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A multi-network assisted positioning method for distributed large-scale multi-antenna systems

A multi-antenna system, assisted positioning technology, applied in the field of positioning, machine learning, and wireless communication, can solve the problems of deviation of positioning results from accurate values, high data measurement costs, unfavorable practical applications, etc., to improve adaptability, high positioning accuracy, cost reduction effect

Active Publication Date: 2022-07-26
SUN YAT SEN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Nevertheless, the existing solutions [17][18][19][20] require a large amount of historical trajectory information to estimate the next location of the target UE, so it requires high data measurement costs, which is not conducive to practical applications
[0007] In the real environment, with the continuous improvement of users' requirements for positioning accuracy, the training database is also getting larger and larger, which brings additional preliminary work to data collection, so it is difficult to adapt to the rapidly changing scene and high sampling cost. Application scenarios [21] T.Liu, Y.Yang, G.Huang, Y.K.Yeo, and Z.Lin, Driver distraction detection using semi-supervised machine learning [J], IEEE Transactions on Intelligent Transportation Systems, vol.17, no.4 , pp.1108–1120, Apr.2016
For example, in an indoor environment, the movement of indoor facilities such as furniture and objects and the movement of people will cause multipath and shadow effects in signal propagation, resulting in strong time-varying characteristics of RSS, which makes it impossible to analyze the same location after the training data set is collected. The sampling data can be reused for a long time
In the absence of regular update and maintenance, this will cause the problem that the positioning results gradually deviate from the accurate value [22] Li Yanjun, Xu Kaifeng, Shao Jianji. Research on the method of updating Wi-Fi indoor positioning fingerprint database by crowdsourcing [J]. Journal of Sensitive Technology, 2014(12):108-114
Traditional DL-based positioning algorithms do not fully consider the impact of mobile personnel on the RSS of target users in multi-user scenarios, fail to make full use of trajectory information, and require high sampling data collection costs, so they cannot fully meet the positioning needs of real environments. DL-based The positioning algorithm still needs further research

Method used

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  • A multi-network assisted positioning method for distributed large-scale multi-antenna systems
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  • A multi-network assisted positioning method for distributed large-scale multi-antenna systems

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Experimental program
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Effect test

Embodiment 1

[0036] The invention relates to the fields of wireless communication, positioning and machine learning, and includes multiple-input multiple-output (Multiple-Input Multiple-Output, MIMO) technology, a positioning technology based on received signal strength (Received Signal Strength, RSS), and a deep belief neural network (Deep Belief Networks). , DBN), Long-ShortTerm Memory Networks (LSTMN), Back Propagation Neural Networks (BPNN), etc. More specifically, it relates to a multi-network assisted positioning method for distributed large-scale multi-antenna systems, such as figure 1 shown, including the following steps:

[0037] S1: Build a distributed large-scale multi-antenna system, and generate an RSS training dataset based on its indoor diffraction model;

[0038] S2: Based on whether the location information is included, the RSS training data set is divided into a labeled RSS data set LRD and an unlabeled RSS data set URD, and sorted in chronological order;

[0039] S3: T...

Embodiment 2

[0049] (1) Generation process of RSS training data based on diffraction model

[0050] On the basis of Embodiment 1, the indoor positioning scene is as follows image 3 As shown, for ease of presentation, in step S1 of this solution, the same term "UE" is used to represent the device and the person using the device. There are M RRHs and N UEs in a DM-MIMO system, and each RRH or UE has one antenna. The UE moves on a random route and sends pilot signals to all RRHs. The system proposed in this scheme rationally arranges the pilot frequencies of each UE, and adopts mechanisms such as time division multiplexing to keep the pilot frequencies orthogonal to each other, so as to eliminate multi-user interference. Without loss of generality, assume that in the time domain, each UE transmits T P time-domain pilots are used for training, and the time interval between two consecutive pilots of the same UE is t 0 . It is worth noting that if image 3 As shown, due to the dynamic top...

Embodiment 3

[0178] More specifically, in order to further verify the beneficial effects of this scheme, such as Figure 8 As shown, taking the number of RRHs M=20 as an example, a schematic diagram of two different antenna distributions is given, and this solution shows the performance of the DLBP method under the conditions of different antenna distributions. Unless otherwise stated, the main simulation parameters are listed in Table 1, where M and p L The value of may vary depending on the applicable simulation scenario. Meanwhile, traditional DBN-based Positioning (DBNP) and BPNN-based Positioning (BPNN-based Positioning, BPNNP) methods are used as comparison methods.

[0179] Table 1 Simulation parameter table

[0180]

[0181]

[0182] Figure 9 The localization performance under different numbers of RRHs is shown, where the proportion of LRDs in all training data is set to p L = 0.6. It can be observed that the DLBP method proposed in this scheme achieves the lowest RMSE am...

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Abstract

The present invention proposes a multi-network assisted positioning method for distributed large-scale multi-antenna system, a diffraction model for feature acquisition is introduced into the RSS-based DBN positioning, and the new RSS feature effectively considers other UEs The impact on the target UE improves the adaptability of the trained DLBP network in multi-user scenarios; LSTMN is used to analyze the motion trajectory of the UE with only a small amount of trajectory information, and by using the DBN estimation results and a small number of location samples, The complete trajectory of the UE can be effectively obtained. Compared with the traditional method, the cost of historical trajectory information collection and measurement is greatly reduced; the method combining the DBN and LSTMN estimation results through BPNN can achieve higher positioning accuracy.

Description

technical field [0001] The invention relates to the technical fields of wireless communication, positioning and machine learning, in particular to a multi-network assisted positioning method for a distributed large-scale multi-antenna system. Background technique [0002] With the development of the Fifth Generation (5G) network, the location information of terminal devices can be used to provide regional advertisements, content caching, and personnel tracking services under emergency calls, which makes wireless user location technology become an important part of the academic and industry circles. One of the research directions [1] Zhang Zixuan, Huang Jinan, Cai Zihua. Analysis of the development trend of 5G communication and positioning integrated network [J]. Guangdong Communication Technology, 2019,39(02):45-49. At present, a common outdoor communication system mainly adopts a satellite-based Global Positioning System (Global Positioning System, GPS) to acquire the locat...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04W4/02H04W4/33H04B7/0413G06N3/04G06N3/08
CPCH04W4/023H04W4/33H04B7/0413G06N3/084G06N3/044G06N3/045
Inventor 江明武晓鸽
Owner SUN YAT SEN UNIV
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