Automatic Staircase Lighting System Home Automation Using Arduino
The Automatic Staircase Lighting System is an Arduino-based project that uses IR sensors to detect movement and control LED lights automatically. When a person steps on the first or last stair, the lights turn on and switch off after crossing, saving energy and enhancing safety. Ideal for homes, malls, parks, and public places.
Original price was: ₹3,999.00.₹3,000.00Current price is: ₹3,000.00.
This project is an Automatic Staircase Lighting System designed using Arduino Uno, IR sensors, and LED bulbs. The system automatically turns on the staircase lights only when someone steps on the first or last stair and turns them off once the person crosses the staircase. This smart setup helps save electricity by ensuring the lights remain on
only when in use,
making it
ideal for places like
homes, malls, parks,
and railway stations.
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This project is based on an Object Detection Radar System which uses an Ultrasonic Sensor mounted on a Servo Motor controlled by an Arduino Uno. The servo motor continuously rotates from 0° to 180° to scan the surroundings, similar to a radar system. When any object comes within the sensing range (40 cm), the ultrasonic sensor detects it, and the servo motor immediately stops at that specific angle. The system then displays the detected object’s distance and angle on the I2C Display.
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I Will Provide You All Components , Parts , Machines , Tools , Decoration Materials Available In Kit Box . Than I will provide You full Step By Step Making Video + Report File + Synopsis File + Making Video My Team Help You
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Design and Operation: VAWTs typically consist of two or more blades that rotate around a vertical axis. The blades can have different shapes, such as straight, helical, or S-shaped, and are attached to a central shaft. As the wind blows, the blades capture the kinetic energy and convert it into mechanical rotation, which can then be used to generate electricity through a generator or to perform other tasks directly.
The Arduino-Based Obstacle Avoiding Robot Car is an innovative project designed to demonstrate how automation and sensors can be used for smart navigation. This car is capable of moving automatically without colliding with any obstacles. It is built using an Arduino Uno, Ultrasonic Sensor, L298 Motor Driver Module, 4 BO Motors with Wheels, and a 12V Battery. The body of the car is handmade from hard cardboard, showcasing creativity and engineering skills.
ABSTRACT In This Project We show Load Sharing Idea , In Project When Any Power Plant Generates a Electricity then that electricity go to substation and then that substation transfer to electricity to city , If power plant suddenly generate electricity high , substation automatic share electricity to second other substation so in this project we can see load sharing when supply up and when upper supply low automatic load sharing stop and when power plant again and again generating voltage do up , so when substation have maximum limit point if that point cross then automatic both substation of and power cut , so by this idea all fault and electricity loss we can cover if voltage coming high .
INTRODUTION
This Project Aim is Over Load Sharing with Overload Protection , In This Project We use One Transformer and Voltage Controller that Transformer can do voltage up and down by Rotating Voltage controller cap , this system in this project showing as a power plant system by this system we give to power supply in our project substation , When we start given power supply to our project first power supply go to first substation if power supply perfect means substation one have set maximum voltage so if power supply come and voltage low then substation one full working and give power to city and if power plant supply we again and again up then substation one maximum voltage limit cross then he turn on the sharing power supply to our second substation and when we again up the voltage and voltage cross maximum limit to second transmission then automatic power plant power supply relay off so full substation power supply off , So by this process we can save many fault loss . So This Is Our Best Electrical Engineering Project For Advanced Techniques for Transmission Line Overload Protection and Overload Sharing .
https://www.youtube.com/%20?v=tuKEapvEgMgIn an effort to promote efficient waste management and environmental sustainability, we have developed a cutting-edge smart dustbin that autonomously sorts waste into dry and wet categories. This innovative project leverages the power of Arduino, combined with soil sensor modules and pressure switches, to accurately identify the type of waste and direct it to the appropriate compartment.
In the pursuit of advancing environmental sustainability and promoting effective waste management, we have designed an innovative smart dustbin system that seamlessly segregates waste into dry and wet categories. This project is a significant step towards automating waste sorting, thereby enhancing recycling efficiency and reducing environmental pollution.
The Arduino-based Mobile Control Bluetooth Robotic Car is an innovative project designed to demonstrate how Bluetooth can be used for smart navigation. This car can be seamlessly driven, left, right, forward, and backward using your mobile phone.
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In This Project Kit Box We will Give You Only All Components And Parts And Extra Decoration Materials And Step By Step Videos 3D Circuit Diagram And Reading Pages With Synopsis File And Online Training Access
This Idea For Safety Gadgets for Students , If any student have problem and he want to inform his home then he press his watch switch and his home alert alarm start , This is best Innovative idea and easily making base if any students make this project for his science Exhibition , This is Best inspire award project idea and This Idea not available on YouTube , So This is Unavailable Idea On YouTube For Inspire Award Project
The name of this project is safety helmet. Mainly work of this project is safety of a rider. We make a connection between bike and helmet by using the sensors. When rider will wear the helmet then our bike start. If the rider will not wear the helmet then bike will not start. We use the indication system in the helmet also. Indication system will show you wear the helmet properly or not. So it’s good for safety purpose and we safe it from thief also. Because without helmet bike will not start.
This Arduino RFID Access Control System uses an RC522 module to read card UIDs, an I2C LCD to display messages, and a servo motor to open or close the door automatically. A blue LED indicates card detection. It’s a simple, low-cost security project ideal for beginners in IoT and electronics.
IR Sensor: The IR sensor is used to detect the presence of a vehicle. When a vehicle enters the range of the sensor, it detects its presence. Relay Module: The relay module is used to control the system. Once the IR sensor detects a vehicle, it sends a signal to the relay module, which in turn activates the LED bulb and alarm. LED Bulb: The LED bulb is used to indicate the presence of a vehicle coming from the opposite side. When a vehicle is detected by the IR sensor, the LED bulb on the other side turns on, alerting drivers. Alarm: The alarm sounds to provide a warning of the vehicle’s approach, ensuring further attention and safety. Wiring and Connections:
Working Principle: When a vehicle enters the range of the IR sensor, the sensor detects its presence. The IR sensor sends a signal to the relay module. The relay module then activates the LED bulb and alarm on the opposite side. The alarm and LED bulb warn the drivers that a vehicle is approaching.
Objectives: Enhance road safety by alerting drivers about vehicles approaching from the opposite side. Prevent traffic accidents, especially in areas with limited visibility. Create a simple and cost-effective vehicle detection system for traffic monitoring.
Expected Outcomes: Early warning system for approaching vehicles, giving drivers more time to react. Improved awareness and timely responses from drivers to avoid accidents. Efficient use of sensors and alarms to ensure smooth traffic flow and safety.
Applications: Safety alert system on narrow roads or blind spots. Traffic control at signal points or crossing areas. Monitoring vehicles in industrial areas or warehouses where safety is critical.
Future Improvements: Use of advanced sensors (e.g., ultrasonic) for better accuracy. Integration with traffic signal systems for automated control. Solar-powered systems for cost-effective outdoor applications.
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