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. 

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

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

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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.

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

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

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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.

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