CyberGrip
Our robot hand is designed for manufacturing and sorts materials by type using hand movement control. To support sustainability, we added energy-saving software, biodegradable 3D-printed parts, and a smart system that reduces power use during idle time.
crop connect
Crop connect is a robotic vehicle designed to perform real time soil anlysis it makes use of sensors to gather soil data.
this sensors are the npk and the moisture sensor.
Mine Saver
We learned that a lot of miners get hurt or even lose their lives because they walk into dangerous areas underground without knowing. Sometimes it’s dark, hard to see, and there are no warning signs. That made us feel really sad. So, we decided to do something about it.
What Our Robot Does:
The Mine Saver is like a superhero robot that uses a special sensor (called an ultrasonic sensor) to “see” when someone is getting too close to a danger zone. When it senses danger, it makes a bright light to warn the person to stop or turn around. That way, it helps save lives!
MyHafila
MyHafila is a smart child detection system created to solve a life-threatening problem: children being accidentally left behind in school buses. Every year, these heartbreaking incidents result in severe injury or even death—often due to heatstroke from being trapped in hot vehicles. These tragedies are preventable, and MyHafila offers a simple yet powerful solution.
The system uses ultrasonic sensors to detect if a child remains inside the bus after the engine has been turned off. If movement or presence is detected, an immediate buzzer alert is triggered to notify the driver. At the same time, real-time notifications are sent to parents, school staff, or emergency contacts, ensuring that help arrives without delay.
Built with affordable and reliable components such as Arduino, MyHafila is designed to be both cost-effective and scalable. It can be easily installed in school buses across fleets, making it accessible for schools and transport companies of all sizes. MyHafila can also be adapted for use in personal vehicles, offering families an extra layer of protection during daily commutes.
This project targets schools, transportation providers, and parents who prioritize child safety. By addressing a critical issue through the use of smart, responsive technology, MyHafila provides peace of mind to caregivers and builds trust in school transport systems.
More than just an innovation, MyHafila is a mission—to ensure that no child is ever forgotten, and every journey to and from school is a safe one.
Smart Soil
Smart Soil is an AI-powered smart irrigation system designed to optimize water usage and improve agricultural productivity. The solution is divided into two main components: a mobile robot and a fixed water treatment unit. The mobile robot roams the farmland, equipped with an ESP32-CAM to capture real-time images of crops. These images are analyzed using PictoBlox AI to identify plant type, detect diseases, and recognize water-stressed plants, allowing timely irrigation and intervention. The robot also plants sensors in the soil to measure moisture, temperature, and pH levels. The fixed unit addresses water scarcity by filtering unclean water using a multi-stage purification system, making it safe for irrigation. All data is integrated into a centralized web and mobile platform, where farmers can monitor sensor readings, receive alerts, and remotely control water pumps. Smart Soil is a scalable, cost-effective solution aimed at supporting sustainable agriculture and combating the impacts of water shortages caused by climate change and infrastructure challenges.
PROJECT ZIRA
Project Ziraa is an innovative agricultural automation solution, responding to critical global challenges in farming such as labor shortages, crop loss from pests, and the impacts of climate change. Agriculture today faces huge challenges: up to 40% of global crops are lost to undetected pests. In 2024 alone, the U.S. needed 2.4 million more farm workers. Project Ziraa aims to modernize agriculture using AI and IoT technologies. We developed a system that makes farming smarter, more efficient, and sustainable – especially for small to mid-sized farms.
Ziraa’s components include:
Smart Farming Module: IoT sensors monitor soil moisture, pH, temperature, humidity, and light in real time.
AgroPilot: An autonomous robot that ploughs, seeds, weeds, and fertilizes.
Plant Doctor: A machine learning tool (using the KNN algorithm) that detects early signs of pests and diseases.
Fruit Picking Bot: Uses AI and robotic arms to harvest fruits without damage.
Quality Checking Bot: Sorts fruit by size, color, and defects with AI-powered vision.
Ziraa stands out because it integrates multiple features into a single, affordable system. It reduces water use by up to 30% and increases crop yields by 18%, while also lowering farming costs – offering long-term savings compared to traditional methods.
By combining technology and agriculture, Ziraa empowers farmers, protects crops, and secures the future of food production.
PiezoTidalQ
PiezoTidal-Q is an innovative hybrid renewable energy system developed by Team Code Champs for Track 1 Entreprenuship and Innovation. The project combines piezoelectric panels and tidal turbines to generate electricity from both mechanical vibrations and underwater kinetic energy. Designed for coastal regions, it taps into two abundant and underutilized energy sources—vibrations from human activity or waves and tidal movements. This dual-source system provides a continuous, clean power supply ideal for off-grid communities and disaster-resilient infrastructure. Unlike existing solutions that rely on a single energy source, PiezoTidal-Q enhances efficiency by integrating both technologies into one modular setup. The system is scalable, environmentally safe, and chemical-free, aligning with the UN Sustainable Development Goals (SDGs) 7, 8, and 9—promoting clean energy, economic growth, and innovation. Its entrepreneurial and business potential lies in its adaptability to diverse coastal environments and its ability to support sustainable development while reducing reliance on fossil fuels.
SkyCast™
SkyCast – Smarter Weather, Just a Question Away
SkyCast is your personal weather assistant, built with powerful AI and an easy-to-use voice feature. Whether you’re heading out for a walk, planning a weekend trip, or just deciding what to wear, SkyCast gives you reliable weather updates—no typing needed.
Just ask, and it answers.
What makes SkyCast different?
You can talk to it. Ask about today’s forecast or what the skies look like tomorrow, and it’ll respond.
It uses smart AI to give you more accurate and personalized weather updates.
You can tell it your city, and it will instantly bring up the latest information on that city.
It helps you plan ahead—without overloading you with too much data.
SkyCast is designed to feel natural. No clutter. Just the forecast, the way you’d ask a friend.
Smart Water FIlteration System
Our project prevents water wastage unlike any other water filtration system. Our project filters the water and gets it out for usage and then after usage it will get back to be filtered again –a closed loop. It also prevents any water leakage since we have an IR sensor that wouldn’t make the system work except if it detects my hand and we also have an AI system that detects any cracks in the system so the system would stop, and no water leakage would happen.
Our system also neutralizes factory acid present in wastewater by using calcite powder which can neutralize different acids including carbonic acid, acetic acid, and hydrochloric acid, which are commonly used in factories.
We have also added a harmful insect detection system using the AI provided by PictoBlox. This system eradicates the possibility of water contamination through vectors or harm to people or animals through water-bugs.
Pill Pilot
How many words it has – eam PillPilot from Apple International Community School, UAE, presents PillPilot — an AI-powered autonomous robot designed to transform medicine delivery in healthcare. Built using PictoBlox and powered by two Quarky boards, the robot uses line-following sensors and ultrasonic detection to navigate safely through hospital corridors or rural areas. With three servo motors controlling secure medicine compartments and a 3D printed body, PillPilot is lightweight, modular, and scalable.
The project addresses a critical healthcare challenge: manual medicine delivery delays, errors, and overburdened staff. PillPilot supports nurses and pharmacists by automating logistics, ensuring timely and accurate medication delivery, especially in high-pressure or underserved environments.
Aligned with UN SDG 3: Good Health and Well-being, the solution is affordable, customizable, and future-ready — with potential upgrades like voice commands or GPS tracking. PillPilot isn’t just a robot — it’s a step toward smarter, safer healthcare for all.