is possible when the duplex mode of the mobile node is changed, thereby increasing the stability of resource allocation.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus and an operation method of the present invention will be described in detail with reference to the accompanying drawings.

The present invention wastes resources in the mobile node using the full-duplex method and the mobile node using the half-duplex method, which is not defined in the existing communication system, to solve the problems of the prior art. We propose an efficient support method and a method in which a mobile node can reliably change the duplex mode.

1 is a configuration diagram of an example of a wireless LAN system using visible light communication to which the present invention is applied. Referring to FIG. 1, a wireless LAN system using visible light communication includes an access point 110 and mobile nodes 120 and 130. The access point 110 is connected to a wired LAN and performs wireless communication with the mobile nodes 120 and 130 existing in the communication space 140. In other words, the access point 310 may have its own communicable area 140 for each access point 110 and communicate with mobile nodes 120 and 130 located in the communicable area 140. The mobile nodes 120 and 130 have mobility and are located in the communication coverage area 140 of the access point 110 where the mobile nodes 120 and 130 are located and use the visible light as a communication medium to access the corresponding access point 110. [ Lt; / RTI > Since the wireless LAN system using visible light communication using the present invention uses visible light as a communication medium, it is possible for the user to check the transmission / reception process of data, visually confirm the security of communication, and realize low power consumption. Therefore, the position of the transmitting / receiving end can be easily grasped by the user, and the communication path can be visually confirmed.

FIG. 2 (a) is a frame diagram of a mobile node using a half-duplex method in a TDMA-based communication system. Referring to (a) of FIG. 2, a part of the entire frame is used as a downlink, the remaining part of the frame is used for uplink transmission, and each uplink and downlink are time division schemes. It is assigned and used for each user on a slot basis. Therefore, only one data slot can transmit data in one direction up or down.

FIG. 2 (b) is a frame diagram of a mobile node using a full-duplex method in a TDMA-based communication system. 2 (b) shows a frame structure of a full duplex mode based on TDMA capable of simultaneously transmitting data in uplink and downlink. Referring to FIG. 2 (b), transmission and reception in both up and down directions are possible in the time slot.

The duplex mode change method in a wireless LAN system using visible light communication according to an embodiment of the present invention assumes a slot-based TDMA frame structure as shown in FIGS. 2A and 2B. Consider a system in which the slot lengths of the uplink, downlink are the same, and the synchronization is the same. In addition, the control information for allocating each slot of the frame is managed by the access point.

(A) Slot-based half-duplex / full-duplex mobile node simultaneous support

FIG. 2C is a block diagram of a frame in a TDMA-based visible light communication system according to an embodiment of the present invention. 2 (c) shows a frame configuration that simultaneously supports a mobile node using a slot-based half-duplex method and a mobile node using a full-duplex method according to an embodiment of the present invention. Since the light used as the communication means in the visible light communication has a strong straightness, the media of the uplink and the media of the downlink do not influence each other when there is no interference or reflection of the surrounding environment. Therefore, it can operate in full-duplex mode. In this case, when a specific mobile node cannot simultaneously transmit and receive due to surrounding interference or light reflection, a duplex mode needs to be changed.

According to an embodiment of the present invention, when the mobile node needs to change the duplex mode, the mobile node applies an appropriate duplex mode in units of slots of the frame instead of changing the frame structure of the entire system. Therefore, an appropriate duplex mode can be assigned to each slot allocated to each mobile node in a frame, thereby improving resource efficiency. That is, when one of the mobile nodes receiving the service at the access point should operate in the half-duplex mode and the other mobile nodes should operate in the full-duplex manner, the mobile node must operate in the half-duplex manner as shown in FIG. In the time slots assigned to, the device operates in half duplex and full duplex in the remaining slots which should be operated in full duplex.

The method of changing the duplex mode according to the embodiment of the present invention described above can be implemented by simply allocating resources in the frame structure described with reference to FIG. The basic frame structure of the system follows the full-duplex frame structure, and when a specific mobile node wants to use a specific slot as a half-duplex downlink, the access point does not allocate resources to the uplink of the slot. A method of changing the duplex mode according to an embodiment may be implemented.

(B) How to change progressive duplex mode

The wireless channel between the mobile node and the access point using the full-duplex operation is not good and the packet error probability is higher than the set target value, or the packet error probability of the mobile node operating in the half-duplex mode is very high. If it is determined that data can be transmitted and received at a higher data rate, the duplex mode needs to be changed. However, when the duplex mode is changed by determining only the packet error probability or the channel condition, a burst error of the packet may occur or the transmission rate may be lost due to an operation in an inappropriate duplex mode.

The present invention proposes a gradual duplex mode change method to solve the above problems. In the proposed method, the duplex mode is changed according to the slot allocated to the mobile node. Therefore, in case of a mobile node that needs to change the duplex mode, it is changed by randomly allocating a test slot to test the changed duplex mode. We proposed a method to confirm the stable operation of duplex mode in advance. An operation of changing a duplex mode in a wireless LAN system using visible light communication according to an embodiment of the present invention will be described with reference to FIG. 3.

Before describing FIG. 3, terms used in the present specification will be described. First, 'target bit error probability' is used as a criterion for determining whether the current bit error probability is appropriate to perform communication, and an appropriate level of data communication operation is performed during transmission and reception between the access point and the mobile node. It has the meaning of the maximum value of the bit error probability that can be. Accordingly, when the current bit error probability is lower than the target bit error probability, it may be determined that the communication bit has an appropriate communication quality. In addition, the 'minimum bit error probability' is used as a comparison value to determine whether the bit error probability is significantly lower than the target bit error probability and thus can be transmitted at a higher bit rate than the current bit rate. Therefore, to determine whether the current bit error probability is a very low bit error probability, it is set to a very low value compared to the target bit error probability.

3 is a flowchart illustrating a change operation of a duplex mode in a wireless LAN system using visible light communication according to an embodiment of the present invention. Referring to FIG. 3, in a transmission / reception operation in a TDMA based wireless LAN system using visible light communication, it is determined whether a bit error probability is higher than a predetermined target bit error probability in step 401. In step 401, if the bit error probability is not higher than the target bit error probability, the operation proceeds to step 402. If the bit error probability is higher than the target bit error probability, the operation proceeds to step 403 to determine whether the current duplex mode uses the full duplex method. If the current duplex mode is not full duplex in step 403, the control proceeds to step 415 to control the transmission rate within a preset range.

If the current duplex mode is full duplex in step 403, the mobile station proceeds to step 405 and transmits a duplex mode change request message from the mobile node to the access point. In step 407, the access point transmits a duplex mode change response message to the mobile node in response to the duplex mode change request message received in step 405.

In step 409, the access point allocates a test slot to the frame to test the new duplex mode. In step 411, the mobile node tests a new duplex mode (half duplex) through a test slot. In step 413, it is determined whether the bit error probability is less than the preset target bit error probability in the test of the new duplex mode.

If the bit error probability is not lower than the target bit error probability in step 413, the control proceeds to step 415 to control the transmission rate within a preset range. If the bit error probability is lower than the target bit error probability in step 413, the process proceeds to step 416 to change the duplex mode to half duplex.

In step 402, it is determined whether the bit error probability is lower than a preset minimum bit error probability. Step 402 is a step of determining whether the current bit error probability is significantly lower than the target bit error probability and thus can be transmitted at a higher bit rate than the current bit rate. Therefore, the criterion should be appropriately set to determine whether the current bit error probability is a very low bit error probability. According to an embodiment of the present invention, the determination criterion is set as 'minimum bit error probability'. If the bit error probability is not lower than the minimum bit error probability in step 402, the method proceeds to step 418 to maintain the existing duplex mode.

If the bit error probability is lower than the minimum bit error probability in step 402, the method proceeds to step 404 to determine whether the current duplex mode uses the half-duplex method. If it is determined in step 404 that the current duplex mode is not the half duplex mode, the process proceeds to step 419 to control the transmission rate within a preset range.

If it is determined in step 404 that the current transmission / reception scheme is a half duplex scheme, the process proceeds to step 406 and the mobile node transmits a duplex mode change request message to the access point. In step 408, the access point transmits a duplex mode change response message to the mobile node in response to the duplex mode change request message received in step 406.

In step 410, the access point allocates a test slot to a frame to test the new duplex mode. In the next step 412, the mobile node tests the new duplex mode (full duplex). In step 414, it is determined whether the bit error probability when using the new duplex mode is smaller than the target bit error probability. If the bit error probability is not less than the target bit error probability in step 414, the process proceeds to step 418 to maintain the existing duplex mode. If the bit error probability is less than the target bit error probability in step 414, the process proceeds to step 417 to change the duplex mode to full duplex.

(C) Transmission rate control method for each mobile node by changing duplex mode

The half-duplex / full-duplex mobile node simultaneous support scheme according to an embodiment of the present invention is a technique for controlling the transmission rate of the mobile node using a change in the duplex mode since the duplex mode can be changed for each user. For example, considering the visible light communication system supporting the transmission rates of 1Mbps, 4Mbps, and 16Mbps, the rate control of each mobile node can be adjusted in the order of 1Mbps, 4Mbps, and 16Mbps. If the channel status of the mobile node that was transmitting at 1Mbps improves, the transmission rate can be increased to 4Mbps, and if the channel situation becomes better, data transmission can be achieved by increasing the transmission rate to 16Mbps. According to an embodiment of the present invention, when using the rate control method for each mobile node by changing the duplex mode, the rate can be controlled in the order of 1Mbps half-duplex, 1Mpbs full-duplex, 4Mbps half-duplex, 4Mbps full-duplex, 16Mbps half-duplex, 16Mbps full-duplex. Freedom is increased.

As described above, the operation of the duplex mode change method may be performed in a wireless LAN system using visible light communication according to an exemplary embodiment of the present invention. Meanwhile, in the above description of the present invention, a specific embodiment has been described. It may be practiced without departing from the scope of the invention.

1 is a configuration diagram of an example of a wireless LAN system using visible light communication to which the present invention is applied

2 is a block diagram of a frame according to a duplex mode in a visible light communication (VDMA) wireless LAN system based on time division multiple access (TDMA);

3 is a flowchart illustrating a change operation of a duplex mode in a visible light communication system according to an exemplary embodiment of the present invention.

Claims (12)

A method of changing a duplex mode in a time division multiple access (TDMA) based wireless LAN system using visible light communication, Assigning, by an Access Point, a time slot in a frame to a Mobile Node; Assigning, by the access point, another time slot in the frame to the mobile node as a test slot for a test in a duplex mode; When using the new duplex mode through the test slot, if the bit error probability is lower than a target bit error probability, the access point includes changing the existing duplex mode of the mobile node to the new duplex mode. To change the duplex mode in a wireless LAN system using visible light communication The method according to claim 1, In the mobile node using the full duplex method, when using the new duplex mode through the test slot, the bit error probability is higher than the target bit error probability, or the bit error probability at the mobile node using the half duplex method. Changing the duplex mode in the WLAN system using visible light communication, wherein the access point changes the existing duplex mode of the mobile node to the new duplex mode when it is lower than the preset minimum bit error probability. Way. The method according to claim 1, When the bit error probability is higher than the target bit error probability in the mobile node using the half-duplex method, the wireless LAN system using visible light communication may be lowered within the preset rate control range. How to change duplex mode. The method according to claim 1, In the mobile node using a full-duplex method, when the bit error probability is lower than a preset minimum bit error probability, the wireless LAN system using visible light communication, characterized in that for increasing the transmission rate for the full-duplex method within a preset rate control range How to change duplex mode in delete The method according to claim 1, wherein when using the half duplex mode of the duplex mode through the test slot, if a bit error probability is higher than a preset target bit error probability, lowering a transmission rate for the half duplex method within a preset rate control range. A method of changing a duplex mode in a wireless LAN system using visible light communication. The visible light of claim 1, wherein when using the full duplex mode of the duplex mode through the test slot, if the bit error probability is higher than a predetermined target bit error probability, the mobile node maintains the existing duplex mode. How to change duplex mode in wireless LAN system using communication. delete delete delete delete delete

Images