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A ranging enhancement method based on multi-band received signal strength

A technology of received signal strength and multi-frequency bands, applied in measuring devices, radio wave measuring systems, instruments, etc., can solve problems such as model mismatch, weak frequency correlation, and increased algorithm complexity, and achieve excellent ranging performance and reduced The effect of small ranging errors

Active Publication Date: 2022-03-29
CHANGAN UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

For example, literature [A.Coluccia, A.Fascista.Onthe Hybrid TOA / RSS Range Estimation in Wireless Sensor Networks[J].IEEETransactions on Wireless Communications,2018,17(1):361-370] and literature [J.Zhang, L.Ding, Y.Wang, L.Hu. Measurement-based indoor NLOS TOA / RSS range error modeling [J]. Electronics Letters, 2016, 52(2): 165-167] proposed to combine RSS information with other measurement information (such as : Arrival time information), which obviously improves the ranging performance, but there are also disadvantages, such as: increasing the complexity of the algorithm
In traditional ranging applications using RSS, the path loss exponent has a weak frequency correlation with the channel measurement data, which leads to model mismatch

Method used

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  • A ranging enhancement method based on multi-band received signal strength
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  • A ranging enhancement method based on multi-band received signal strength

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Embodiment

[0045] A 2.4GHz-5.4GHz channel measurement platform is built in a meeting room of 8*4m, and then the channel measurement is carried out, and finally, according to the measurement data, MATLAB is used for simulation to verify the reliability of the method of the present invention.

[0046] (1) Five anchor nodes are arranged in the scene to be tested, which are the positions of the transmitting antennas for transmitting radio frequency signals. Arrange 120 target nodes in the scene to be tested, which are the positions of the receiving antennas, used to receive the radio frequency signal sent by the anchor node and measure its received power value. The selected target nodes make the 3 anchor nodes correspond to the line-of-sight (LOS) scene, and the remaining 2 anchor nodes correspond to the non-line-of-sight (NLOS) scene, the transmitting and receiving antennas are omnidirectional antennas, and the positions of the transmitting and receiving antennas Measured by a global satell...

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Abstract

The invention discloses a ranging enhancement method based on the received signal strength of multiple frequency bands. Firstly, a transmitting node and a target node are arranged, and for selected N specific frequency bands, a radio frequency receiver is used to measure the channel, and the received signal on each frequency band is collected. power, and record the transmitter-receiver real distance, and construct the sample sets under the visual distance scene and the non-visual distance scene respectively; respectively estimate the path loss index of each sub-band in the corresponding scene for the sample set, and calculate N The covariance matrix of the shadow fading effect obtained on the two frequency bands; the distance between the estimated transmitter and the receiver, the present invention considers the influence of the frequency factor on the path loss index, utilizes multi-band ranging, and adopts the path loss related to the frequency Index, combined with the covariance matrix of shadow fading in multiple frequency bands, estimates the distance between the target and the transmitter, reduces the problem of accuracy degradation caused by model mismatch, overcomes the shortcomings of large changes in received power, and improves ranging accuracy.

Description

technical field [0001] The invention belongs to the technical field of radio communication, and in particular relates to a distance measurement enhancement method based on multi-band received signal strength. Background technique [0002] Received signal strength-based ranging and positioning technology has received extensive attention in the past few decades due to its low cost, simple operation, and ease of use in the mass market. However, due to many factors such as inaccurate path loss model, large power variation caused by shadowing effect, multipath propagation and noise, the performance of ranging based on RSS is limited. In order to improve the ranging accuracy, a lot of researches have been done. For example, literature [A.Coluccia, A.Fascista.Onthe Hybrid TOA / RSS Range Estimation in Wireless Sensor Networks[J].IEEETransactions on Wireless Communications,2018,17(1):361-370] and literature [J.Zhang, L.Ding, Y.Wang, L.Hu. Measurement-based indoor NLOS TOA / RSS range ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01S11/06
CPCG01S11/06
Inventor 王威侯俊刘鑫一姜苏英杨芬宋吉婷燕学智
Owner CHANGAN UNIV
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