ABOUT WIRELESS SENSOR PROJECT 2015 – 2016
Welcome to IEEE Project Centre in Chennai, a distinguished center for technological innovation and a leader in the field of wireless sensor network projects. We take immense pride in our dedication to advancing the landscape of IoT (Internet of Things) and sensor technology. The years 2015-2016 were marked by significant milestones in our journey to shape the future of technology, and our wireless sensor network projects from this period showcase our unwavering commitment to innovation and excellence.
Our team of experts, researchers, and engineers at IEEE Project Centre in Chennai has diligently worked on crafting transformative wireless sensor network projects during 2015-2016. These projects span a diverse range of applications, from smart agriculture to healthcare and smart cities. Whether you are a student looking to delve into the world of wireless sensor networks, a professional seeking innovative solutions, or an enthusiast intrigued by IoT possibilities, our 2015-2016 projects offer a wealth of knowledge and opportunities to explore the fascinating realm of sensor technology.
Within our carefully curated collection, you will discover a variety of 2015-2016 wireless sensor network projects that exemplify our commitment to pushing the boundaries of technology. These projects have the potential to revolutionize industries, improve efficiency, and enhance the quality of life. Join us on an exciting journey through the world of wireless sensor network projects at IEEE Project Centre in Chennai, where each project represents a significant step toward realizing the full potential of sensors and IoT to create a smarter, more connected world.
SNO | Projects List |
1 | A wireless sensor network is a group of specialized transducers with a communications infrastructure for monitoring and recording conditions at diverse locations |
2 | Commonly monitored parameters are temperature, humidity, pressure, wind direction and speed, illumination intensity, vibration intensity, sound intensity, power-line voltage, chemical concentrations, pollutant levels and vital body functions. |
3 | A sensor network consists of multiple detection stations called sensor nodes, each of which is small, lightweight and portable |
4 | Every sensor node is equipped with a transducer, microcomputer, transceiver and power source. |
5 | The transducer generates electrical signals based on sensed physical effects and phenomena. The microcomputer processes and stores the sensor output. |
7 | The transceiver receives commands from a central computer and transmits data to that computer. |
8 | The power for each sensor node is derived from a battery. Potential applications of sensor networks include |
9 | Industrial automation |
10 | Automated and smart homes and Video surveillance |