Developing biocompatible antennas for wearable healthcare applications involves integrating advanced materials and design strategies to ensure both performance and safety for human use. These antennas are critical for transmitting data. . .
The ill–effects of the continuous exposure of radiofrequency electromagnetic radiation induced health problems on all living organisms. Main causes of these problems are due to the existence of antennas with. . .
This project aims to develop millimetre-wave (mmWave) antennas for 5G communications, addressing the need for efficient, compact, and reliable antennas operating at higher frequencies. Based on the requirements of advanced. . .
Beamforming stands as a cornerstone in wireless communication, shaping signals for optimal transmission and reception directionality. Its influence extends across smart cities, home networking, cellular communications, automotive, and underwater communications.. . .
Research is in the process of implementing optical sensors in landslide-prone areas in place of single-core wired sensors. Thus precise reading can be generated and it will help to provide. . .
Deploying sensor-equipped embedded systems strategically in landslide-prone areas is imperative for gathering precise environmental data from soil moisture sensors, rain gauges, inclinometers, and pore pressure sensors. This real-time monitoring ensures. . .
Laboratory flume tests (small and large) will be carried out on scaled slopes prepared using soils collected from different landslide prone areas. The soil slopes will be prepared at density. . .
Digital Elevation Models (DEM) of the study area are acquired and analyzed using ArcGIS PRO thereby deriving the slope angle, flow direction, soil depth, aspect, geomorphology and so on. Soil. . .
The global increase in landslide occurrences, impacting millions and resulting in casualties, underscores the urgent need for robust and cost-effective early warning systems and emergency response efforts. Recent advancements in. . .
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