Journal ArticleDOI
Green Sensing and Communication: A Step Towards Sustainable IoT Systems
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This article surveys the existing green sensing and communication approaches to realize sustainable IoT systems for various applications and presents a few case studies that aim to generate sensed traffic data intelligently as well as prune it efficiently without sacrificing the required service quality.Abstract:
With the advent of Internet of Things (IoT) devices, their reconfigurability, networking, task automation, and control ability have been a boost to the evolution of traditional industries such as health-care, agriculture, power, education, and transport. However, the quantum of data produced by the IoT devices poses serious challenges on its storage, communication, computation, security, scalability, and system’s energy sustainability. To address these challenges, the concept of green sensing and communication has gained importance. This article surveys the existing green sensing and communication approaches to realize sustainable IoT systems for various applications. Further, a few case studies are presented that aim to generate sensed traffic data intelligently as well as prune it efficiently without sacrificing the required service quality. Challenges associated with these green techniques, various open issues, and future research directions for improving the energy efficiency of the IoT systems are also discussed.read more
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Journal ArticleDOI
Green Artificial Intelligence: Towards an Efficient, Sustainable and Equitable Technology for Smart Cities and Futures
TL;DR: This perspective paper concentrates on the “green AI” concept as an enabler of the smart city transformation, as it offers the opportunity to move away from purely technocentric efficiency solutions towards efficient, sustainable and equitable solutions capable of realizing the desired urban futures.
Journal ArticleDOI
Collaborative Multi-Sensing in Energy Harvesting Wireless Sensor Networks
Vini Gupta,Swades De +1 more
TL;DR: This article presents an adaptive multi-sensing framework for a network of densely deployed solar energy harvesting wireless nodes where each node is mounted with heterogeneous sensors to sense multiple cross-correlated slowly-varying parameters/signals.
Journal ArticleDOI
The Interplay between the Internet of Things and agriculture: A bibliometric analysis and research agenda
TL;DR: In this article , the authors conduct a bibliometric study to investigate the current state of the IoT and agriculture in academic literature and identify those agricultural resources that are mostly impacted by the introduction of IoT (i.e., seeds, soil, water, fertilizers, pesticides, energy, livestock, human resources, technology infrastructure, business relations).
Journal ArticleDOI
Backscatter Wireless Communications and Sensing in Green Internet of Things
TL;DR: Backscatter communication (BackCom) is a recently emerged technique that enables green IoT through joint wireless communication and sensing and potentially allows IoT devices to operate without batteries as discussed by the authors , which is a key technology for enabling ubiquitous applications that interconnect with cyber-physical systems.
Proceedings ArticleDOI
Energy Harvesting-enabled 5G Advanced Air Pollution Monitoring Device
TL;DR: The developed AAPMD system consumes 10-times less energy while using 5G NB-IoT communication module, which makes it a very competitive candidate for massive deployment in highly polluted metro cities like Delhi and Kolkata, in India.
References
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Proceedings ArticleDOI
A multi-sensing reconfigurable platform for gas applications
Muhammad Akbar,Amine Ait Si Ali,Abbes Amira,Mohieddine Benammar,Faycal Bensaali,Saqib Mohamad,Fang Tang,Amine Bermak,Mohamad Zgaren,M. Sawan +9 more
TL;DR: A reconfigurable multi-sensing platform is presented for gas applications with low power ring-oscillator based temperature and tin-oxide based gas sensors utilized to indicate the temperature and type of the gas with a total power of few μW's.
Proceedings ArticleDOI
Adaptive Multi-Sensing in EH-WSN for Smart Environment
Vini Gupta,Swades De +1 more
TL;DR: A novel multi-sensing framework for an energy harvesting heterogeneous wireless sensor network, which adaptively selects the corresponding sensors of a few neighboring nodes for activation, which jointly optimizes the sensing accuracy and energy efficiency.