Mark L. Fowler scite author profile

Standard phase-based frequency estimation has a threshold that is high, is frequency dependent, and does not decrease with increasing signal length. These problems are solved by processing the signal with a highly overlapped filter bank before applying phase-based frequency estimation. By exploiting decimation, a closed-form matrix inversion, and cascades of simple filter banks, the computational complexity is kept low.Index Terms-Filter banks, frequency estimation, quadrature mirror filters.

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Fisher-information-based data compression for estimation using two sensors

Fowler

Chen

2005

IEEE Trans. Aerosp. Electron. Syst.

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A transform coding data compression method is developed for the case of making estimates from data collected using two sensors. We focus on the transfer of data from one sensor to another sensor, where the shared data is then used with the local data to estimate a parameter. Particular attention is paid to the case where neither sensor alone can estimate the parameter from its data. The method uses an operational rate-distortion viewpoint together with a distortion measure based on the Fisher information of the estimation problem. Explicit means of using the transformed data to compute operational measures of the Fisher information are given. An integer optimization version of the Lagrange multiplier method is used to efficiently determine the optimal operating point of the transform compression algorithm. The advantages of the method lie in its ability to use transform coding to effectively capture the impact of compression on estimation accuracy in a way that lends itself to efficient optimization within the operational rate-distortion viewpoint. The applicability and effectiveness of the method are demonstrated for two illustrative examples: (i) estimation of time-difference-ofarrival (TDOA), and (ii) estimation of frequency-difference-of-arrival (FDOA). In these two cases it is shown that the Fisher-information-based method outperforms the standard MSE approach.

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Distributed computation for direct position determination emitter location

Pourhomayoun

Fowler

2014

IEEE Trans. Aerosp. Electron. Syst.

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Classical geolocation based on time-difference-of-arrival (TDOA) and frequency-difference-of-arrival (FDOA) uses a two-stage estimation approach. The single-stage approach direct position determination (DPD) has been proposed to improve accuracy. However, unlike the classical two-stage method, the proposed DPD method does all processing at a single node. That is not desirable when computational capabilities are limited and makes the approach nonrobust to loss of the central sensor. We develop and assess several DPD variants that address these issues.

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Mark L. Fowler

Signal models for TDOA/FDOA estimation

Extending the threshold and frequency range for phase-based frequency estimation

Fisher-information-based data compression for estimation using two sensors

Distributed computation for direct position determination emitter location

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