12 Latest Wireless Project Ideas for Final Engineering Students

Automated street lightning using IoT (wireless project)  This wireless communication project helps you build a light-sensitive device that automatically turns the switch on and off depending on the intensity of sunlight falling on it. A very efficient device that saves energy is now found in many developed countries. Here, you will also learn to work on interfacing and calibrating sensors.

Smart Irrigation System wireless project  This wireless communication project helps you to develop a device that detects any change in the moisture level in the soil and also further controls the flow of water accordingly. You get to work with a soil moisture sensor and an Arduino board.

Home Automation System wireless project  This wireless project makes use of Bluetooth technology which you can use to control your home appliances. Moreover, by learning this course you will also be able to store and analyze the data about their usage. This project comes with a fess of Rs.1999.

Solar SeaWeather and Pollution Transmitter Buoy  To complete this duty, the system makes use of a variety of sensors that are all managed by an STM32 controller. We also create a receiver system to take in and show the data from the transmitter addition to it. Since the transmitter unit is permanently submerged in water, it is impossible for it to continually recharge itself. Instead, we utilize a solar panel to enable it to produce electricity and continue operating underwater. The battery that powers the electronics on board is charged by the solar panel.

Gesture Control Bluetooth Speaker Users of the Bluetooth speaker may change the music by just swiping their hand over the device. Additionally, the user may change the volume of the speaker by just raising and lowering their palm over the device. Thus, the user doesn’t even need to touch his or her phone or the speaker to control the entire speaker operation. Power for the entire gadget is provided by the battery pack. Battery chargers and protection circuitry regulates battery power and discharge.

Earthquake Monitor and Alerting System  The system gives the user the option to choose settings or begin monitoring initially. Push buttons are used to operate this, which is shown to the user on an LCD. Through the settings choices, the user may add up to three approved contact numbers. The system saves these three phone numbers, to which it will send SMS notifications in the event of a detection. The device enables early earthquake vibration detection and delivers notifications to several recipients for immediate earthquake broadcasting.

8-Leg Spider Robot by Theo Jansen Linkage   eight legs are actuated simultaneously by a twin motor configuration coupled to six gears. This robot may be remotely controlled by the operator thanks to remote control operation. Four 12v LED indicator lights on either side of the system indicate the movement’s direction. This command is received by the robot’s receiver controller, which then delivers it to the microcontroller for processing.

Coin Operated Water ATM with Bottle Dispenser  A coin module, solenoid valve, keypad, RFID scanner, and motors are used to construct the system together with an STM32 controller. This makes it possible for a smart water dispenser device to give water to consumers as needed. The system makes use of a flow meter sensor to measure the volume of water dispensed. Now that the desired volume of water has been dispensed, the device stops the flow. The device also offers bottle dispensing if the user forgets to bring a water bottle.

IOT IV Bag Monitoring and Alert System  The device uses a weight sensor, an Atmega microcontroller, a wifi transmitter, and an LCD to accomplish this functionality. An automatic and reliable IV monitoring system is made possible as a result. On a little stand, the Weight Sensor is fixed. A bottom cross piece is constructed into the stand to provide balance. The weight sensor hook on the stand may be suspended by the user using a short rod that extends from the top.

Goods Transport Stair Climber Robot   The robotic vehicle uses motorized tracked and Gripper arrangements that are both controlled by a wireless remote controller. The tracked robot is given user movement orders through the wireless remote. An rf receiver is coupled with an Atmega328 microprocessor to form the robot receiver electronics. The rf receiver’s movement commands were forwarded to the microcontroller for processing. To produce the necessary movement, the controller analyses this data and activates 4 Motors.

Weather Imaging CubeSat with Telemetry Transmission   The system uses an STM32 controller, a 2.4 GHz rf transmitter, a camera, a magnetometer, an infrared sensor, a battery for power, and other components to build the satellite. Here, we build a fundamental Cubesat architecture that emphasizes the transmission and collection of meteorological data more than the ACDS stabilizer system. The controller receives orientation data from the sensor. The temperature of the orbit is measured using the temperature sensor.

Contactless IOT Doorbell   With the help of a speaker, a camera module, and a raspberry pi controller, the contactless doorbell may operate automatically. This device will let a homeowner know who is at the door and serve as a security system to warn of any robberies when the owner is away from home. The system uses a raspberry pi controller to oversee every aspect of the operation. We hereby utilize a camera module to record any approaching individuals on video and in still photos.

Download Engineering Course Books, Study Notes, Test Series & More..