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Method and device for measuring LTE terminal in idle state

A measurement method and a technology of a measurement device, applied in the field of mobile communications, can solve the problems of UTRAN system not distinguishing between WCDMA and TD-SCDMA, failure of reselection, and great influence on power consumption of LTE terminals, etc., so as to reduce the probability of failure of reselection and control Effect of Standby Power Consumption

Active Publication Date: 2016-08-03
CHINA MOBILE COMM GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

That is to say, the original target cell for reselection may have experienced serious loss or fading, and there is a high probability that reselection will fail.
[0013] 2) The measurement of the UTRAN system in the current standard scheme does not distinguish between WCDMA and TD-SCDMA. Since the WCDMA bandwidth is 5M, which is much larger than the TD-SCDMA bandwidth of 1.6MHz, generally speaking, the number of TD-SCDMA frequency points is greater than that of WCDMA.
[0014] In addition, there is currently an improved solution to the standard technical solution, that is, when LTE measures different systems, the measurement period for any configured frequency point of different systems is uniformly 5*DRX (taking DRX=1.28s as an example ), although this solution shortens the reselection measurement delay, it has a great impact on the power consumption of LTE terminals in the idle state due to the increase in the number of measurements on different system frequencies

Method used

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  • Method and device for measuring LTE terminal in idle state
  • Method and device for measuring LTE terminal in idle state
  • Method and device for measuring LTE terminal in idle state

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0056] figure 1 It is a schematic flow chart of the measurement method of the LTE terminal in the idle state of this embodiment, as figure 1 As shown, this embodiment includes:

[0057] Step 101: Obtain the current mobile speed level of the LTE terminal in the idle state;

[0058] Step 102: Obtain the current remaining battery power index R of the LTE terminal;

[0059] Step 103: Determine the measurement period of the LTE terminal for the same-frequency cell, the different-system cell and / or the different-frequency cell according to the acquired moving speed level and the remaining battery power index R.

[0060] The measurement method of the LTE terminal in the idle state of this embodiment first obtains the current moving speed level and the remaining battery power index of the LTE terminal in the idle state, and then determines whether the LTE terminal is on the same frequency according to the obtained moving speed level and the remaining battery power index. The measur...

Embodiment 2

[0062] figure 2 It is a schematic flow chart of the measurement method of the LTE terminal in the idle state of this embodiment, as figure 2 As shown, this embodiment includes:

[0063] Step 201: Obtain the reselection times N of the LTE terminal within the set time, the reselection times N includes the number of intra-system reselections and the inter-system reselection coefficient; when N is greater than the preset N_high, determine that the LTE terminal is currently The mobile speed level of the LTE terminal is high mobility; when N is less than the preset N_low, it is determined that the current mobile speed level of the LTE terminal is low mobility; when N is not greater than N_high and not less than N_low, it is determined that the LTE terminal is currently The movement speed class of is medium mobility;

[0064] Step 202: Obtain the current remaining battery power index R of the LTE terminal;

[0065] Step 203: Determine the measurement period of the LTE terminal f...

Embodiment 3

[0068] image 3 It is a schematic flow chart of the measurement method of the LTE terminal in the idle state of this embodiment, as image 3 As shown, this embodiment includes:

[0069] Step 301: Obtain the reselection times N of the LTE terminal within the set time, the reselection times N includes the intra-system reselection times and the inter-system reselection coefficient; when N is greater than the preset N_high, determine that the LTE The current mobile speed level of the terminal is high mobility; when N is less than the preset N_low, it is determined that the current mobile speed level of the LTE terminal is low mobility; when N is not greater than N_high and not less than N_low, it is determined that the LTE The current mobile speed level of the terminal is medium mobility;

[0070] Step 302: Obtain the total battery capacity W of the LTE terminal and the current remaining battery power W_r, and use the ratio of the remaining battery power W_r to the total battery...

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Abstract

The invention provides a method and a device for measuring an LTE terminal in an idle state, and belongs to the field of mobile communication. The method for measuring an LTE terminal in an idle state comprises the following steps: acquiring the current moving speed grade of an LTE terminal in an idle state; acquiring the current battery remaining power index R of the LTE terminal; and determining the measurement cycle of the LTE terminal for an intra-frequency cell, an inter-system cell and / or an inter-frequency cell according to the acquired moving speed grade and the battery remaining power index R. Through the technical scheme of the invention, the influence of inter-frequency and inter-system measurement on the power consumption of the terminal in an idle state can be reduced under the premise of ensuring the re-selection measurement performance.

Description

technical field [0001] The invention relates to the field of mobile communication, in particular to a method and device for measuring an LTE terminal in an idle state. Background technique [0002] In the idle state, the terminal triggers cell reselection by monitoring the measured values ​​of the serving cell and neighboring cells. Neighboring cells may include intra-frequency cells of the same access system, inter-frequency cells, and inter-frequency cells of different access systems. Different from the 2 / 3G network, the reselection of the idle state under the LTE (LongTerm Evolution, Long Term Evolution) network introduces the concept of priority. The reselection priority is divided according to the carrier frequency and is configured by the network. The priority of different carrier frequencies may be Equal may or may not be equal. [0003] At present, the reselection measurement of the terminal under the LTE network mainly consists of the following steps: [0004] 1....

Claims

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Application Information

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IPC IPC(8): H04W24/08H04W52/02H04W36/00
CPCY02D30/70
Inventor 赵琳郭卫江常连王小旭江海涛
Owner CHINA MOBILE COMM GRP CO LTD
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