Coded Estimation: Design of Backscatter Array Codes for 3D Orientation Estimation. Rammal, M. R., Diggavi, S., & Sabharwal, A. arXiv preprint arXiv:2112.00883, 2021. ![Coded Estimation: Design of Backscatter Array Codes for 3D Orientation Estimation [link]](https://bibbase.org/img/filetypes/link.svg "link")
Arxiv abstract bibtex 2 downloads We consider the problem of estimating the orientation of a 3D object with the assistance of configurable backscatter tags. We explore the idea of designing tag response codes to improve the accuracy of orientation estimation. To minimize the difference between the true and estimated orientation, we propose two code design criteria. We also derive a lower bound on the worst-case error using Le Cam's method and provide simulation results for multiple scenarios including line-of-sight only and multipath, comparing the theoretical bounds to those achieved by the designs.
@article{rammal2021coded,
title={Coded Estimation: Design of Backscatter Array Codes for 3D Orientation Estimation},
author={Rammal, Mohamad Rida and Diggavi, Suhas and Sabharwal, Ashutosh},
journal={arXiv preprint arXiv:2112.00883},
year={2021},
url_arxiv={https://arxiv.org/abs/2112.00883},
tags={journalSub,WiNetnew,WiIm},
type={1},
abstract={We consider the problem of estimating the orientation of a 3D object with the assistance of configurable backscatter tags. We explore the idea of designing tag response codes to improve the accuracy of orientation estimation. To minimize the difference between the true and estimated orientation, we propose two code design criteria. We also derive a lower bound on the worst-case error using Le Cam's method and provide simulation results for multiple scenarios including line-of-sight only and multipath, comparing the theoretical bounds to those achieved by the designs.},
}
Downloads: 2
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