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Method for updating single-carrier frequency domain to multi-carrier frequency domain

A multi-carrier frequency and single-carrier frequency technology is applied in network planning, electrical components, radio/inductive link selection and arrangement, etc. It can solve the problems of increasing NodeB development and maintenance costs, affecting the accuracy of RNC admission control, etc., and achieving benefits The effect of business maintenance and accuracy assurance

Active Publication Date: 2007-04-04
CHINA POTEVIO INFORMATION IND
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AI Technical Summary

Problems solved by technology

[0014] (3) The multi-frequency point cell is regarded as a local resource. Since one Local Cell corresponds to multiple frequency point resources, it will affect the accuracy of RNC admission control
[0015] (4) Increased development and maintenance costs of Node B

Method used

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  • Method for updating single-carrier frequency domain to multi-carrier frequency domain
  • Method for updating single-carrier frequency domain to multi-carrier frequency domain
  • Method for updating single-carrier frequency domain to multi-carrier frequency domain

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Embodiment Construction

[0034] It should be noted that the reason proposed by the multi-frequency point cell is to make better use of common channel radio resources and reduce the interference of the same-frequency broadcast channel and DwPTS between different regions. On the air interface, the biggest difference between a multi-frequency cell and a single-frequency cell is in the RRC layer protocol, but on the air interface physical layer, there is basically no change, and the physical layer only performs corresponding operations according to the RRC configuration. On the RAN side, in multi-carrier and single-carrier cells, the only difference in physical layer processing lies in whether pilots and common channels are configured at a certain frequency point, and the frequency point of public measurement is different.

[0035] Therefore, the concept of a multi-frequency cell can be limited to the scope of the RNC, and the Node B, as a transceiver, does not care whether multiple common control resource...

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Abstract

The method comprises: setting multi-carrier entity in radio network controller (RNC) supporting single-carrier cell; each multi-carrier cell comprises at least one cell corresponding to one frequency point; setting logical cell corresponding to each frequency point in said multi-carrier cell; the RNC initiates public channel configuration process in at least one logical cell and builds the public channel in the logical cell.

Description

technical field [0001] The invention relates to the technical field of time division multiplexing wideband code division multiple access (TD-SCDMA), in particular to a method for upgrading a single carrier frequency cell to a multi-carrier frequency cell in the TD-SCDMA system. Background technique [0002] The physical channel of TD-SCDMA includes three-layer structure: the first layer is radio frame, the second layer is subframe, and the third layer is time slot. Specifically, the physical channel is composed of several radio frames, and each radio frame is divided into two consecutive subframes, and each subframe includes seven service time slots and three special time slots. As shown in Figure 1, among the seven business time slots, the 0th time slot is fixedly allocated to the downlink, the first time slot is fixedly allocated to the uplink, and the rest of the time slots can be allocated arbitrarily between the uplink and downlink. The three special time slots in the ...

Claims

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Application Information

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IPC IPC(8): H04Q7/36H04W16/02
Inventor 曲晓宁
Owner CHINA POTEVIO INFORMATION IND
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