The Remote Triggered Wireless Sensor Network Lab stands as India’s pioneer in the realm of remote-triggered laboratories within the field of computer science and engineering. While wireless sensor networks (WSN). . .
The main aim of this project is to investigate micro-seismic signals arising from diverse landslide initiation scenarios by leveraging Smart Geophone IoT systems. What is the Project All About? This. . .
This project integrates AI and IoT technologies in adopting smart farming. It enhances IoT capabilities, including improving Quality of Service (QoS) and energy efficiency, tailored specifically for agricultural needs. The. . .
The project deals with edge computing for IoT nodes to increase the energy efficiency by using context-aware energy data management and context-aware energy management. Project Description Real-time wireless sensor networks. . .
This project deals with security algorithms for resource-constrained Green IoT devices deployed in an outdoor environment. Project Description A wide-scale outdoor remote deployment involves a large number of low-cost nodes. . .
This project focuses on ensuring reliable connectivity and capacity through seamless handover between heterogeneous wireless networks for remote Green IoT nodes. A prime example of its application is the IoT. . .
Background & Motivation The Indian textiles sector employs over 45 million people, contributing 4% to the GDP and 13% to the total exports. Despite its significance, the industry faces challenges. . .
Pseudomonas aeruginosa is a ubiquitous, opportunistic pathogen that poses a significant threat in healthcare settings and various environments. This versatile bacterium readily develops resistance to conventional antibiotics, making multidrug resistant. . .
In the ongoing battle to combat antimicrobial resistance (AMR), we are investigating two promising avenues: natural products and bacteriophages. Natural products such as essential oils are known to interfere with. . .
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