This brief tutorial explains how the “Wiegand effect” can be used as a reliable, low-cost, energy-harvesting system to power ...

Wireless sensors help identify and locate environmental anomalies. Wireless networks improve leak detection and safety. Mobile and temporary monitoring benefit from wireless systems. Environmental ...

Abstract: Wireless sensor nodes (WSNs) for IoT systems need to enable always-on always-sensing (AOAS) and advanced edgecomputing capabilities under stringent energy constraints, often supported ...

With the global population projected to reach nearly 10 billion by 2050, food systems must become dramatically more efficient and sustainable to meet the growing demand while conserving scarce ...

The fifth generation of cellular wireless networks, 5G, isn’t just faster cellular; it’s a foundational shift in how devices, machines, and infrastructure connect in real time. With ultra-low latency, ...

The growing demand for energy-efficient Wireless Sensor Networks (WSNs) in applications such as IoT, environmental monitoring, and smart cities has sparked exhaustive research into practical solutions ...

Ranganath Taware is Chief Architect at Capgemini America Inc. 24+ yrs in telecom & AI. Leads GenAI, Telecom B/OSS innovation. The combination of wireless networks, agentic AI and artificial general ...

Energy-efficient sensing in wireless sensor networks (WSNs) is crucial for extending the lifespan of sensor nodes and ensuring sustainable operation. Energy-saving techniques such as duty cycling and ...

1 School of International Education, Wuhan Institute of Technology, Wuhan, China. 2 School of Computer Science and Engineering and School of Artificial Intelligence, Wuhan Institute of Technology, ...

This Collection calls for submissions of original research into techniques that help to deploy underwater and underground wireless sensor networks, contributing to advancements in environmental ...