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- Title
UWB Chaotic Pulse-Based Ranging: Time-of-Flight Approach.
- Authors
Prokhorov, Vladimir A.; Kuzmin, Lev V.; Krivenko, Andrey A.; Vladyka, Pavel A.; Efremova, Elena V.
- Abstract
Nowadays, indoor positioning using ultra-wideband (UWB) signals is actively being developed with the aim of implementing existing ideas and solutions, improving their performance, and searching for new measurement schemes. This paper proposes an approach to estimating the distance between wireless nodes by measuring radio signal propagation time using UWB chaotic radio pulses and UWB transceivers. This type of signal is a simple and practically interesting alternative to radio carriers of other types of UWB signals, which are based on packets of pulses (usually ultra-short pulses). The practical interest is caused by the noise-like nature of chaotic radio pulses, as well as their immunity to multipath fading and ease of generation. The aim of this work is to analyze such a system and identify the fundamental limitations inherent in the proposed approach. This paper describes a wireless system for measuring the signal propagation time based on the envelope of chaotic radio pulses using the SS-TWR (Single-Sided Two-Way Ranging) method. A difference scheme is used to determine the range. The characteristics of the proposed system are studied experimentally. The factors related to the threshold scheme for determining the time of arrival of a radio signal that introduce a systematic error into the measurement results are revealed, and approaches to correcting their influence are proposed.
- Subjects
WIRELESS localization; MEASUREMENT errors; WIRELESS communications; SIGNALS & signaling; MICROWAVES
- Publication
Technologies (2227-7080), 2024, Vol 12, Issue 12, p269
- ISSN
2227-7080
- Publication type
Academic Journal
- DOI
10.3390/technologies12120269