KR100425087B1 - Assignment method of common packet channel - Google Patents

Abstract

The present invention relates to a method of detecting a collision of a common packet channel, which is adapted to detect a collision of a common packet channel allocated according to a random access method and to allocate an efficient common packet channel. As described above, the method for allocating a common packet channel according to the present invention uses a common packet channel to which one base station and a plurality of terminals are connected, and after a predetermined period from a power control initialization time point for the common packet channel, The terminal transmitting a specific code for detecting a collision of the common packet channel assignment to the base station, receiving a response code for the transmitted specific code from the base station, and wherein the any one terminal is the common Comprising the step of transmitting a message to the base station through the packet channel has the effect of reducing the collision probability of the common packet channel can be efficiently allocated to the common packet channel without error.

Description

Assignment method of common packet channel

The present invention relates to the next generation mobile communication, and more particularly, to a collision detection method of a common packet channel which is adapted to detect an collision of a common packet channel allocated according to a random access method and to allocate an efficient common packet channel.

Recently, the ARIB and TTC in Japan, the ETSI in Europe, the T1 in the US, and the TTA in Korea have recently introduced the Third Generation Partnership Project (hereinafter abbreviated as 3GPP) to establish technical standards for next-generation mobile communication systems. Configured.

In the research section of the 3GPP research on the global radio access network (UTRAN) describes the definition and description of the transport channel (Physical channel) and the physical channel (Physical channel).

The common packet channel (CPCH), which is one of the transmission channels, transmits relatively long data from the user side (UE) to the base station (BS) through the uplink (Up-Link, UL). Assigned between (UE). In this case, the uplink (UL) common packet channel (CPCH) is related to a dedicated channel (DCH), which is a channel for performing Close Loop Power Control, and the dedicated channel (DCH) is a physical channel. It is mapped to a dedicated physical control channel (DPCCH). The common packet channel (CPCH) is allocated with several UEs using a random access scheme.

The following describes the allocation process of the common packet channel (CPCH) proposed by 3GPP.

1 is a diagram illustrating the overall structure of a conventional common packet channel (CPCH).

(See 3GPP TSGR1 # 5 (99) 592 Golden Bridge Technology, "CPCH Physical Layer Procedures.")

Referring to FIG. 1, the conventional process of allocating a common packet channel (CPCH) can be described by dividing it into four parts.

The first is a power ramping process in which the power of a transmission signal is adjusted to a level that can be received by the base station BS at the UE.

The power ramping process will be described in more detail. First, the UE (UE) monitors an Acquisition Indication Channel (AICH) to select any one of the available common packet channels (CPCHs), followed by 16 access preamble symbols. An access preamble (AP) composed of symbols corresponding to a channel selected from among (Access Preamble Signature) is transmitted to a base station (BS) at the beginning of an access slot. In addition, the UE UE repeatedly increases the power of the access preamble by a predetermined period until the AP-AICH, which is a response signal to the access preamble transmitted from the base station BS, is transmitted.

Then, the base station (BS) determines the user side (UE) to allocate the common packet channel (CPCH) after receiving each AP transmitted from the various user side (UE). In addition, the base station BS transmits an AP-AICH composed of a signature corresponding to the access preamble transmitted from the selected user side UE to the corresponding user side UE. Each UE receives an AP-AICH and compares the AP-AICH with an AP transmitted by the UE. The UE determines that the UE is selected. At this time, the UE, which is not selected, starts the power ramping process from the beginning.

The second is a collision that may occur when multiple UEs request the same common packet channel (CPCH) allocation at the same time, that is, when multiple UEs simultaneously receive the AP-AICH using the same AP. A collision detection and removal process of a common packet channel (CPCH) to reduce (Collision).

The collision detection and elimination process of the common packet channel (CPCH) will be described in more detail. First, one or more UEs receiving the AP-AICH have different symbols from the Access Preamble Signature Set. A signature is again selected from the group, and a collision detection preamble (CD-P) composed of the selected symbols is transmitted to the base station BS. Then, the base station BS receives the collision detection preamble (CD-P) transmitted from one or more user side (UE) and then prevents the same common packet channel (CPCH) from being allocated to the multiple user side (UE). In order to select the collision detection preamble CD-P having the highest reception strength among the collision detection preambles CD-P transmitted in order, the symbol may be one-to-one correspondence with the selected collision detection preamble CD-P. The configured CD-AICH is transmitted to the corresponding UE.

The third process is the initialization of Close Loop Power Control (CL-PC) for the common packet channel (CPCH) through a dedicated physical channel (DPCH).

The initialization process of the closed loop power control will be described in more detail. First, the UE receiving the CD-AICH receives a power control preamble through a dedicated physical control channel DL-DPCCH to the base station BS. ) And the other UEs resume the initial power ramping process. At this time, the base station (BS) transmits a power control preamble (PC Preamble) to the user side (UE) through the dedicated physical control channel (DL-DPCCH) like the user side (UE) performs initialization of the closed loop power control.

Fourth, the UE transmits a message through the assigned common packet channel (CPCH). The UE receives packet data and pilot through the assigned common packet channel (CPCH). (Pilot) information and TPC information is transmitted to the base station (BS), the base station (BS) transmits the pilot information and TPC information for the closed loop power control to the user side (UE) through the downlink dedicated physical control channel (DPCCH) do.

The process of allocating a common packet channel (CPCH) described so far requires the UE to monitor the AICH, select an available common packet channel (CPCH), and then request allocation of the selected common packet channel (CPCH) to the base station (BS). It can be characterized as.

Here, it should be noted that when assigning a common packet channel, when a plurality of users allocate the same common packet channel or incorrectly receive a CD-P and a CD-AICH transmitted between a user side and a base station in the aforementioned collision detection and removal process. This is a collision phenomenon of the common packet channel occurring in the.

As a method for reducing such a common packet channel collision, 'LG Information Communication Co., Ltd.' has applied for a 'common packet channel allocation method' (see application number 99-0033543).

A description will now be given of the 'common packet channel allocation method' filed by 'LG Information Communication Co., Ltd.'.

In the common packet channel allocation method filed by LG Information Communication Co., Ltd., the power control preamble (PC) transmitted between the UE and the BS is initialized when the closed loop power control (CL-PC) is initialized. Preamble) is used to detect and eliminate a collision of a common packet channel (CPCH).

That is, when transmitting the power control preamble, a new CD (Collision Detection) code that can identify itself through a dedicated physical data channel (DPDCH) or a dedicated physical control channel (DPCCH) is transmitted to the base station (BS) at the UE. The BS performs a CDI (Collision Detection Indicator), which is a response signal to the CD code transmitted from the UE, by selectively using a Dedicated Physical Data Channel (DPDCH) or a Dedicated Physical Control Channel (DPCCH). UE). The CDI transmission is inserted into the TFCI field of the downlink dedicated physical control channel (DL-DPCCH) or inserted into the TFCI field and the data field of the downlink dedicated physical data channel (DL-DPDCH) and transmitted. The base station sets a predetermined threshold value for the signal power of the received CD code and selects a CD code having a signal power that is equal to or greater than the set threshold value.

In this case, the CD code and the CDI used 16 orthogonal gold codes or Hadamard codes of 16 lengths, or the Bi-Orthogonal code, and the CD code and the CDI were upwards. The number, length and transmission period vary depending on the spread rate SF of the link or downlink.

However, the 'common packet channel allocation method' filed by 'LG Information Communication Co., Ltd.' does not consider the transmission time of the CD code for detecting the collision of the common packet channel.

This is because if the CD code is transmitted at the start of transmission of the power control preamble or at a time when the channel environment changes during the transmission period of the power control preamble, the base station may receive an incorrect CD code and detect a collision of the common packet channel. There is a problem that can not be performed.

Accordingly, an object of the present invention has been made in view of the above-described problems of the prior art, and performs collision detection and removal of a common packet channel after transmission powers of a user side and a base station are stabilized in consideration of a change in channel environment. To provide a common packet channel allocation method.

According to an aspect of the present invention for achieving the above object, in the method for allocating a common packet channel using a common packet channel to which one base station and a plurality of terminals are connected, power control for the common packet channel After a predetermined interval from an initialization time point, any one terminal transmitting a specific code for detecting a collision of the common packet channel allocation to the base station, and receiving a response code for the transmitted specific code from the base station And transmitting, by the any one terminal, the message to the base station via the common packet channel. Preferably, in the transmitting of the specific code, after the transmission of the specific code, the common packet channel is deleted. And further comprising the step of initiating the transmission of the message. The specific code may use any one of 16-bit and 8-bit Hadamard codes, and the response code may be any one of a 16-bit and an 8-bit Bi-Orthogonal code. Preferably, the transmission interval of the specific code depends on the uplink spreading rate, the repeated transmission of the code, and the code length. Preferably, the predetermined interval is within the first half time slot interval of one radio frame. Preferably, the response code is inserted and transmitted in the transport format combination indicator (TFCI) field of the downlink dedicated physical control channel or data field of the downlink dedicated data channel for one or two slots.

1 is a view showing the overall structure of a conventional common packet channel (CPCH).

2 illustrates a structure of a common packet channel according to a first embodiment of the present invention.

3 illustrates a structure of a common packet channel according to a second embodiment of the present invention.

4 is a diagram illustrating a slot structure of a downlink dedicated channel for transmitting an SCDI code according to the present invention.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

The present invention proposes a method for allocating a common packet channel for collision detection and removal of a common packet channel in consideration of a change in a channel environment between a base station and a user.

To this end, in the present invention, after the initialization of the closed loop power control through the power control preamble is stabilized, a collision detection preamble code (SCD-P code) for detecting a collision of a common packet channel is provided. Abbreviated) to the base station, and the base station transmits a collision detection identification code (SCDI code), which is a response signal to the SCD-P code, to the corresponding user.

At this time, the user side transmits a message through the assigned common packet channel immediately after the transmission of the SCD-P code or through the assigned common packet channel after receiving the SCDI code from the base station.

First embodiment

2 is a diagram illustrating a structure of a common packet channel according to a first embodiment of the present invention.

Referring to FIG. 2, the user side and the base station transmit the power control preamble to perform closed loop power control on a common packet channel. At this time, the power control preamble is variable depending on the channel environment, but 15 slots are transmitted for approximately 10 ms.

Then, upon receiving the CD-AICH from the base station, the user side adjusts the transmit power to a level at which the base station can correctly receive the signal according to the power control preamble transmitted through the uplink and downlink dedicated channels, and then the transmit power is increased. SCD-P code for detecting the collision of the common packet channel is transmitted to the base station in the stabilized state.

That is, the user side does not transmit the SCD-P code for several slots until the transmission power is stabilized after the transmission of the power control preamble starts. In this case, the SCD-P code is transmitted after a minimum of 0 slots and a maximum of 7 slots since the transmission power of the user side generally takes about 0 to 7 slots. At this time, the higher the spreading rate SF is, the SCD-P code is transmitted after 0 slot.

In this case, the SCD-P code has 8 lengths having 8 lengths or 16 Hadamard codes having 16 lengths. This 16-length Hadamard code is the same as the RACH preamble signature.

Table 1 below is an example of the SCD-P code.

h ₀ h ₁ h ₂ h ₃ h ₄ h ₅ h ₆ h ₇ h ₈ h ₉ h ₁₀ h ₁₁ h ₁₂ h ₁₃ h ₁₄ h ₁₄ SC _16,1 One One One One One One One One One One One One One One One One SC _16,2 One -One One -One One -One One -One One -One One -One One -One One -One SC _16,3 One One -One -One One One -One -One One One -One -One One One -One -One SC _16,4 One -One -One One One -One -One One One -One -One One One -One -One One SC _16,5 One One One One -One -One -One -One One One One One -One -One -One -One SC _16,6 One -One One -One -One One -One One One -One One -One -One One -One One SC _16,7 One One -One -One -One -One One One One One -One -One -One -One One One SC _16,8 One -One -One One -One One One -One One -One -One One -One One One -One SC _16,9 One One One One One One One One -One -One -One -One -One -One -One -One SC _16,10 One -One One -One One -One One -One -One One -One One -One One -One One SC _16,11 One One -One -One One One -One -One -One -One One One -One -One One One SC _16,12 One -One -One One One -One -One One -One One One -One -One One One -One SC _16,13 One One One One -One -One -One -One -One -One -One -One One One One One SC _16,14 One -One One -One -One One -One One -One One -One One One -One One -One SC _16,15 One One -One -One -One -One One One -One -One One One One One -One -One SC _16,16 One -One -One One -One One One -One -One One One -One One -One -One One

The SCD-P code is transmitted to the base station through an uplink dedicated physical data channel (UL DPDCH) and is transmitted for 1 to 8 slots according to the uplink spread rate (SF), repetitive transmission of the code, and code length. Expressing this formally, the transmission interval of the SCD-P code is variable as shown in Equation 1 below.

2 × P, P = 1, 2, 3, 4 (slot)

For example, if the SCD-P code is transmitted using a Hadamard code having a spread rate of 64 and having an eight length length, the uplink dedicated physical data channel (UL-) is transmitted when the SCD-P code is transmitted for one slot. Since one slot of DPDCH) is 40 bits, eight Hadamard codes are transmitted four or five times during one slot, and if the SCD-P code is transmitted for two slots, eight or ten times are transmitted. will be.

On the other hand, when the same SCD-P code is transmitted from a plurality of users, the base station selects the SCD-P code having the best reception power (that is, the best correlation characteristic) among the transmitted SCD-P codes, and the SCD-P code. One-to-one corresponding SCDI code is transmitted to the user through a downlink-oriented channel.

At this time, the base station receives the TFCI field of the downlink dedicated physical control channel (DL DPCCH) and the data field of the downlink dedicated physical data channel (DL DPDCH) for one or two slots according to the length of the SCDI code after receiving the SCD-P code. Transmit by inserting SCDI code in.

More specifically, the SCDI code is composed of four or eight lengths of Bi-Orthogonal code. When using four lengths of orthogonal code, the selected code of the eight orthogonal codes is downlink-only. In the case of one slot of a channel, and using an eight-length orthogonal code, a code selected from sixteen orthogonal codes is transmitted for two slots of a downlink-only channel. At this time, the SCDI code is transmitted once.

Table 2 below shows an example of a mapping rule between the SCD-P code and the SCDI code.

SCD-P Code SCDI code word One 2 3 ㆍ ····· ㆍ ····· 14 15 16

Then, the user side receiving the SCDI code from the base station starts the transmission of the message (Message) through the assigned common packet channel after one slot.

Second embodiment

3 is a diagram illustrating a structure of a common packet channel according to a second embodiment of the present invention.

Referring to FIG. 3, the user side receiving the CD-AICH from the base station adjusts the transmit power to a power level at which the base station can correctly receive a signal according to the power control preamble transmitted through the uplink and downlink dedicated channels. Then, the SCD-P code for detecting the collision of the common packet channel is transmitted to the base station while the transmission power is stabilized.

That is, the user side does not transmit the SCD-P code for several slots until the transmission power is stabilized after the transmission of the power control preamble starts. In this case, the SCD-P code is transmitted after a minimum of 0 slots and a maximum of 7 slots since the transmission power of the user side generally takes about 0 to 7 slots.

In this case, the SCD-P code has 8 lengths having 8 lengths or 16 Hadamard codes having 16 lengths.

The SCD-P code is transmitted to the base station through an uplink dedicated physical data channel (UL DPDCH) and is transmitted for 1 to 8 slots according to the uplink spread rate (SF), repetitive transmission of the code, and code length.

After transmitting the SCD-P code, the user side starts transmitting the message through the assigned common packet channel regardless of whether the SCDI code is received.

This is to reduce the delay time between transmitting the SCD-P code and receiving the SCDI code, and also in case the channel environment changes after the SCD-P code is transmitted.

On the other hand, when the same SCD-P code is transmitted from a plurality of users, the base station selects the SCD-P code having the best reception power (that is, the best correlation characteristic) among the transmitted SCD-P codes, and the SCD-P code. The one-to-one corresponding SCDI code is transmitted to the user through a downlink-oriented channel in the same manner as described in the first embodiment.

Then, the user receiving the SCDI code from the base station continues to transmit the message through the common packet channel, and the user who does not receive the SCDI code stops transmitting the message after the SCD-P code is transmitted.

The SCD-P codes and the SCDI codes described in the first and second embodiments so far have the same number.

4 is a diagram illustrating a slot structure of a downlink-oriented channel for transmitting an SCDI code according to the present invention.

Referring to FIG. 4, the SCDI code according to the present invention is inserted into a TFCI field of a downlink dedicated physical control channel (DL DPCCH) and a data field of a downlink dedicated physical data channel (DL DPDCH) for one or two slots. do.

If the downlink spread rate (SF) is 512, the SCDI code has 2 bits in the TFCI field of the downlink dedicated physical control channel (DL DPCCH) and 2 bits in the data field of the downlink dedicated physical data channel (DL DPDCH). Inserted and sent.

In addition, the SCDI code is transmitted for one slot of the downlink dedicated channel when using the four length orthogonal codes according to the length of the orthogonal code used, and the downlink dedicated channel when the eight length orthogonal codes are used. Transmitted for 2 slots.

As described above, according to the method for allocating a common packet channel according to the present invention, the collision probability of the common packet channel is reduced by performing collision detection and removal for the common packet channel after the power control is stabilized in consideration of the change in the channel environment. In other words, the common packet channel can be efficiently allocated without error.

In addition, according to the method for allocating a common packet channel according to the present invention, a message can be transmitted through a common packet channel immediately after transmission of the SCD-P code at the user side, thereby reducing the time delay and providing a faster communication service. .

Claims (8)

In using a common packet channel to which one base station and a plurality of terminals are connected, Transmitting a specific code for detecting a collision of the common packet channel allocation to the base station by any one terminal after a predetermined period from a power control initialization time point for the common packet channel; Receiving a response code for the transmitted specific code from the base station; And transmitting a message to the base station through the common packet channel by any one terminal. The method of claim 1, wherein in the step of transmitting the specific code, And after the transmission of the specific code, starting the transmission of the message through the common packet channel. The method of claim 1, wherein the specific code uses one of 16-bit and 8-bit Hadamard codes, and the response code is a 16-bit and 8-bit long orthogonal code (Bi-). Orthogonal code). 11. The method of claim 1, wherein the transmission interval of the specific code is dependent on uplink spreading rate, repetitive transmission of code, and code length. The method of claim 1, wherein the predetermined interval is within a first time slot interval of one radio frame. 2. The common method of claim 1, wherein the response code is inserted and transmitted in a transport format combination indicator (TFCI) field of a downlink dedicated physical control channel or a data field of a downlink dedicated data channel for one or two slots. Packet channel allocation method. In using a common packet channel to which a base station and a plurality of terminals are connected, Receiving, by the base station, a specific code for detecting a collision of the common packet channel allocation from an arbitrary terminal after a predetermined period from a power control initialization time point for the common packet channel; Transmitting a response code for the specific code transmitted to the arbitrary terminal; And the base station receives a message transmitted by the any one terminal through the common packet channel. 8. The method of claim 7, wherein in the step of receiving the specific code, And after receiving the specific code, starting receiving the message through the common packet channel.