LINE FOLLOWING ROBOTIC VEHICLE
The project is designed to develop a robotic vehicle that follows a specific path. This project doesn’t require a microcontroller for its operation. A pair of photo sensors comprising IR transmitter and photo diode is used to detect the specified path for its movement.
The project is designed to develop a robotic vehicle that follows a specific path. This project doesn’t require a microcontroller for its operation. A pair of photo sensors comprising IR transmitter and photo diode is used to detect the specified path for its movement.
OPTIMUM ENERGY MANAGEMENT BASED ON COUNTER, LIGHT INTENSITY & TEMPERATURE SENSOR
The project is designed for optimum energy management based on counter, light intensity and temperature sensor. The system also counts the number of persons entering and leaving the room and displays that information on LCD display. Depending on person???s entry as well as exiting condition the room appliances will play their role. The ultimate objective of this system is to save the energy as well as to design automatic room light controller by turning off all the appliances when nobody is there in the home.
The project is designed for optimum energy management based on counter, light intensity and temperature sensor. The system also counts the number of persons entering and leaving the room and displays that information on LCD display. Depending on person???s entry as well as exiting condition the room appliances will play their role. The ultimate objective of this system is to save the energy as well as to design automatic room light controller by turning off all the appliances when nobody is there in the home.
OPTIMUM ENERGY MANAGEMENT SYSTEM
The project is designed to monitor the number of persons entering as well as exiting a room. Electrical loads are switched ON as the first person enters and switches OFF when the last person leaves. IR sensors used in combination with microcontroller to monitor all the operations. This helps in saving lot of energy.
The project is designed to monitor the number of persons entering as well as exiting a room. Electrical loads are switched ON as the first person enters and switches OFF when the last person leaves. IR sensors used in combination with microcontroller to monitor all the operations. This helps in saving lot of energy.
SPEED CHECKER TO DETECT RASH DRIVING ON HIGHWAYS
The aim of this project is to develop a device to detect rash driving on highways and to alert the traffic authorities in case of any speed violation. Accidents due to rash driving on highways are on the rise and people are losing their lives because of others mistakes. In the present system, to detect rash driving the police has to use a handheld radar gun and aim at the vehicle to record its speed. If the speed of the vehicle exceeds the speed limit, nearest police station is informed to stop the speeding vehicle. This is an ineffective process as after detecting one has to inform the same and a lot of time is wasted.
The aim of this project is to develop a device to detect rash driving on highways and to alert the traffic authorities in case of any speed violation. Accidents due to rash driving on highways are on the rise and people are losing their lives because of others mistakes. In the present system, to detect rash driving the police has to use a handheld radar gun and aim at the vehicle to record its speed. If the speed of the vehicle exceeds the speed limit, nearest police station is informed to stop the speeding vehicle. This is an ineffective process as after detecting one has to inform the same and a lot of time is wasted.
STREET LIGHT THAT GLOWS ON DETECTING VEHICLE MOVEMENT
This project is designed to detect a vehicle movement on road to switch on only a block of street lights that are ahead of the vehicle, and to switch off the glowing lights when the vehicle passes away from the lights. This will help to save electrical energy.
This project is designed to detect a vehicle movement on road to switch on only a block of street lights that are ahead of the vehicle, and to switch off the glowing lights when the vehicle passes away from the lights. This will help to save electrical energy.
TACHOMETER USING 8051 MICROCONTROLLER
The main objective of this project is to avoid physical contact between the motor shaft and tachometer by using a non-contact tachometer in order to make it convinient, while measuring the speed of aBLDC motor.Also using standard contact type tachometer may not feasible in some applications.
The main objective of this project is to avoid physical contact between the motor shaft and tachometer by using a non-contact tachometer in order to make it convinient, while measuring the speed of aBLDC motor.Also using standard contact type tachometer may not feasible in some applications.
TRAFFIC DENSITY SENSED SIGNAL LIGHT SYSTEM
The main goal of this project is to control the traffic density at the junction by IR sensor that detects the traffic density at the junction and changes the signal timings automatically by IR interruption method.
The main goal of this project is to control the traffic density at the junction by IR sensor that detects the traffic density at the junction and changes the signal timings automatically by IR interruption method.
U TURN ACCIDENT AVOIDANCE USING ARDUINO
The constantly growing transport sector has resulted in an increase in accidents every day. The accident mainly occurs due to our carelessness and breaking of traffic rules.
The constantly growing transport sector has resulted in an increase in accidents every day. The accident mainly occurs due to our carelessness and breaking of traffic rules.
VIP Street Light And Controlling Monitoring Over IOT
This project involves the design and construction of street light control and monitoring system using Internet of Things (IoT). This includes the use of a PIC Microcontroller 16F77A, ESP 32 Wi-Fi module, Light Dependent Resistor (LDR) Infrared sensors, .cloud platform and a mobile application.
This project involves the design and construction of street light control and monitoring system using Internet of Things (IoT). This includes the use of a PIC Microcontroller 16F77A, ESP 32 Wi-Fi module, Light Dependent Resistor (LDR) Infrared sensors, .cloud platform and a mobile application.











