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Auteurs principaux: Gao, Hongjian, Lu, Yang, Yang, Shaoshi, Tan, Jingsheng, Nie, Longlong, Qu, Xinyi
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2401.11449
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author Gao, Hongjian
Lu, Yang
Yang, Shaoshi
Tan, Jingsheng
Nie, Longlong
Qu, Xinyi
author_facet Gao, Hongjian
Lu, Yang
Yang, Shaoshi
Tan, Jingsheng
Nie, Longlong
Qu, Xinyi
contents Wireless sensor network (WSN) underpinning the smart-grid Internet of Things (SG-IoT) has been a popular research topic in recent years due to its great potential for enabling a wide range of important applications. However, the energy consumption (EC) characteristic of sensor nodes is a key factor that affects the operational performance (e.g., lifetime of sensors) and the total cost of ownership of WSNs. In this paper, to find the modulation techniques suitable for WSNs, we investigate the EC characteristic of continuous phase modulation (CPM), which is an attractive modulation scheme candidate for WSNs because of its constant envelope property. We first develop an EC model for the sensor nodes of WSNs by considering the circuits and a typical communication protocol that relies on automatic repeat request (ARQ)-based retransmissions to ensure successful data delivery. Then, we use this model to analyze the EC characteristic of CPM under various configurations of modulation parameters. Furthermore, we compare the EC characteristic of CPM with that of other representative modulation schemes, such as offset quadrature phase-shift keying (OQPSK) and quadrature amplitude modulation (QAM), which are commonly used in communication protocols of WSNs. Our analysis and simulation results provide insights into the EC characteristics of multiple modulation schemes in the context of WSNs; thus, they are beneficial for designing energy-efficient SG-IoT in the beyond-5G (B5G) and the 6G era.
format Preprint
id arxiv_https___arxiv_org_abs_2401_11449
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Energy Consumption Analysis for Continuous Phase Modulation in Smart-Grid Internet of Things of beyond 5G
Gao, Hongjian
Lu, Yang
Yang, Shaoshi
Tan, Jingsheng
Nie, Longlong
Qu, Xinyi
Signal Processing
Networking and Internet Architecture
Wireless sensor network (WSN) underpinning the smart-grid Internet of Things (SG-IoT) has been a popular research topic in recent years due to its great potential for enabling a wide range of important applications. However, the energy consumption (EC) characteristic of sensor nodes is a key factor that affects the operational performance (e.g., lifetime of sensors) and the total cost of ownership of WSNs. In this paper, to find the modulation techniques suitable for WSNs, we investigate the EC characteristic of continuous phase modulation (CPM), which is an attractive modulation scheme candidate for WSNs because of its constant envelope property. We first develop an EC model for the sensor nodes of WSNs by considering the circuits and a typical communication protocol that relies on automatic repeat request (ARQ)-based retransmissions to ensure successful data delivery. Then, we use this model to analyze the EC characteristic of CPM under various configurations of modulation parameters. Furthermore, we compare the EC characteristic of CPM with that of other representative modulation schemes, such as offset quadrature phase-shift keying (OQPSK) and quadrature amplitude modulation (QAM), which are commonly used in communication protocols of WSNs. Our analysis and simulation results provide insights into the EC characteristics of multiple modulation schemes in the context of WSNs; thus, they are beneficial for designing energy-efficient SG-IoT in the beyond-5G (B5G) and the 6G era.
title Energy Consumption Analysis for Continuous Phase Modulation in Smart-Grid Internet of Things of beyond 5G
topic Signal Processing
Networking and Internet Architecture
url https://arxiv.org/abs/2401.11449