Cramer-Rao bounds in the estimation of time of arrival in fading channels

Jativa, E Rene; Vidal, Josep

doi:10.1186/s13634-018-0540-1

Cited by 3 publications

(1 citation statement)

References 59 publications

(101 reference statements)

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“…The transmitter radiates a probing signal and all the receivers observe the signal through two paths: the direct propagation path from transmitter and the indirect reflection path from the object. Each receiver can obtain a differential delay time measurement of the two paths from autocorrelation technique [34] and a bearing angle measurement of the object from the array signal processing technique [35] if the conditions of these pre-processing steps (e.g. sufficient observation period and signal bandwidth) are satisfied.…”

Section: Measurement Modelsmentioning

confidence: 99%

Multistatic Sonar Localization With a Transmitter

2019

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This paper focuses on the problem of multistatic sonar localization with a transmitter where the known signal transmission speed, the transmitter and receiver positions are all contaminated by Gaussian noise. The Cramér-Rao lower bound (CRLB) are derived for the object position and the localization parameters. The analysis in CRLB shows that the localization parameters have a chance to be updated to more accurate ones. Two solutions are then proposed to estimate the object position using the time measurements and angle measurements. One is a two-step closed-form solution based on weighting least squares and the other is a generalized trust region subproblem (GTRS) solution using Newton's method. A recursive MLE is also proposed to update the localization parameters and a more accurate propagation speed can be obtained from the proposed MLE especially when the propagation speed noise is large. Simulations show that the two localization solutions and the propagation speed updated from the proposed MLE can reach their CRLBs.

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Section: Measurement Modelsmentioning

confidence: 99%

Multistatic Sonar Localization With a Transmitter

2019

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5G Positioning Reference Signal Configuration for Integrated Terrestrial/Non-Terrestrial Network Scenario

Gonzalez-Garrido

Querol

Chatzinotas

2023

2023 IEEE/ION Position, Location and Navigation Symposium (PLANS)

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Purposeful co-design of OFDM signals for ranging and communications

Graff,

Humphreys

2024

EURASIP J. Adv. Signal Process.

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This paper analyzes the fundamental trade-offs that occur in the co-design of pilot resource allocations in orthogonal frequency-division multiplexing signals for both ranging (via time-of-arrival estimation) and communications. These trade-offs are quantified through the Shannon capacity bound, probability of outage, and the Ziv–Zakai bound on range estimation variance. Bounds are derived for signals experiencing frequency-selective Rayleigh block fading, accounting for the impact of limited channel knowledge and multi-antenna reception. Uncompensated carrier frequency offset and phase errors are also factored into the capacity bounds. Analysis based on the derived bounds demonstrates how Pareto-optimal design choices can be made to optimize the communication throughput, probability of outage, and ranging variance. Different pilot resource allocation strategies are then analyzed, showing how Pareto-optimal design choices change depending on the channel.

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Cramer-Rao bounds in the estimation of time of arrival in fading channels

Cited by 3 publications

References 59 publications

Multistatic Sonar Localization With a Transmitter

Multistatic Sonar Localization With a Transmitter

5G Positioning Reference Signal Configuration for Integrated Terrestrial/Non-Terrestrial Network Scenario

Purposeful co-design of OFDM signals for ranging and communications

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