Kospenda, A.: Wireless sensor network for smart street lighting. Rivas, J., Wunderlich, R., Heinen, S.J.: Road vibrations as a source to detect the presence and speed of vehicles. Kimura, M.: Piezo-electricity generation device. Parkash, P.V., Rajendra, D.: Internet of things based intelligent street lighting system for smart city. Husin, R., Al Junid, S.A.M., Majid, Z.A., Othman, Z., Shariff, K.K.M., Hashim, H., Saari, M.F.: Automatic street lighting system for energy efficiency based on low cost microcontroller. 5(1), 27–34 (2010)Īmin, C., AshutoshNerkar, P.H., Kaul, R.: GSM based autonomous street illumination system for efficient power management. Wazed, M.A., Nafis, N., Islam, M.T., Sayem, A.S.M.: Design and fabrication of automatic street light control system. In: 2010 2nd International Conference on Industrial Mechatronics and Automation (ICIMA), vol. Wu, H., Tang, M., Huang, G.: Design of multi-functional street light control system based on AT89S52 single-chip microcomputer. In: 2017 4th International Conference on Electronics and Communication Systems (ICECS), pp. Technol.) 1(02), 37–42 (2017)Ībinaya, R., Varsha, V., Hariharan, K.: An intelligent street light system based on piezoelectric sensor networks. Rosely, E.: Prototype design of remote monitoring software of street lighting system. Our project model cost is effective and easy to implement and also it is green and not harmful to the environment.Sudhakar, K.S., Anil, A.A., Ashok, K.C., Bhaskar, S.S.: Automatic street light control system. Thus we charge a battery using power from footsteps, display it on LCD using a microcontroller circuit and allow for mobile charging through the setup. The current is distributed using (radio-frequency identification) RFID cards so that only an authorized person can use the generator for charging. Also, it consists of a USB mobile phone charging point where a user may connect cables to charge the mobile phone from the battery charge. It also displays the charge generated by our footstep and displays it on an LCD. The circuit is the microcontroller based monitoring circuit that allows users to monitor the charges and voltage a connected battery to it and this power source has many applications. This is then forwarded to our monitoring circuitry. To generate maximum output voltage the sensors are placed in such an arrangement. To generate a voltage from footstep the piezo sensors are mounted below the platform. an advanced footstep power generation system proposed here uses the piezoelectric sensors. To generate the power through footsteps as a source of renewable energy sources that we can obtain while walking on a certain arrangement like stepping foot on piezoelectric tiles. Energy harvesting is defined as capturing minute amounts of energy from one or more of the surrounding energy resources. The benefits of roadway energy harvesting systems are potentially excellent. To comfort our daily routines the devices are used in large numbers. Utilization of power turns to be necessary for every work in today's world. The project model is cost effective and easy to implement. This output is provided to our monitoring circuitry which is micro controller based circuit that allow user to monitor the voltage and charges a battery, and this power source has many application. When the piezoelectric ceramic piece vibrates, an electrical signal is generated. This sensor uses piezoelectric ceramics to generate vibration. When there is some vibrations, stress or straining force exert by foot on flat platform. Interfacing Piezoelectric Vibration Sensor with Arduino Step 1: Circuit Step 2: Code Piezoelectric Vibration Sensor Features Piezoelectric vibration sensor is based on piezoelectric ceramic sheet. The control mechanism carries piezoelectric sensor, this mechanical energy applied on the crystal into electrical energy. When people walk on the steps or that of platform, power is generated by using weight of person. This system can be installed at homes, schools, colleges, where the people move around the clock. The generated power will be stored and then we can use it for domestic purpose. Power can be generated by walking on the stairs. In this project we are doing generation of power by walking or running. Among these human population is one of the resources. Now-a-days numbers of power sources are present, non-renewable & renewable, but still we can't overcome our power needs. The footstep Power generation and its use is one of the issues.
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