KR100918393B1 - CDMA code information relay method and system - Google Patents

Abstract

Disclosed are a method and system for relaying CDMA code information of a relay station in a relay environment. The relay station defines a relay CDMA code separate from the existing CDMA code and transmits the CDMA code information to the base station, or transmits the CDMA code to the base station using a control message.

Description

CDMA code information relay method and system of relay station in relay environment {CDMA code information relay method and system}

The present invention relates to a relay method of a relay station in a relay environment consisting of a base station, a relay station and a mobile station, and more particularly, to a method of relaying CDMA code information in an uplink.

The present invention is derived from the research conducted as part of the standardization support environment creation project of the Ministry of Information and Communication and the Ministry of Information and Telecommunications Research and Development. Standardization technology research].

Mobile communication systems have many technical problems to overcome due to changes in the wireless channel used to transmit data to mobile terminals. The radio channel from the transmitter to the receiver is changed by various causes such as the movement of the terminal, the frequency and band used, geographical and climatic factors.

The IEEE 802.16 WG recommends wireless access standards for BWA (Broadband Wireless Access). The IEEE 802.16e-2005 standard has been released in accordance with the IEEE 802.16-2004 standard and mobility. Currently, the WiMAX Forum is actively engaged in implementing two standards of IEEE 802.16-2004 and IEEE 802.16-2005 and promoting services. The forum covers not only wireless standards but also network standards.

1 is a view showing an example of a conventional mobile relay (Moblie Relay) system.

Referring to FIG. 1, a mobile relay system includes a BS 100 that is a base station, an MS 120 that is a mobile station, and a relay station that relays signals between the BS 100 and the MS 120. RS 110 which is (Relay Staion). The mobile station 120 is compatible with a subscriber station (SS) which is a general terminal. Hereinafter, the IEEE 802.16-2004 standard and the IEEE 802.16e-2005 standard are collectively called 16 standards.

In the radio access standard, the BS 100 controls the radio resources and the user-specific procedures in the cell, and the SS or the MS 120 transmits messages and data using the resources allowed by the BS 100. At this time, the BS 100 broadcasts a MAP control message to indicate whether to allow the resource for each frame, and uses SS or MS (Down-Link) and UL (Up-Link) frame information included in the broadcast message. 120 recognizes the allocated resources. The SS or MS 120 transmits a protocol data unit (PDU) of a medium access control (MAC) layer by using resources allocated for each frame.

Currently, IEEE 802.16 proposes a standard for RS 110, which is a device for relaying signals between BS 100 and MS 120. In the case of downlink, the signal transmitted by the BS 100 is transmitted to the MS 120 via the RS 110, and in the case of uplink, the signal transmitted by the MS 120 is transmitted through the RS 110 and the BS 100. Is passed to.

In FIG. 1, a plurality of RSs 110 may exist between the BS 100 and the MS 120. In this case, communication between the RS 110 and another RS (not shown) is also required. The standard proposed for RS in IEEE 802.16j is applied only between RS 110 and BS 110, and the function of MS 120 does not change at all.

An object of the present invention is to provide a method for transmitting information received from a mobile station to a base station by the RS located between the BS and the MS to minimize the delay in signal transmission and to minimize the resources, and relays to which the method is applied. To provide a system.

One embodiment of a CDMA code information relay method of a relay station according to the present invention for achieving the above technical problem is, in the wireless communication system consisting of a base station, a relay station and a mobile station in the CDMA code information relay method of the relay station, the mobile station Receiving a CDMA code from the network; Generating a relay CDMA code by adding the offset defined in the relay station to the CDMA code; And transmitting the relay CDMA code to the base station.

One embodiment of a wireless communication system according to the present invention for achieving the above technical problem is a base station, a relay station and a mobile station in a wireless communication system, when the relay station receives a CDMA code from the mobile station, in advance to the relay station The defined offset is added to the CDMA code to generate a CDMA code for relaying, and is transmitted to the base station.

Another embodiment of a CDMA code information relay method of a relay station according to the present invention for achieving the above technical problem is, in the wireless communication system consisting of a base station, a relay station and a mobile station, the relay station CDMA code information relay method of the mobile station, Receiving a CDMA code from the network; And transmitting the CDMA code, a reception time of the CDMA code, and power information to the base station in a control message requesting resource allocation.

Another embodiment of a wireless communication system according to the present invention for achieving the above technical problem is that in a wireless communication system consisting of a base station, a relay station and a mobile station, when the relay station receives a CDMA code from the mobile station, resource allocation is performed. The CDMA code, the reception time and power information of the CDMA code are included in the request control message and transmitted to the base station.

According to the present invention, the RS transmits the information received from the MS using the relay CDMA code, but minimizes the delay time. When the time and power information is transmitted to the BS through the relay CDMA code, the BS can generate an RNG-RSP message. The time and power control information in the RNG-RSP message is control information reflecting the characteristics of the radio channel for the MS and RS.

When the BS receives the relay CDMA code for a predetermined time, the BS may distinguish and transmit who has transmitted the relay CDMA codes transmitted by the plurality of RSs. If a plurality of relay CDMA codes are assigned to one CDMA code, the complexity of the BS receiving the relay CDMA code is increased, but the collision probability is reduced in consideration of an environment in which a plurality of RSs are assigned a relay CDMA code.

The method in which the RS transmits CDMA code information to the BS in a control message manner is suitable when the BS receives many CDMA codes. The control message transmission method has a disadvantage in that a delay request occurs because an additional procedure requiring a band is required. However, there is an advantage that the contents of the control message can be changed by the bandwidth request process. When the BS receives many CDMA codes, it has an advantage compared to the relay CDMA code scheme. There is no modification of information such as time and power in the process of transmission from RS to BS. RS discards information outside the range required by MS operation, preventing unnecessary information from wasting resources due to control messages.

When the BS transmits the RNG-RSP message after a certain delay time, it is determined based on the CDMA code information received from as many RSs as possible for the same CDMA code. This allows the MS to choose the RS of the best channel from more RSs.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to a mobile relay system according to the present invention and a method for the relay station to transmit information of the mobile station to the base station in the system. The present invention is based on the IEEE 802.16 standard, but is equally applicable to WiMAX and WiBro.

2 illustrates an embodiment of an OFDMA-based radio frame structure.

Referring to FIG. 2, the frame 200 is divided into a downlink subframe 210 and an uplink subframe 220, and the downlink subframe 210 includes a preamble 212, a MAP 214, and DL data. 216, the uplink subframe 220 is comprised of an UL ranging region 222, an UL feedback channel 224, and UL data 226. As specified in 16, the MS uses CDMA codes to perform functions such as initial access ranging, handoff ranging, bandwidth request, and periodic ranging. To perform. If there is no RS, an initial ranging code / handoff ranging code / periodic ranging code of CDMA codes present in the UL ranging region 222 of the frame from the MS ( Upon receiving any one of the periodic ranging codes, the BS calculates time information and power information suitable for reception and transmits the time information and power information to the MS through an RNG-RSP (message defined in IEEE 802.16) message. The MS modifies the time and power for transmitting data in the UL direction by using the time information and power information included in the received RNG-RSP message.

In a system where an RS exists, the UL signal transmitted by the MS is received by the RS. Therefore, the MS needs to adjust the transmission signal so that the RS can best receive the signal. At this time, the parameters to be adjusted include signal size and transmission time. Since the subject generating the RNG-RSP signal is a BS, the time and power information received by the RS must be transmitted to the BS. The MS performs radio channel adjustment through a ranging procedure using an initial ranging code / handoff ranging code / periodic ranging code.

In the CDMA code-based collision scheme in which the MS proceeds for radio channel coordination and access procedure, the maximum time allowed to transmit a CDMA code and receive an RNG-RSP message is defined by the specification. This standard shall not change in systems with RS added. Therefore, in a system in which an RS is added, the RS has a time limit for transmitting a CDMA code to a BS. Therefore, it is necessary to minimize a delay used to transmit a CDMA code and maximize transmission efficiency by using a minimum of UL resources.

In the mobile relay system defined in IEEE 802.16, the RS must transmit information related to the CDMA code received from the MS to the BS. Information related to the CDMA code that the RS should transmit to the BS includes CDMA code information, time information, and power information received from the MS.

3 is a diagram illustrating an example of a relay CDMA code used by an RS to transmit information related to a CDMA code to a BS.

Referring to FIG. 3, the conventional 16 standard is CDMA codes 310 and 320 located in an UL lasing region, and includes an initial ranging code, a handoff ranging code, and a band request code. bandwidth request code) and a periodic ranging code are defined. These codes are used in UL from MS 120 to R 110S and UL from RS 110 to BS 100 (i.e., R-UL) and follow the existing 16 specifications.

However, the present invention does not use the CDMA codes 320 defined in the conventional 16 standard in the R-UL direction, but instead uses CDMA codes (hereinafter referred to as relay CDMA codes) 300 for use in the R-UL. In order to correspond to each of the existing 16 standard CDMA codes 310, the relay initial ranging code (relay initial ranging code), relay handoff ranging code (relay handoff ranging code), relay band request code A relay bandwidth request code and a relay periodic ranging code for relay are defined.

The defined relay CDMA codes have a predefined offset with existing 16 standard CDMA codes located in the UL lasing region (222 of FIG. 2) of the frame. Accordingly, the method for generating the CDMA code for the RS 110 is to add the CDMA code received from the MS and the offset defined for the RS 110 (hereinafter, the relay code offset). BS 110 recognizes the existing 16 standard CDMA code transmitted by MS 120 by subtracting the relay code offset of RS 110 that has transmitted the relay CDMA code from the received CDMA code.

4 is a diagram illustrating an example of broadcast information for a relay CDMA code according to the present invention.

Referring to FIG. 4, in order to use relay CDMA codes according to the present invention, information about relay CDMA codes must be broadcast in a cell in advance. The broadcast information 400 includes a relay code offset 410 and a code relay delay 420. The relay code offset 410 represents the difference (offset) between the CDMA code transmitted by the MS and the relay CDMA code, and the code relay delay 420 frames the delay time required to change the CDMA code into the relay CDMA code. It is expressed in units.

Fig. 5 is a diagram showing the relationship between the CDMA code of the existing 16 standard and the CDMA code for relay according to the present invention.

5, C1 represents a conventional CDMA code, and R1 represents a relay CDMA code according to the present invention. The MS 120 selects a CDMA code C1 corresponding to a function selected from an initial access ranging function, a handoff ranging function, a bandwidth request function, and a periodic ranging function of a normal ranging region in the UL. To transmit. Upon receiving C1, the RS 110 generates its relay CDMA code R1 by adding its own relay code offset known through broadcast information to C1 and transmits it to the BS 100, and the BS 100 receives the R1. R1 subtracts the RS's relay code offset to recognize the CDMA code C1 transmitted by the MS 120.

6 is a diagram illustrating an example of a method of transmitting time information and power information using a relay CDMA code according to the present invention.

Referring to FIG. 6, the RS 110 receiving the CDMA code C1 from the MS 120 notifies the BS of the reception time information and the power information using the relay CDMA code R1. Specifically, the RS 110 notifies the BS 100 of time and power information through time and power compensation according to the distance between the BS and the RS in a time point registered with the BS 100 or a periodic ranging procedure.

For example, if the delay time according to the distance between BS 100 and RS 110 is T _propagation and the time that BS 100 wants to receive is T _reference , RS 110 should transmit information. The _starting point is T _reference -T _propagation . If the time when the RS 110 receives the CDMA code arrives by T _delta before the time that the BS 100 wants to receive, the RS 110 indicates the time when the relay CDMA code is transmitted by T _reference -T _propagation. -T _delta . Accordingly, the BS 100 may receive R1 by T _{delta in} advance than the T _{reference which} is a desired time to receive the signal, so that the BS 110 may previously receive the signal by T _delta without using additional information.

In addition, the power information is notified to the BS 100 through the process of transmitting the CDMA code for the relay in the same manner. For example, if the power loss between the BS 100 and the RS 110 is referred to as an L _path , and the power that the BS 100 wants to receive is referred to as a P _reference , the power to which the RS 110 transmits information is P _reference + L _path . If the power of the CDMA code received from the MS 120 is P _delta greater than the power that the BS 100 wants to receive, the RS 110 supplies a P _reference for transmitting the relay CDMA code. + L _path + P _delta .

BS 100 checks C1 through a predefined code offset for R1 at the received R1, grasps transmission time and power information selected by RS 110 in the process of receiving R1, and identifies the transmission time and Create RNG-RSP message using power information and transmit according to 16 standard. RS 110 relays the RNG-RSP message received from BS 100 to MS 120 without modification.

7 is a diagram illustrating an example of broadcast information for allocating a plurality of relay CDMA codes to one CDMA code. That is, in a situation where CDMA codes are relayed through a plurality of RSs, a plurality of relay CDMA codes should be allocated to one CDMA code.

Referring to FIG. 7, broadcast information 700 broadcast in a cell includes a relay code offset 710, a CDMA code 720 for each CDMA code, a code relay delay 730, and the like. The relay code offset 710 and the code relay delay 730 are the same as those described with reference to FIG. 4, and the relay CDMA code 720 per CDMA code represents the number of relay CDMA codes for relaying one CDMA code. For example, in the case of the K-th CDMA code, the relay CDMA code ranges from "relay code offset + ((K-1) * number of relay CDMA codes per CDMA code)" to "number of relay CDMA codes per CDMA code." Are CDMA codes.

Since a plurality of RSs are likely to select and transmit the same relay CDMA code, the BS searches for a plurality of RSs that have transmitted the relay CDMA code by searching for the relay CDMA code received for a predetermined time. In this case, although the time is incurred, even if the same relay CDMA code corresponding to one CDMA code is transmitted from a plurality of RSs, the BS can receive the relay CDMA code.

8 is a diagram illustrating an example of a method for transmitting CDMA code information using a control message according to the present invention.

Referring to FIG. 8, the RS 110 is allocated a radio resource for transmitting a control message according to a method defined in the conventional 16 standard. According to the conventional 16 standard, there are a piggyback band request, a polling band request, a band request using CQICH, and a band request using CDMA code.

The RS 110 transmits the CDMA code, power information, time information, frame information, etc. to the BS 100 through a control message. In transmitting the CDMA code information, the RS 110 discards the information that has passed the maximum time allowed in the 16 standard when receiving the message after transmitting the CDMA code, and deletes the information in the process of transmitting the control message. . The control message is called the "RS Detection Report" message here.

As described above, the BS 100 receives information from the RS 110, and there is a method of using a relay CDMA code defined in the present invention and a method of using a "RS Detection Report" message, which is a control message. In general, a method using a CDMA code for relaying has a low delay time, a method using a control message requires a process of requesting a radio resource band, and the size of the message is variable. In addition, when there are a plurality of RSs, the BS delays the time of transmitting the RNG-RSP message, and then checks the received information received from the multiple RSs for one CDMA code, and then the RNG based on the information received from the optimal RS. Generate and send an RSP message.

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.

1 is a view showing an example of a conventional mobile relay (Moblie Relay) system,

2 illustrates an embodiment of an OFDMA-based radio frame structure;

3 is a diagram illustrating an example of a relay CDMA code used by an RS to transmit information related to a CDMA code to a BS;

4 is a diagram illustrating an example of broadcast information for a relay CDMA code according to the present invention;

5 is a diagram showing a relationship between a CDMA code of the existing 16 standard and a CDMA code for relay according to the present invention;

6 is a view showing an example of a method for transmitting time information and power information using a relay CDMA code according to the present invention;

7 is a diagram illustrating an example of broadcast information for allocating a plurality of relay CDMA codes to one CDMA code;

8 is a diagram illustrating an example of a method for transmitting CDMA code information using a control message according to the present invention.

Claims (10)

In the CDMA code information relay method of a relay station in a wireless communication system consisting of a base station, a relay station and a mobile station, Receiving a CDMA code from the mobile station; Generating a relay CDMA code by adding the offset defined in the relay station to the CDMA code; And Transmitting the CDMA code for the relay to the base station. The method of claim 1, wherein transmitting the relay CDMA code comprises: In consideration of time delay and power loss according to the distance between the base station and the relay station, a delay time when the base station receives the relay CDMA code and a loss time when the relay station receives the CDMA code And compensating for and transmitting the transmission time and power of the relay CDMA code so as to be equal to the lost power. The method of claim 2, wherein transmitting the relay CDMA code comprises: The transmission time and power of the relay CDMA code are compensated through the following equations, Compensated transmission time of the relay CDMA code = T _reference -T _propagation -T _delta , Compensated transmit power of the relay CDMA code = P _reference + L _path + P _delta , Where T _reference And P _reference Are respectively a desired reception time and a desired reception power of the base station, and T _propagation And L _path are delay time and loss power according to the distance between the base station and the relay station, respectively, and T _delta And P _delta represents a delay time and a lost power when the relay station receives the CDMA code, respectively. The method of claim 1, And receiving, by the base station, the CDMA code by subtracting the predefined offset from the relay CDMA code when the base station receives the relay CDMA code. In a wireless communication system to a base station, a relay station and a mobile station, And when the relay station receives the CDMA code from the mobile station, generates a relay CDMA code by adding a predetermined offset to the relay station to the CDMA code and transmits the relayed CDMA code to the base station. The method of claim 5, wherein the relay station, Delay time and loss when the base station receives the relay CDMA code in consideration of time delay and power loss according to the distance from the base station, and delay time and loss when the relay station receives the CDMA code. And transmitting and compensating for the transmission time and power of the relay CDMA code to be equal to power. The method of claim 6, wherein the relay station, The transmission time and power of the relay CDMA code are compensated through the following equations, Compensated transmission time of the relay CDMA code = T _reference -T _propagation -T _delta , Compensated transmit power of the relay CDMA code = P _reference + L _path + P _delta , Where T _reference And P _reference Are respectively a desired reception time and a desired reception power of the base station, and T _propagation And L _path are delay time and loss power according to the distance between the base station and the relay station, respectively, and T _delta And P _delta represents a delay time and a lost power when the relay station receives the CDMA code, respectively. The method of claim 5, And the base station recognizes the CDMA code by subtracting the offset defined in the relay station from the relay CDMA code when receiving the relay CDMA code from the relay station. In the CDMA code information relay method of a relay station in a wireless communication system consisting of a base station, a relay station and a mobile station, Receiving a CDMA code from the mobile station; And And transmitting the CDMA code, a reception time and power information of the CDMA code to a base station in a control message requesting resource allocation. The method of claim 9, wherein the transmitting step, And transmitting the CDMA code to the mobile station and not transmitting the information that is allowed to pass after receiving the message.

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