Method and device for distributing temporary recognition number of subdistrict wireless network

A network terminal and user equipment technology, applied in wireless communication, network data management, radio/inductive link selection and arrangement, etc., can solve problems such as long C-RNTI sequence length, heavy C-RNTI burden, and heavy signaling burden , to achieve the effect of optimizing the random access process, reducing the indication information bits, and reducing the signaling burden

Inactive Publication Date: 2008-04-02
BEIJING SAMSUNG TELECOM R&D CENT +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although in this way, the user equipment can obtain the allocation of C-RNTI earlier, but because the length of the C-RNTI sequence is long, and the network end cannot obtain accurate channel quality information when sending the response of the preamble sequence to the user equipment, At this time, the C-RNTI is assigned to the user equipment, and the signaling burden is relatively large
In addition, some companies currently propose to use the L1 / L2 control channel to send the response of the random access preamble to the user equipment, although the use of the L1 / L2 control channel to transmit the response of the preamble will avoid the signaling burden required for allocating the downlink shared data channel. However, due to the heavy burden of transmitting C-RNTI, it is almost impossible to use the L1 / L2 control channel to transmit the allocation of C-RNTI

Method used

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  • Method and device for distributing temporary recognition number of subdistrict wireless network
  • Method and device for distributing temporary recognition number of subdistrict wireless network
  • Method and device for distributing temporary recognition number of subdistrict wireless network

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0145] The following assumptions are given here:

[0146] - The preamble sequence of random access is sent every 10ms interval;

[0147] - There are 4 subframes in every 10ms interval that can send the random access preamble;

[0148] - There is one random access channel (frequency band with 1.25MHz bandwidth) in each subframe that can send random access preamble;

[0149] - There are 64 random access preamble sequences available to the system, 32 of which are used to initiate an asynchronous random access request requiring C-RNTI allocation (the user equipment does not have a C-RNTI).

[0150] According to the above assumptions, the C-RNTI space of the system can be grouped as follows according to the method proposed by the present invention:

[0151] Table 5 The grouping method of the C-RNTI space in the first implementation of the C-RNTI allocation method proposed by the present invention in the embodiment

[0152] C-RNTI assignment

instruct

(...

Embodiment 2

[0159] The following assumptions are given here:

[0160] - The preamble sequence of random access is sent every 10ms interval;

[0161]- There are 4 subframes in every 10ms interval that can send the random access preamble;

[0162] - There is one random access channel (frequency band with 1.25MHz bandwidth) in each subframe that can send random access preamble;

[0163] - There are 64 random access preamble sequences available to the system, 32 of which are used to initiate an asynchronous random access request requiring C-RNTI allocation (the user equipment does not have a C-RNTI).

[0164] According to the above assumptions, the C-RNTI spatial grouping of the system can be given as shown in Table 5 according to the method proposed by the present invention.

[0165] It can be seen from Table 5 that the 65536 C-RNTIs in the C-RNTI allocation space are divided into 32×4=128 according to the different random access preamble sequences sent by the user equipment and the differ...

Embodiment 3

[0175] The following assumptions are given here:

[0176] - There are 64 random access preamble sequences available to the system.

[0177] According to the above assumptions, the C-RNTI spatial grouping of the system can be given as shown in Table 7 according to the method proposed by the present invention.

[0178] Table 7 Grouping method of C-RNTI space in embodiment 3

[0179]

C-RNTI allocation means

Show

leader sequence

sequence 0

sequence 1

...

sequence 63

group 0

Group 1

...

group 63

0000000000

C-RNTI 0

C-RNTI 1

...

C-RNTI 63

0000000001

C-RNTI 64

C-RNTI 64+1

...

C-RNTI 2 * 64-1

0000000010

C-RNTI 2 * 64

C-RNTI 2 * 64+1

...

C-RNTI 3 * 64-1

0000000011

C-RNTI 3 * 64

C-RNTI 3 * 64+1

...

C-RNTI 4 * 64-1

...

...

...

...

...

1111111110

...

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PUM

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Abstract

A base station distributes C-RNTI method comprising steps: the user equipment sends the random access leader sequence to the base station; the base station sends the response message to the random access leader sequence to the user equipment, the message comprises: a distributing information of the uplink resource, a time regulating information, and an information together with the random access leader sequence identification number indicating CRNTI. The user equipment will send L3 message to the network end; the network end will send response of the L3 message to the user equipment. The present invention uses the random access leader sequence and sending sub-frame used by the user equipment and detected by the base station comparing with the traditional C-RNTI distributing method. The present invention sends the random access channel information to packet C-RNTI, thereby decreasing the indicating information bit needed by the C-RNTI distribution, decreasing the signaling burden needed by the C-RNTI distribution, optimizing the random access course, promoting the performance of the random access.

Description

technical field [0001] The invention relates to a method for distributing cell radio network temporary identification number (C-RNTI) used for asynchronous random access process in a mobile radio communication system. Background technique [0002] Now, the third generation partnership project (referred to as 3GPP) standardization organization has begun to carry out long-term evolution (LTE) of its existing system specifications. According to the current discussion about LTE, Orthogonal Frequency Division Multiplexing (OFDM) technology will be used as the downlink physical layer transmission technology in LTE, and single carrier frequency division multiple access (SC-FDMA for short) will be used as the uplink physical layer transmission technology in LTE. Layer transfer technology. [0003] A very important process in the LTE communication system is the random access process, and the random access process is divided into a synchronous random access process and an asynchronou...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04Q7/38H04Q7/36H04W8/26H04W74/08
Inventor 孙程君张玉建李小强李周镐
Owner BEIJING SAMSUNG TELECOM R&D CENT
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