Complexity Reduction in Machine Learning-Based Wireless Positioning: Minimum Description Features

Myeung Suk Oh; Anindya Bijoy Das; Taejoon Kim; David J. Love; Christopher G. Brinton

doi:10.1109/ICC51166.2024.10622841

Complexity Reduction in Machine Learning-Based Wireless Positioning: Minimum Description Features

Myeung Suk Oh, Anindya Bijoy Das, Taejoon Kim, David J. Love, Christopher G. Brinton

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

A recent line of research has been investigating deep learning approaches to wireless positioning (WP). Although these WP algorithms have demonstrated high accuracy and robust performance against diverse channel conditions, they also have a major drawback: they require processing high-dimensional features, which can be prohibitive for mobile applications. In this work, we design a positioning neural network (P-NN) that substantially reduces the complexity of deep learning-based WP through carefully crafted minimum description features. Our feature selection is based on maximum power measurements and their temporal locations to convey information needed to conduct WP. We also develop a novel methodology for adaptively selecting the size of feature space, which optimizes over balancing the expected amount of useful information and classification capability, quantified using information-theoretic measures on the signal bin selection. Numerical results show that P-NN achieves a significant advantage in performance-complexity tradeoff over deep learning baselines that leverage the full power delay profile (PDP).

Original language	English (US)
Title of host publication	ICC 2024 - IEEE International Conference on Communications
Editors	Matthew Valenti, David Reed, Melissa Torres
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	2264-2269
Number of pages	6
ISBN (Electronic)	9781728190549
DOIs	https://doi.org/10.1109/ICC51166.2024.10622841
State	Published - 2024
Externally published	Yes
Event	59th Annual IEEE International Conference on Communications, ICC 2024 - Denver, United States Duration: Jun 9 2024 → Jun 13 2024

Publication series

Name	IEEE International Conference on Communications
ISSN (Print)	1550-3607

Conference

Conference	59th Annual IEEE International Conference on Communications, ICC 2024
Country/Territory	United States
City	Denver
Period	6/9/24 → 6/13/24

All Science Journal Classification (ASJC) codes

Computer Networks and Communications
Electrical and Electronic Engineering

Keywords

Convolutional neural network
KL divergence
Minimum description length (MDL)
Wireless positioning

Access to Document

10.1109/ICC51166.2024.10622841

Cite this

Oh, M. S., Das, A. B., Kim, T., Love, D. J., & Brinton, C. G. (2024). Complexity Reduction in Machine Learning-Based Wireless Positioning: Minimum Description Features. In M. Valenti, D. Reed, & M. Torres (Eds.), ICC 2024 - IEEE International Conference on Communications (pp. 2264-2269). (IEEE International Conference on Communications). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICC51166.2024.10622841

Oh, Myeung Suk ; Das, Anindya Bijoy ; Kim, Taejoon et al. / Complexity Reduction in Machine Learning-Based Wireless Positioning : Minimum Description Features. ICC 2024 - IEEE International Conference on Communications. editor / Matthew Valenti ; David Reed ; Melissa Torres. Institute of Electrical and Electronics Engineers Inc., 2024. pp. 2264-2269 (IEEE International Conference on Communications).

@inproceedings{2b263750f2f745d2875efb0f095cf91b,

title = "Complexity Reduction in Machine Learning-Based Wireless Positioning: Minimum Description Features",

abstract = "A recent line of research has been investigating deep learning approaches to wireless positioning (WP). Although these WP algorithms have demonstrated high accuracy and robust performance against diverse channel conditions, they also have a major drawback: they require processing high-dimensional features, which can be prohibitive for mobile applications. In this work, we design a positioning neural network (P-NN) that substantially reduces the complexity of deep learning-based WP through carefully crafted minimum description features. Our feature selection is based on maximum power measurements and their temporal locations to convey information needed to conduct WP. We also develop a novel methodology for adaptively selecting the size of feature space, which optimizes over balancing the expected amount of useful information and classification capability, quantified using information-theoretic measures on the signal bin selection. Numerical results show that P-NN achieves a significant advantage in performance-complexity tradeoff over deep learning baselines that leverage the full power delay profile (PDP).",

keywords = "Convolutional neural network, KL divergence, Minimum description length (MDL), Wireless positioning",

author = "Oh, {Myeung Suk} and Das, {Anindya Bijoy} and Taejoon Kim and Love, {David J.} and Brinton, {Christopher G.}",

note = "Publisher Copyright: {\textcopyright} 2024 IEEE.; 59th Annual IEEE International Conference on Communications, ICC 2024 ; Conference date: 09-06-2024 Through 13-06-2024",

year = "2024",

doi = "10.1109/ICC51166.2024.10622841",

language = "English (US)",

series = "IEEE International Conference on Communications",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "2264--2269",

editor = "Matthew Valenti and David Reed and Melissa Torres",

booktitle = "ICC 2024 - IEEE International Conference on Communications",

address = "United States",

}

Oh, MS, Das, AB, Kim, T, Love, DJ & Brinton, CG 2024, Complexity Reduction in Machine Learning-Based Wireless Positioning: Minimum Description Features. in M Valenti, D Reed & M Torres (eds), ICC 2024 - IEEE International Conference on Communications. IEEE International Conference on Communications, Institute of Electrical and Electronics Engineers Inc., pp. 2264-2269, 59th Annual IEEE International Conference on Communications, ICC 2024, Denver, United States, 6/9/24. https://doi.org/10.1109/ICC51166.2024.10622841

Complexity Reduction in Machine Learning-Based Wireless Positioning: Minimum Description Features. / Oh, Myeung Suk; Das, Anindya Bijoy; Kim, Taejoon et al.
ICC 2024 - IEEE International Conference on Communications. ed. / Matthew Valenti; David Reed; Melissa Torres. Institute of Electrical and Electronics Engineers Inc., 2024. p. 2264-2269 (IEEE International Conference on Communications).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - Complexity Reduction in Machine Learning-Based Wireless Positioning

T2 - 59th Annual IEEE International Conference on Communications, ICC 2024

AU - Oh, Myeung Suk

AU - Das, Anindya Bijoy

AU - Kim, Taejoon

AU - Love, David J.

AU - Brinton, Christopher G.

PY - 2024

Y1 - 2024

N2 - A recent line of research has been investigating deep learning approaches to wireless positioning (WP). Although these WP algorithms have demonstrated high accuracy and robust performance against diverse channel conditions, they also have a major drawback: they require processing high-dimensional features, which can be prohibitive for mobile applications. In this work, we design a positioning neural network (P-NN) that substantially reduces the complexity of deep learning-based WP through carefully crafted minimum description features. Our feature selection is based on maximum power measurements and their temporal locations to convey information needed to conduct WP. We also develop a novel methodology for adaptively selecting the size of feature space, which optimizes over balancing the expected amount of useful information and classification capability, quantified using information-theoretic measures on the signal bin selection. Numerical results show that P-NN achieves a significant advantage in performance-complexity tradeoff over deep learning baselines that leverage the full power delay profile (PDP).

AB - A recent line of research has been investigating deep learning approaches to wireless positioning (WP). Although these WP algorithms have demonstrated high accuracy and robust performance against diverse channel conditions, they also have a major drawback: they require processing high-dimensional features, which can be prohibitive for mobile applications. In this work, we design a positioning neural network (P-NN) that substantially reduces the complexity of deep learning-based WP through carefully crafted minimum description features. Our feature selection is based on maximum power measurements and their temporal locations to convey information needed to conduct WP. We also develop a novel methodology for adaptively selecting the size of feature space, which optimizes over balancing the expected amount of useful information and classification capability, quantified using information-theoretic measures on the signal bin selection. Numerical results show that P-NN achieves a significant advantage in performance-complexity tradeoff over deep learning baselines that leverage the full power delay profile (PDP).

KW - Convolutional neural network

KW - KL divergence

KW - Minimum description length (MDL)

KW - Wireless positioning

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M3 - Conference contribution

AN - SCOPUS:85202830867

T3 - IEEE International Conference on Communications

SP - 2264

EP - 2269

BT - ICC 2024 - IEEE International Conference on Communications

A2 - Valenti, Matthew

A2 - Reed, David

A2 - Torres, Melissa

PB - Institute of Electrical and Electronics Engineers Inc.

Y2 - 9 June 2024 through 13 June 2024

ER -

Oh MS, Das AB, Kim T, Love DJ, Brinton CG. Complexity Reduction in Machine Learning-Based Wireless Positioning: Minimum Description Features. In Valenti M, Reed D, Torres M, editors, ICC 2024 - IEEE International Conference on Communications. Institute of Electrical and Electronics Engineers Inc. 2024. p. 2264-2269. (IEEE International Conference on Communications). doi: 10.1109/ICC51166.2024.10622841

Complexity Reduction in Machine Learning-Based Wireless Positioning: Minimum Description Features

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