TechieYan Technologies

Facebook-f Linkedin Youtube Instagram Twitter

TechieYan Technologies

List of Projects for Electrical & Electronics Engineering

Separate batches for Diploma / BTech / BE / ME / MS Students

Power electronics is a branch in electrical engineering deals with the conversion of electrical energy by using energy converters and controls the system. 

Visit for Project list

Power system is a network system which consists of electrical components where there is supply , transmission and deploy the energy to other end. 

Visit for Project list

Embedded system is basically embedding or deploying code ( software ) into hardware component by using few software’s like MATLAB.

Visit for Project list

Control system is a system where group of components or devices which are used to control or modify the behavior to get the desired output.

Visit for Project list

very Large Scale Integrated systems is a process of making an integrated circuit by combining millions of transistors to a single chip.

Visit for Project list

Electrical Communications deals with the design, develop and transfer of the signals from one place to another.

Visit for Project list

Here are some project ideas for electrical and electronics engineering students:

  1. Smart grid and renewable energy systems: Design and implement a smart grid system that integrates renewable energy sources such as solar and wind power.
  2. Wireless power transmission: Investigate the feasibility of wireless power transmission and design a prototype system.
  3. Electric vehicle charging station: Design and build an electric vehicle charging station using renewable energy sources.
  4. Solar-powered irrigation system: Design and implement a solar-powered irrigation system for small farms.
  5. Home automation system: Design and build a home automation system using smart home technologies such as voice assistants, smart lighting, and smart thermostats.
  6. Smart city infrastructure: Develop a proposal for a smart city infrastructure that includes transportation, energy, and communication systems.
  7. Solar-powered water pump: Design and build a solar-powered water pump for small-scale irrigation.
  8. Smart grid for disaster management: Design a smart grid system for disaster management that can be quickly deployed in emergency situations.
  9. Wireless sensor networks: Design and implement a wireless sensor network for monitoring environmental conditions or industrial processes.
  10. Power quality analysis: Conduct a power quality analysis of a building or industrial site and propose solutions for improving power quality.
  11. Renewable energy storage: Design and build a renewable energy storage system using advanced battery technologies.
  12. Power electronics for renewable energy systems: Design and build power electronics systems for integrating renewable energy sources into the grid.
  13. LED lighting system: Design and build an LED lighting system that is energy efficient and can be controlled remotely.
  14. Automatic street light control: Design and build a system for automatically controlling street lights based on ambient light levels.
  15. Smart grid for microgrids: Design a smart grid system for a microgrid, such as a small community or campus.
  16. Smart home security system: Design and build a smart home security system that includes features such as motion detection, door and window sensors, and video surveillance.
  17. Renewable energy microgrid: Design and build a renewable energy microgrid that includes solar panels, wind turbines, and energy storage systems.
  18. Solar-powered water purification system: Design and build a solar-powered water purification system for use in areas with limited access to clean water.
  19. Energy efficient building design: Develop a proposal for an energy efficient building design, including HVAC, lighting, and building envelope systems.
  20. Industrial automation: Design and build a system for automating an industrial process such as manufacturing, assembly, or packaging.
  21. Biomedical device: Design and build a biomedical device such as a heart rate monitor, glucose meter, or blood pressure monitor.
  22. Smart irrigation system: Design and build a smart irrigation system that uses sensors to optimize watering schedules and conserve water.
  23. Electric vehicle charging infrastructure: Develop a proposal for building out a network of electric vehicle charging stations in a specific area.
  24. Smart grid for commercial buildings: Design a smart grid system for a commercial building that integrates renewable energy sources and optimizes energy use.
  25. Renewable energy forecasting: Develop a system for forecasting renewable energy production, such as solar or wind power, to help optimize grid integration.
  26. Wireless communication system: Design and build a wireless communication system for use in remote or difficult-to-reach locations.
  27. Power electronics for electric vehicles: Design and build power electronics systems for electric vehicles, including charging systems and inverters.
  28. Smart grid for hospitals: Design a smart grid system for a hospital that can prioritize critical systems in emergency situations.
  29. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  30. Solar-powered charging station for electronic devices: Design and build a solar-powered charging station for electronic devices such as smartphones and laptops.
  31. Smart energy management for commercial buildings: Design and build a smart energy management system for commercial buildings that optimizes energy use and integrates renewable energy sources.
  32. Wireless data transmission: Design and build a wireless data transmission system for transmitting data over long distances or in difficult-to-reach locations.
  33. Renewable energy integration for utilities: Develop a proposal for integrating renewable energy sources into the grid for a large utility company.
  34. Electric vehicle charging station network: Design and build a network of electric vehicle charging stations, including the power electronics and control systems.
  35. Smart grid for rural communities: Design a smart grid system for a rural community that integrates renewable energy sources and improves access to electricity.
  36. Solar-powered drone charging station: Design and build a solar-powered charging station for drones, including the power electronics and control systems.
  37. Smart home energy management: Design and build a smart home energy management system that optimizes energy use and integrates renewable energy sources.
  38. Wireless charging for electronic devices: Investigate the feasibility of wireless charging for electronic devices and design a prototype system.
  39. Renewable energy microgrid for islands: Design and build a renewable energy microgrid for an island community that is isolated from the main grid.
  40. Smart grid for disaster relief: Design a smart grid system for disaster relief that can be quickly deployed in emergency situations.
  41. Solar-powered water treatment plant: Design and build a solar-powered water treatment plant for use in areas with limited access to clean water.
  42. Wireless sensor network for industrial processes: Design and build a wireless sensor network for monitoring industrial processes such as manufacturing or assembly.
  43. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  44. Solar-powered portable charging station: Design and build a solar-powered portable charging station for electronic devices such as smartphones and laptops.
  45. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  46. Renewable energy integration for remote communities: Develop a proposal for integrating renewable energy sources into the grid for a remote community that is isolated from the main grid.
  47. Wireless sensor network for agriculture: Design and build a wireless sensor network for monitoring agricultural conditions such as soil moisture, temperature, and humidity.
  48. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  49. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  50. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  51. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  52. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  53. Smart grid for hospitals: Design a smart grid system for a hospital that integrates renewable energy sources and optimizes energy use.
  54. Renewable energy integration for hospitals: Develop a proposal for integrating renewable energy sources into the grid for a hospital.
  55. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  56. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  57. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  58. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  59. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  60. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  61. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  62. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  63. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  64. Wireless sensor network for agriculture: Design and build a wireless sensor network for monitoring agricultural conditions such as soil moisture, temperature, and humidity.
  65. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  66. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  67. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  68. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  69. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  70. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  71. Smart grid for hospitals: Design a smart grid system for a hospital that integrates renewable energy sources and optimizes energy use.
  72. Renewable energy integration for hospitals: Develop a proposal for integrating renewable energy sources into the grid for a hospital.
  73. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  74. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  75. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  76. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  77. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  78. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  79. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  80. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  81. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  82. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  83. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  84. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  85. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  86. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  87. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  88. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  89. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  90. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  91. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  92. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  93. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  94. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  95. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  96. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  97. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  98. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  99. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  100. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  101. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  102. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  103. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  104. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  105. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  106. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  107. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  108. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  109. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  110. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  111. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  112. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  113. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  114. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  115. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  116. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  117. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  118. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  119. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  120. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  121. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  122. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  123. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  124. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  125. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  126. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  127. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  128. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  129. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy
  130. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  131. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  132. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  133. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  134. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  135. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  136. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  137. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  138. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  139. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  140. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  141. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  142. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote
  143. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  144. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  145. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  146. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  147. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  148. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  149. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  150. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  151. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  152. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  153. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  154. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  155. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  156. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  157. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  158. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  159. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  160. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  161. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  162. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  163. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  164. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  165. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  166. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  167. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  168. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  169. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  170. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  171. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  172. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  173. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  174. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  175. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  176. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  177. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  178. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  179. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  180. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  181. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  182. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  183. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  184. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  185. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  186. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  187. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  188. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  189. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  190. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  191. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  192. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  193. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  194. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  195. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  196. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  197. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  198. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  199. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  200. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  201. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  202. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  203. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  204. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  205. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  206. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  207. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  208. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  209. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  210. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  211. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  212. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  213. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  214. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  215. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  216. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  217. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  218. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  219. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  220. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.
  221. Wireless sensor network for building monitoring: Design and build a wireless sensor network for monitoring building conditions such as temperature, humidity, and energy use.
  222. Smart irrigation for large-scale agriculture: Design and build a smart irrigation system for large-scale agriculture that optimizes water use and increases crop yield.
  223. Solar-powered microgrid for islands: Design and build a solar-powered microgrid for an island community that is isolated from the main grid.
  224. Smart grid for small businesses: Design a smart grid system for a small business that integrates renewable energy sources and optimizes energy use.
  225. Renewable energy integration for small utilities: Develop a proposal for integrating renewable energy sources into the grid for a small utility company.
  226. Wireless sensor network for transportation: Design and build a wireless sensor network for monitoring transportation systems such as roads, bridges, and tunnels.
  227. Solar-powered water pump for agriculture: Design and build a solar-powered water pump for small-scale irrigation in agriculture.
  228. Smart grid for factories: Design a smart grid system for a factory that integrates renewable energy sources and optimizes energy use.
  229. Renewable energy integration for factories: Develop a proposal for integrating renewable energy sources into the grid for a factory.
  230. Wireless sensor network for healthcare: Design and build a wireless sensor network for monitoring healthcare conditions such as patient vital signs and medical equipment performance.
  231. Smart irrigation for small farms: Design and build a smart irrigation system for small farms that optimizes water use and increases crop yield.
  232. Solar-powered microgrid for remote communities: Design and build a solar-powered microgrid for a remote community that is isolated from the main grid.
  233. Smart grid for schools: Design a smart grid system for a school that integrates renewable energy sources and optimizes energy use.
  234. Renewable energy integration for schools: Develop a proposal for integrating renewable energy sources into the grid for a school.
  235. Wireless sensor network for environmental monitoring: Design and build a wireless sensor network for monitoring environmental conditions such as air quality, temperature, and humidity.
  236. Solar-powered portable charger for electronic devices: Design and build a solar-powered portable charger for electronic devices such as smartphones and laptops.
  237. Smart grid for universities: Design a smart grid system for a university that integrates renewable energy sources and optimizes energy use.
  238. Renewable energy integration for universities: Develop a proposal for integrating renewable energy sources into the grid for a university.

Do You Have any Specific Project Idea?

If you’re looking for any customized project idea as per your college requirement we would be happy to help you with it. Any project extensions or latest IEEE projects ideas or Smart India Hackathon projects we would help you from the beginning to the end of the project execution. Call Now to discuss with us in detail

Call Now
+91 7075575787