Abstract
In recent years, the rapid development of microelectronics, wireless communications, and electro-mechanical systems has occurred. The wireless sensor network (WSN) has been widely used in many applications. The localization of a mobile node is one of the key technologies for WSN. Among the factors that would affect the accuracy of mobile localization, non-line of sight (NLOS) propagation caused by a complicated environment plays a vital role. In this paper, we present a hierarchical voting based mixed filter (HVMF) localization method for a mobile node in a mixed line of sight (LOS) and NLOS environment. We firstly propose a condition detection and distance correction algorithm based on hierarchical voting. Then, a mixed square root unscented Kalman filter (SRUKF) and a particle filter (PF) are used to filter the larger measurement error. Finally, the filtered results are subjected to convex optimization and the maximum likelihood estimation to estimate the position of the mobile node. The proposed method does not require prior information about the statistical properties of the NLOS errors and operates in a 2D scenario. It can be applied to time of arrival (TOA), time difference of arrival (TDOA), received signal (RSS), and other measurement methods. The simulation results show that the HVMF algorithm can efficiently reduce the effect of NLOS errors and can achieve higher localization accuracy than the Kalman filter and PF. The proposed algorithm is robust to the NLOS errors.
Highlights
The wireless sensor network (WSN) is a network that consists of hundreds of tiny sensor nodes.The sensor nodes are randomly deployed in the monitoring field and they work cooperatively to gather physical information through wireless links [1]
We propose a hierarchical voting based mixed filter (HVMF) localization algorithm to mitigate the non-line of sight (NLOS) error, which is suitable for a 2D scenario
This paper proposes a HVMF algorithm based on hierarchical voting for the aim of the localization of mobile nodes in mixed line of sight (LOS) and NLOS environments
Summary
The wireless sensor network (WSN) is a network that consists of hundreds of tiny sensor nodes. The sensor nodes are randomly deployed in the monitoring field and they work cooperatively to gather physical information through wireless links [1]. WSN have been used in various applications, such as event detection (fires, floods) [4], monitoring (health care, industrial, agricultural, environmental) [5,6], energy-efficient routing [7,8], exploration (underground and undersea) [9], and surveillance [10]. Global positioning system (GPS) is one of the well-known solutions to the outdoor positioning problem, but the localization accuracy of GPS cannot achieve the requirements of indoor positioning [11]. The WSN based indoor localization has attracted much attention and become a research hotspot in recent years [12]. There are two types of nodes in the WSN based localization
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