Abstract
This work addresses the problem of target localization in adverse non-line-of-sight (NLOS) environments by using received signal strength (RSS) and time of arrival (TOA) measurements. It is inspired by a recently published work in which authors discuss about a critical distance below and above which employing combined RSS-TOA measurements is inferior to employing RSS-only and TOA-only measurements, respectively. Here, we revise state-of-the-art estimators for the considered target localization problem and study their performance against their counterparts that employ each individual measurement exclusively. It is shown that the hybrid approach is not the best one by default. Thus, we propose a simple heuristic approach to choose the best measurement for each link, and we show that it can enhance the performance of an estimator. The new approach implicitly relies on the concept of the critical distance, but does not assume certain link parameters as given. Our simulations corroborate with findings available in the literature for line-of-sight (LOS) to a certain extent, but they indicate that more work is required for NLOS environments. Moreover, they show that the heuristic approach works well, matching or even improving the performance of the best fixed choice in all considered scenarios.
Highlights
Note that HWLS in [18], NR in [23] and joint ad-hoc (JAH) [20] were all implemented here with perfect knowledge of noise powers and perfect knowledge of bi and β i, which does not hold in practice
It was shown that the considered estimators do not profit from the hybrid measurements by default, and that there is a gray area that needs to be taken into consideration, which depends on inter-sensor distances
A simple heuristic approach was presented in order to choose the best measurement for each link, which is used for performing the localization
Summary
The aspiration for precise knowledge about the location of objects and/or people has motivated a great deal of scientific research recently [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22] This is due to a firm growth of the range of enabling devices and technologies, as well as the need for seamless solutions for location-based services. Development of different localization strategies from already deployed technologies, e.g., from various terrestrial radio frequency sources is of great practical interest Among others, these include concepts based on received signal strength (RSS), angle of arrival, time of arrival (TOA), or a combination of them [6,9,16,18,19,20,21,22].
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