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Happy site inconsistency processing method, device and base station

A processing method and processing device technology, applied in power management, network traffic/resource management, wireless communication, etc., can solve problems such as call drop, terminal and NodeB performance degradation, and NodeB's difficulty in deciding whether the terminal is happy or unhappy, etc., to achieve Efficient performance, reduced call drop rate, optimized processing effect

Inactive Publication Date: 2010-12-29
ZTE CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0024] For the case where the Happy bit on the E-DPCCH of the main carrier and the auxiliary carrier are inconsistent, it is difficult for the NodeB to decide whether the terminal is happy or unhappy
At present, the agreement has not given the judgment criteria in this regard. In this way, because the NodeB cannot judge the consequences that will directly affect the control, it may even cause call drop, resulting in the performance degradation of the terminal and NodeB.

Method used

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  • Happy site inconsistency processing method, device and base station
  • Happy site inconsistency processing method, device and base station
  • Happy site inconsistency processing method, device and base station

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0069] In this embodiment, the actual state of the terminal is unhappy, unhappy should be sent on the E-DPCCH of the main carrier and the auxiliary carrier, and the corresponding mapping value should be 0, and the Happy bit on the E-DPCCH of the uplink main carrier received by the NodeB is happy, that is, the mapping value is 1, and the happy bit on the E-DPCCH of the received uplink secondary carrier is unhappy, that is, the mapping value is 0. In this embodiment, the processing method for the inconsistency of the Happy bits is as follows: figure 2 shown, including the following steps:

[0070] Step 201: NodeB receives the information on the primary carrier and secondary carrier E-DPCCH reported by the terminal;

[0071] Steps 202-203: NodeB obtains the Happy bit on the E-DPCCH of the main carrier and the auxiliary carrier respectively, the Happy bit on the E-DPCCH of the main carrier is happy, and the mapping value is 1; the Happy bit on the E-DPCCH of the auxiliary carrie...

Embodiment 2

[0074] In this embodiment, the actual state of the terminal is happy, happy should be sent on the E-DPCCH of the main carrier and the auxiliary carrier, and the corresponding mapping value should be 1, and the Happy bit on the E-DPCCH of the uplink main carrier received by the NodeB is happy, that is, the mapping value is 1, and the happy bit on the E-DPCCH of the received uplink secondary carrier is unhappy, that is, the mapping value is 0. In this embodiment, the processing method for the inconsistency of the Happy bits is as follows: image 3 shown, including the following steps:

[0075] Step 301: NodeB receives the information on the primary carrier and secondary carrier E-DPCCH reported by the terminal;

[0076] Steps 302-303: NodeB obtains the Happy bit on the E-DPCCH of the main carrier and the auxiliary carrier respectively, the Happy bit on the E-DPCCH of the main carrier is happy, and the mapping value is 1; the Happy bit on the E-DPCCH of the auxiliary carrier It...

Embodiment 3

[0079] In this embodiment, the actual state of the terminal is unhappy, unhappy should be sent on the E-DPCCH of the main carrier and the auxiliary carrier, and the corresponding mapping value should be 0, and the Happy bit on the E-DPCCH of the uplink main carrier received by the NodeB is unhappy, that is, the mapping value is 0, and the happy bit on the E-DPCCH of the received uplink secondary carrier is happy, that is, the mapping value is 1. In this embodiment, the processing method for the inconsistency of the Happy bits is as follows: Figure 4 shown, including the following steps:

[0080] Step 401: NodeB receives the information on the primary carrier and secondary carrier E-DPCCH reported by the terminal;

[0081] Steps 402-403: NodeB obtains the Happy bit on the E-DPCCH of the main carrier and the auxiliary carrier respectively, the Happy bit on the E-DPCCH of the main carrier is unhappy, and the mapping value is 0; the Happy bit on the E-DPCCH of the auxiliary carr...

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Abstract

The invention discloses a happy site inconsistency processing method, which comprises the following steps of: receiving information sent by a terminal from enhanced uplink control channels (E-DPCCH) of a main carrier and an auxiliary carrier by a NodeB; and acquiring happy sites of the main carrier and the auxiliary carrier on respective E-DPCCH respectively, judging whether the two happy sites are consistent, and determining the terminal as unhappy side by the NodeB when the two happy sites are inconsistent. The invention also discloses a happy site inconsistency processing device and a base station at the same time. The method and the device can simply and efficiently optimize the performance of the terminal and the NodeB.

Description

technical field [0001] The invention relates to an information processing technology on an uplink enhanced control channel (E-DPCCH), in particular to a processing method, device and base station for inconsistent Happy bits on the E-DPCCH. Background technique [0002] In the wideband code division multiple access (WCDMA, Wideband Code Division Multiple Access) mobile communication system, the high speed uplink packet access (HSUPA, High Speed ​​Uplink PacketAccess) function has been realized, that is: the introduction of wireless side uplink enhancement technology, HSUPA adopts Physical layer fast retransmission and soft combining (HARQ, Hybrid Automatic Repeat request), Node B (NodeB) distributed scheduling, shorter transmission time interval (TTI, Transmission Time Interval), high-order modulation and other technologies enable the maximum uplink of a single cell The data throughput rate reaches 5.76Mbit / s, which greatly enhances the data service carrying capacity and spec...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04W28/18H04W72/04H04W52/04
Inventor 贺美芳程翔张瑜
Owner ZTE CORP
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