Efficient Optimal Linear Estimation for CPM: An Information Fusion Approach

The Internet of Things (IoT) has recently experienced considerable growth, enabling communication between a wide range of devices. Given the prevalence of mobile IoT devices, optimizing hardware resources becomes crucial, requiring power and complexity reduction strategies. Continous Phase Modulatio...

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Veröffentlicht in:	IEEE internet of things journal 2024-03, Vol.11 (5), p.1-1
Hauptverfasser:	Aldana-Lopez, Rodrigo, Valencia-Velasco, Jose, Longoria-Gandara, Omar, Vazquez-Castillo, Javier, Pizano-Escalante, Luis
Format:	Artikel
Sprache:	eng
Schlagworte:	Binary phase shift keying Bluetooth Codes Complexity Continuous Phase Modulation Criteria Data integration demodulation Errors Hardware Hidden Markov models information fusion Internet of Things linear complexity Lower bounds Maximum likelihood estimation optimal receivers Optimization Phase modulation Power efficiency Power management Precoding Receivers Symbols Wireless communications
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creator	Aldana-Lopez, Rodrigo Valencia-Velasco, Jose Longoria-Gandara, Omar Vazquez-Castillo, Javier Pizano-Escalante, Luis
description	The Internet of Things (IoT) has recently experienced considerable growth, enabling communication between a wide range of devices. Given the prevalence of mobile IoT devices, optimizing hardware resources becomes crucial, requiring power and complexity reduction strategies. Continous Phase Modulation (CPM) offers attractive features for IoT, such as spectral and power efficiency. However, many CPM receiver designs are computationally intensive, which limits their practicality for this kind of applications. This paper presents a new efficient CPM receiver based on information fusion techniques that takes advantage of the inherent memory of CPM models. This proposal offers a family of biased and unbiased estimators for CPM with linear computational complexity, derived from a clear optimization objective based on a mean-squared error criterion. The proposed design is shown to be optimal under such criterion and explicit expressions for its error probability are provided. The error probability of the proposed design is shown to be approximately the same as the theoretical lower bound of the optimal receiver for Binary Phase-Shift Keying (BPSK) for certain CPM models. Theoretical and simulation results confirm the benefits of this contribution, highlighting its near-optimal performance for specific schemes of Gaussian Frequency-Shift Keying (GFSK). This holds particular significance due to the role of GFSK in Bluetooth Low Energy (BLE) wireless communication technologies, which contributes significantly to the advancement of mobile IoT devices.
doi_str_mv	10.1109/JIOT.2023.3320518
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The error probability of the proposed design is shown to be approximately the same as the theoretical lower bound of the optimal receiver for Binary Phase-Shift Keying (BPSK) for certain CPM models. Theoretical and simulation results confirm the benefits of this contribution, highlighting its near-optimal performance for specific schemes of Gaussian Frequency-Shift Keying (GFSK). 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subjects	Binary phase shift keying Bluetooth Codes Complexity Continuous Phase Modulation Criteria Data integration demodulation Errors Hardware Hidden Markov models information fusion Internet of Things linear complexity Lower bounds Maximum likelihood estimation optimal receivers Optimization Phase modulation Power efficiency Power management Precoding Receivers Symbols Wireless communications
title	Efficient Optimal Linear Estimation for CPM: An Information Fusion Approach
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