HELPING HANDS
The aim of my project is to lend a prosthetic hand to friends without hands to help them in doing everyday activities in a smooth way.
In my project, I have made a prosthetic hand using some untearable paper and EEG [Electroencephalogram] CHIP PWX. The fingers of the prosthetic hand are made of cut acrylic and move with the help of the pipe cleaning wires that spring them back and forth. The 5 servo motors pull the wires to make the hand move. There is An Arduino Uno Board which is connected to a PWX Chip. The PWX Chip has wires that connect the GELS to the chip. When the GELS receive movement, it signals the PWX EEG chip which in turn signals the Arduino Uno. The Arduino is connected to the server motors which makes the movement of the motor.
The software used in making this project is PICTOBLOX and the code is typed in C++.
I have also worked with hard plastic by using a 3D pen to make it stronger and water proof in case of any emergency and for regular usage.
IN WHAT WAYS IS MY PROJECT GOING TO HELP FRIENDS IN NEED?
The project that I have made is helping friends and other people without hands to help them do daily chores and activities with ease. The usage of batteries has made my project easily accessible by anyone from anywhere.
Mr. Bawarchi
Bawarchi is an innovative web application designed to revolutionize the way people cook. Built using PictoBlox, it acts as a personal digital chef, providing smart recipe recommendations based on the ingredients users already have at home. This eliminates the hassle of searching for meal ideas and helps reduce food waste.
Visually I am Paired
“Visually I am Paired,”
which aims to enhance the independence and mobility of visually impaired individuals through
GPS navigation, haptic feedback and real-time AI vision integration. This innovative system is built on a combination of Arduino, Quarky
microcontrollers, Python-based AI processing, and cloud connectivity, creating an
intelligent guidance system.
With an increasing need for inclusive technology, our project offers a multimodal
approach—combining sensor-based navigation, remote monitoring, real-time object
detection, and mobile accessibility—to empower visually impaired users with seamless and
safe mobility.
Smart Flower Shower
Its a hardware cum software project in which we have coded the program which will detect the faces of the chief guests and then it will shower the flower on them. After than it will close the lid and also we have added an another level of automatic filling system.
Earthquake (Detection System)
Earthquake (Detection System) is a simple yet effective early warning system designed to detect seismic activity and alert people in real time. The system operates using a vibration sensor, which detects ground movements and immediately triggers an alarm speaker through a relay module. Simultaneously, an LCD screen displays the warning message “Ada Gempa” (Earthquake Detected) to provide a clear visual alert.
Unlike conventional earthquake detection systems that rely on complex networks or internet connections, Earthquake is a standalone, cost-effective, and accessible solution. Built with an Arduino Uno, the device ensures instant response time without external dependencies, making it highly reliable for homes, schools, and public spaces.
By providing immediate local alerts, the Earthquake project helps people react quickly, seek safety, and minimize potential injuries or damages. It is especially useful in areas where commercial earthquake detection systems are too expensive or unavailable. Additionally, the system can be further improved with battery backup, wireless alerts, or integration with building safety systems, making it a scalable solution for disaster preparedness.
Aligned with the Industry, Innovation, and Infrastructure theme, Earthquake contributes to safer communities by enhancing preparedness and resilience against natural disasters. This project serves as a practical, affordable, and life-saving innovation, ensuring that more people have access to a reliable earthquake warning system
River (Waste Collector)
River (Waste Collector) is an innovative and eco-friendly waste collection system designed to clean rivers by removing floating debris and pollutants. The device operates using a servo-controlled mechanism that moves across the water, while an escalator-like system lifts waste from below the surface into a collection container. Controlled via Bluetooth, the system allows remote operation using a smartphone or tablet, making it easy to navigate and target areas with high pollution levels.
Unlike traditional manual cleaning methods, River provides a more efficient, automated, and scalable solution to tackle river pollution. The device is powered by a motor driver and servo motors, ensuring smooth mobility and waste collection without harming aquatic life. Its compact design allows it to operate in both small and large rivers, making it a versatile tool for waste management and environmental conservation.
With millions of tons of plastic and waste entering waterways each year, River offers a sustainable approach to maintaining clean and healthy water ecosystems. By reducing pollution, it helps protect marine life, improve water quality, and support biodiversity. The project aligns with the Life Below Water and Life on Land theme by promoting cleaner water resources and raising awareness about the importance of environmental responsibility.
River is an affordable and accessible solution for cities, organizations, and individuals committed to fighting water pollution and preserving natural ecosystems.
Smart Agriculture
This project is a Smart Agriculture System designed to automate the irrigation process for plants, ensuring optimal water usage and reducing manual intervention. The system utilizes a soil moisture sensor to monitor the soil’s moisture level and controls two water pumps accordingly. The first pump is always active to water hydroponic plants, while the second pump operates automatically based on the sensor’s readings. If the soil moisture level drops below 50 (indicating dry soil), the second pump activates to irrigate the plants. Once the moisture level rises above 50 (indicating moist soil), the pump turns off. This ensures that plants receive the right amount of water at the right time, promoting healthy growth and conserving water.
The project is built using simple, everyday materials, making it accessible and easy to replicate for users. It is programmed in C++, which allows for efficient control and customization of the system. By automating the irrigation process, this system not only saves time and effort but also supports sustainable farming practices.
Aligned with the theme of Industry, Innovation, and Infrastructure, this project demonstrates how simple, affordable technology can be used to create innovative solutions for modern agriculture. It encourages the adoption of smart farming techniques, particularly in areas where resources are limited, and promotes the use of technology to enhance productivity and sustainability in agriculture. This project is a step toward making smart agriculture accessible to everyone, fostering innovation and infrastructure development in the agricultural sector.
Eco Guard Grey Water Sensor
Eco Guard Grey Water Sensor is an AI-powered system that monitors, analyzes, and reports grey water quality in real time. Using sensors to detect water turbidity, it processes data via Quarky and PictoBlox, providing instant visual feedback to optimize water reuse efficiently.
Waste Management Support
We often see overflowing trash bins filled with trash, especially in places like malls, schools, or parks making these areas dirty. People feel weird when throwing trash in these dirty places and sometimes, people don’t want to throw trash in these trash bins and leaving trash on the floor instead, making areas dirtier.
This project helps to solve these problems by telling you if the trash bin is empty, half full, or completely full using an ultrasonic sensor. When the trash bin is full, it will tell you by using a buzzer to play a sound so it can be emptied quickly. It can also open automatically if you want to put trash so you don’t have to touch the trash bin.
It has other features in the control panel such as testing the buzzer, resetting the ultrasonic sensor, and a percentage counter to tell you how full the trash bin is so you can always keep track on how full the bin is.
Using this project, keeping spaces clean becomes much easier and more efficient saving time and effort. You don’t need to chec regularly to know if it is full anymore while keeping these areas neat and tidy, making waste management less of a hass
Intelligent Stick
Intelligent Stick is an innovative assistive device designed to help visually impaired individuals navigate their surroundings safely and independently. The device is equipped with an ultrasonic sensor to detect obstacles ahead and a water level sensor to identify puddles or wet surfaces. When an obstacle or water is detected, the Arduino Nano processes the data and activates a buzzer, providing an immediate audio alert to the user.
Unlike traditional white canes that rely solely on physical contact, Intelligent Stick offers an early warning system, allowing users to react before encountering obstacles or wet surfaces. The lightweight and portable design makes it easy to use, while its low-cost components ensure affordability and accessibility for those in need.
This project significantly enhances mobility, safety, and confidence for individuals with visual impairments. By integrating simple yet effective sensor-based technology, Intelligent Stick provides a practical and user-friendly solution for navigating both indoor and outdoor environments.
Aligned with the Good Health and Wellbeing theme, this innovation aims to improve the quality of life and independence of visually impaired individuals. With further development, the Intelligent Stick can be enhanced with additional features such as haptic feedback, GPS navigation, or voice assistance, making it an even more powerful tool for inclusive mobility.