Smart GreenBIN
This project is to use the AI and ML modeling to identify and help people to segrigate recyclable and non-recyclable trash.
Phase-1 of our project is Software based only. In phase-2 we will use hardware, in which our Smart GreenBIN will open the lid automated after analysing the trash if it is recyclable or non-recyclable.
HATTA RAYS: Lighting up Tomorrow, Today
This project aims to develop a smart lighting system powered by solar energy and controlled by artificial intelligence. It promotes sustainability by reducing electricity consumption and carbon emissions while offering a reliable lighting solution, particularly for areas with limited electricity access. It also helps students explore the integration of renewable energy and intelligent technology to address real-world problems.
AutoRob Soil Moisture Sensor Robot
My project is about helping the farmers to check on the soil moisture and accordingly pump the water with this smart robot automatically when it senses the level of moisture in the soil being less. This will really help them to save time and energy. This AutoRob is reflecting the smart UNSDG goal 7 : Clean Energy and Sustainable Cities . If we design such user friendly robots that will help the farmers , normal people to do the plantation effectively and our cities and villages be green easily. This project is designed using Adruino uno kit that is affordable and accessible, in this way we can make our Mother Earth protected during this phase of global warming.
TriEco Bots
We are the EcoGuardians, a team of 15-year-olds from Jordan committed to protecting our planet. Concerned by the massive damage caused by industrial waste, we took action by creating the Tri Eco Bots — three innovative, engaging robots designed to promote clean energy and sustainable cities. The scale of the problem is enormous: factories produce around 37,868 million cubic meters of liquid waste and over 2 billion tons of solid waste each year. This pollution poses a serious threat to humans, animals, and the environment. Our project doesn’t just highlight the crisis — it offers solutions. We explore the major environmental challenges and present creative, tech-based strategies that we developed ourselves. We also share real-life examples of positive change already happening around the world. Our mission is clear: raise awareness, inspire action, and help build a cleaner, greener future — together. Join us in making a difference for our planet!
Smart Home Automation
The purpose of the Smart Home Automation project is to simplify home control processes using voice commands and license plate recognition technology. Developed with the PictoBlox platform, this system enables doors and lights to be controlled through voice commands and allows secure garage door access via license plate recognition. This not only enhances comfort and security for residents but also promotes energy efficiency. Additionally, the project aims to facilitate independent living for disabled individuals, elderly people, and those with limited mobility
ECOBOTICS
Ecobotics is an innovative project leveraging the power of robotics to transform waste management and recycling processes. This initiative focuses on designing and implementing intelligent robotic systems capable of automating key stages of recycling, including the accurate sorting of diverse materials (plastics, metals, paper), efficient collection in various environments, and advanced processing for enhanced material recovery. By employing cutting-edge sensor technology, artificial intelligence, and adaptable robotic arms, Ecobotics aims to increase the speed, accuracy, and purity of recycled materials, ultimately reducing landfill waste and promoting a circular economy. This project envisions a future where intelligent robots work collaboratively to create a more sustainable and environmentally responsible approach to resource management.
kinetic energy harvesting and its application in smart agriculture
Project Title: Self-Powered Wearables and Smart Greenhouse Integration
Project Description:
This project integrates three innovative systems that demonstrate how energy generated from human movement can be captured, stored, and used to power practical applications. The highlight is a Smart Greenhouse, which operates using electricity generated by the Power-Generating Shoe and Electric Skating Shoe, showcasing a sustainable approach to personal energy harvesting.
1. Power-Generating Shoe (Piezoelectric Shoe)
This wearable shoe uses piezoelectric discs to convert mechanical pressure (from walking) into electrical energy. The generated voltage is sufficient to power small electronic components like an LED, illustrating the feasibility of using human activity to generate electricity.
Key Components:
Piezoelectric discs
LED with current-limiting resistor
Optional rectifier and capacitor for voltage smoothing
Function:
Each step generates an electrical pulse, which can be directly used or stored, depending on the design.
2. Electric Skating Shoe with Power Storage
This wearable device incorporates a DC power supply circuit capable of storing electricity generated by movement. The energy is regulated and stored in a rechargeable battery using capacitors and a voltage regulator.
Key Components:
2 Large Capacitors and 2 Small Capacitors
LM7805 Voltage Regulator
3.7V Rechargeable Battery
LED Indicator with Resistors
Dual Output:
One for the battery charging module
One for a voltage measuring module
Function:
Electricity generated while skating is regulated to 5V and stored in a battery. This energy can later power other small systems.
3. Smart Greenhouse System
The Smart Greenhouse represents a practical application for the energy generated by the wearable devices. It automates climate control and irrigation using environmental sensors, and it can operate on low-voltage power supplied by the energy harvested from the shoes.
Key Components:
DHT11 Sensor (Temperature and Humidity)
Soil Moisture Sensor
Water Pump (controlled by Relay Switch)
5V Fan (controlled by L298N Motor Driver)
LCD Display for real-time data
Microcontroller (e.g., Arduino Uno or ESP32)
Function:
The soil moisture sensor activates the water pump via the relay if the soil is dry.
The temperature sensor turns on the fan through the L298N driver if the greenhouse is too warm.
Sensor data is continuously displayed on the LCD.
Add on: Ai software which detects pests
Integration:
This project combines wearable energy harvesting, power storage, smart agriculture, and artificial intelligence to demonstrate a fully integrated, sustainable solution. The system captures human motion through innovative shoe designs, stores the generated energy, and applies it to power a Smart Greenhouse. The greenhouse is equipped with environmental sensors and an AI-powered pest detection system, making it a fully automated, intelligent agricultural environment.
Green Planet
green planet: هو حل مبتكر للزراعة الذكية يهدف إلى تحويل أسطح المباني في المدن الجديدة إلى مزارع منتجة وصديقة للبيئة. يعتمد المشروع على تقنيات إنترنت الأشياء (IoT) من أجل زراعة فعّالة وآلية للخضروات والأعشاب، مما يعزز الاستدامة البيئية والاقتصادية.
يستخدم النظام وحدة التحكم ESP32 المتصلة بعدد من الحساسات لمراقبة حالة التربة والبيئة، ويتم إرسال البيانات إلى منصة Adafruit IO لمتابعة النظام والتحكم فيه عن بُعد. كما يتكامل النظام مع منصة OpenWeatherMap للحصول على بيانات الطقس، مما يتيح التعديل التلقائي لعمليات الري وتوفير المياه بنسبة تصل إلى 40%.
يحتوي المشروع على روبوت مزود بكاميرا ESP32-CAM يتم التحكم فيه عن بُعد، حيث يقوم بالتقاط صور للنباتات تُرسل إلى برنامج ذكاء اصطناعي مخصص للكشف عن الأمراض النباتية واقتراح العلاج المناسب. كما يشمل النظام على نظام لإعادة تدوير المياه المستخدمة ونظام طاقة شمسية لتغذية المزرعة بالطاقة النظيفة.
يتميز المشروع بتكلفته المنخفضة وقابليته للتوسع، ويدعم إنتاج الغذاء في المدن، وتحسين جودة الهواء، وتحقيق أهداف التنمية المستدامة مثل الحد من الجوع، المدن المستدامة، والعمل المناخي.
Smart bioenergy city
Our project is called Smart Bioenergy City — a smart, sustainable city designed by middle school students from Algeria. It combines clean energy, innovative agriculture, and social inclusion to build a better future for both people and the planet.
One of our key innovations is a Smart Garden created especially for children with autism. This space is designed with empathy and care to offer a calm, sensory-rich environment where kids can learn, play, and feel safe. It includes an interactive corner powered by Arduino Uno, buttons, and sensory elements to support learning and emotional well-being.
Across the city, we use solar, wind, and hydro energy to power streetlights, buildings, a hospital, and even a wind-powered egg incubator. Our “3-in-1 Farming System” combines hydroponics, vertical farming, and rooftop gardening to promote sustainable food production.
We reused old materials for construction to reduce waste, and integrated smart systems for irrigation, safety, and transportation. Through this project, we aim to protect the environment, empower youth, and promote inclusive innovation.
Smart Bioenergy City is more than just a model — it’s a human-centered vision for a greener and kinder future.
Citywide Hybrid energy system
Green Imtiyaz is an innovative hybrid energy system designed to demonstrate how smart cities can be powered using clean, renewable sources. The project integrates 2-axis solar panels, vertical-axis wind turbines, and biogas generated from organic waste to simulate a sustainable urban power grid. Using servo motors ldr sensor connected to an Arduino, the system is visualized through a gamified interface in PictoBlox. It also features LED activation, energy storage simulation. The system is both educational and practical, encouraging STEM learning, sustainability awareness, and entrepreneurial thinking. Designed by students, Green Imtiyaz is scalable for use in schools, smart cities, and eco-tech startups. It promotes hands-on learning while solving real-world energy challenges, making it a powerful model for the future of clean energy in Algeria and beyond.