Top 7 Arduino Projects for Students

Numerous cutting-edge uses for the Arduino microcontroller exist in fields as diverse as robotics, lighting, gaming, and even gardening! It's a fun approach to automate everything and makes it possible for you to handle intricate displays or command basic equipment.

Top 7 Arduino projects created by the Takeoff projects are listed here to help you learn and get inspired to create remarkable projects

1. Junction Street Light System Automatic Control Using Renewable Energy Resource

India's urban sector is expanding quickly, requiring a big amount of energy. The solution is renewal energy, which is being employed in India's urban sector, whether it is used for residential or business purposes, and takes the form of solar power.

The fundamental idea behind this project is to use a programmable micro controller to control street lights in order to save energy and reduce usage. As a result, the programmable micro controller was set up to operate in two different modes, the first of which is to turn on the street lights when it gets dark at a predetermined time.

The time is set in this case using the RTC module. Secondly, anytime a vehicle is spotted, switch ON the street lights.

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Must Read: List of Arduino Based Project Ideas

2. Smart Soldier Strap

As part of this project, we have described how to use GPS to track a soldier's location. We will also be able to keep an eye on vital signs like body temperature and heart rate.

GSM module will be used to send measured parameters to the control centre so that the soldier's condition may be monitored. The military base station will be informed if a soldier suffers an injury based on changes in heartbeat and pulse rate, and we may use GPS to find the injured soldiers.

With the use of this data, we can organise the next battle with an accurate count of soldiers who have not been injured, and we can also locate the injured soldier and deliver the necessary medical care.

Your research career will be intelligently monitored and reshaped by Arduino Projects.

3. Sign Recognition and Voice Conversion Device for Dumb

Communication between the dumb people and the rest of humanity is difficult on a global scale. A person who cannot speak makes use of sign language, which a typical person cannot understand, thus creating a communication gap.

In order to make the messages that a dumb person is attempting to convey accessible to a person without understanding of sign language, the major goal of this project is to break down the communication gap between the individuals unfamiliar with the notion of sign language and the people who cannot speak. Embedded systems served as the foundation for the device's design. 

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Read: Latest BCA Final Year Project Ideas for 2023

4. Disinfecting Robot with Ultraviolet Lights

This project aims to produce a teleoperated disinfection robot with a UV light system. By destroying their DNA, the robot may utilise UV light to cleanse and eradicate hazardous organic germs such as bacteria, viruses, and other illnesses from the environment.

These robots have now been successfully tested in numerous nations to clean hospitals, public transportation, offices, and other public areas. Spraying 70% alcohol-based disinfectant solutions is the most popular and widely used way of cleaning public spaces.

Your research career will be intelligently monitored and reshaped by Arduino Projects.

5. Development Of Data Acquisition Robot For Toxic Environmental Monitoring Using WSN

A dumper is a vehicle made for hauling bulk materials, such as gravel, sand, waste, or rubble, which are frequently found on construction sites. Tippler trucks have different configurations than dumper trucks; a dumper is often an open, four-wheeled vehicle with the cab in front of the cargo.

The open-box bed of a conventional dump truck is hinged at the back and fitted with a motor to elevate the front, allowing the material within to be dropped ("dumped") on the ground behind the vehicle at the location of delivery. The material is merely dropped into the rear of the dump truck as it is. 

The issue arises, however, while trying to fill the right and left sides of the tipper in a crowded location. In order to do this, we created a dumper in this project that uses a motor to discharge material in three directions (within 180 degrees), namely the rear, the right, and the left. 

Your research career will be intelligently monitored and reshaped by Arduino Projects.

Also Try: Top 5 PIC16F77A Projects for Embedded Students

6. Driver Behavior Monitoring and Warning with Dangerous Driving Detection Based on the Internet of Vehicles

The truck drivers must travel a greater distance and may sometimes take several days to import topics from one location to another. They could feel tired and nod off while driving, which could result in accidents. This project has been established to address the issue.

The buzzer informs the driver till he awakens if the driver shuts his eyes because of sleep. In order to prevent the system from recording erroneous data (blinking eyes are not regarded as sleep), it also counts the time the driver had his eyes closed. 

An accident results, when a driver's position changes like for example, if they glance down, to the side, or back. The MEMs sensor that we are now using to attach to the driver alerts us to the change in position.

Additionally, if the driver drinks, the ignition key will be turned off thanks to the alcohol detecting sensor. And we are integrating a GSM module so that if any accidents occur, GSM will send a message to a certain number, saving that driver right away. 

Your research career will be intelligently monitored and reshaped by Arduino Projects.

7. Data Transmission Through Sound Waves

For instance, written orders might be sent wirelessly across small distances using ultrasound. Most electrical equipment do not experience interference from ultrasonic broadcasts, which are unregulated. In addition to enhancing network security, ultrasonic signals offer significant privacy protection.

Nowadays, users expect smart gadgets to exchange little amounts of information in a straightforward and straightforward manner. Sharing knowledge with a friend or co-worker is a crucial use of it.

Although a user could be ready to share another user's phone number, they might not want arbitrary third parties to overhear it since the information being transferred in these instances may be considered sensitive. 

To enable this, we suggest employing low-quality speakers and microphones, like those found on many recent smartphones, to broadcast and receive high frequency sound (ultrasound). Data transmission and proximity networking issues are primarily the focus of our project effort.

Your research career will be intelligently monitored and reshaped by Arduino Projects.

Know more: Data Transmission Through Sound Waves