AI Intelligrid NetZeroHome
The overall objective of the NetZero Home project is to create and establish a self-reliant, environmentally friendly smart home concept that generates as much energy as it uses, thus meeting net-zero energy consumption levels. The project aims to encourage sustainable lifestyle by using combined renewable energy, efficient water management, and intelligent automation technologies.
LAURA BOT
LAURA BOT (Landslide AI-Alert & Urgent Rescue Automation Robot) is a comprehensive landslide disaster management system that combines AI-powered prediction, real-time alerts, and rapid post-disaster rescue. Developed in response to the 2024 Wayanad tragedy, LAURA BOT integrates machine learning, GSM, LoRa, and drone technologies to deliver precise early warnings, personalized home alerts, and swift survivor location via GPS-enabled smart vests and drones. This low-cost, scalable solution bridges critical gaps in current systems, functioning even in remote areas with weak infrastructure. Tested through field simulations and expert consultations, the system is backed by robust technical architecture and has initiated patent proceedings. Its modular design makes it deployable at individual and community levels, while a built-in educational toolkit promotes public awareness. LAURA BOT redefines disaster preparedness by not only predicting and preventing, but also empowering communities and enhancing rescue operations, making it a transformative innovation in saving lives during landslide emergencies. LAURA Bot – Prevention to Protection, all in one solution.
Clean Bot
Robots will play a crucial role in keeping our cities clean and sustainable. One robot will be responsible for collecting waste from streets and public areas while the other one will dispose it off in designated dustbins. This will ensure efficient waste management, contributing to a cleaner and more eco-friendly urban environment.
DebrisX
DebrisX is an autonomous robot built for hazardous environments. Using AI and sensors, it navigates rubble, detects obstacles, and clears paths efficiently. Its powerful grippers and suction handle debris of all sizes. While it operates independently, remote control ensures human workers stay safe while directing operations when needed. Designed for disaster response and demolition zones, DebriX makes debris management safer and smarter.
Garuda
Prioritises animal rescue in the event of a fire. Additionally, the rover tests water quality to ensure
that it is safe for animal use, and it alerts the forest department if illegal logging activities are
detected. One of its key roles is to assist in GARUDA is the name of our rover, designed to patrol
the forest and monitor its environment. It receives data from a drone equipped with various
sensors, which tracks events in the forest using GPS and transmits the information to the rover.
The rover’s primary focus is forest fire detection, and its design cleaning up litter around animal
habitats, contributing to a cleaner environment. The rover also identifies injured animals and
sends this data to the relevant authorities for prompt assistance. These various functions of the
rover aim to improve the overall ecosystem of the forest, helping to preserve wildlife and promote
a healthier environment. By combining these efforts, GARUDA not only assists in the immediate
rescue of animals but also contributes to the long-term sustainability and protection of the forest
ecosystem, ultimately benefiting the wildlife that depends on it.
Trash To Power
1. Renewable Energy Generation: To generate electricity from waste materials, reducing dependence on fossil fuels and promoting renewable energy.
2. Waste Management: To provide a sustainable solution for waste management, reducing the environmental impacts of waste disposal.
3. Greenhouse Gas Emissions Reduction: To decrease greenhouse gas emissions by utilizing waste as a fuel source, thereby mitigating climate change.
RainRising Bridge
This project proposes an automated bridge-lifting system that utilizes a moisture sensor to detect rising water levels. When the sensor detects water, it sends a signal to a microcontroller (such as Arduino or Raspberry Pi), which then activates a motor to lift the bridge. Once the water recedes, the bridge can be lowered back to its normal position. This solution ensures timely response to flooding, preventing damage and enhancing safety.
EVision Lanes
This project introduces a smart and integrated solution combining Wireless EV Charging Lanes with an IoT-Based Emergency Alert and External Airbag System to enhance both sustainable mobility and road safety.
The EV Charging Lane uses IR sensors and inductive wireless charging modules to detect a vehicle’s presence at the entry and exit points of the lane. When a vehicle is detected, charging begins automatically and continues as the car moves through the lane—enabling wireless, on-the-go charging without the need for manual connections or prolonged stops.
The Emergency Alert and External Airbag System is powered by an ESP32 and includes ultrasonic sensors, an ADXL335 accelerometer, servo motors, buzzers, and LED indicators to detect collisions or high-impact motion. In the event of an accident, the system deploys external airbags and sends real-time emergency alerts to hospitals and responders. The alert data, including impact severity and location, is displayed live on the ThingSpeak IoT platform for monitoring and quick response.
This project targets electric vehicle owners, smart city planners, and transportation authorities, aiming to boost EV adoption, enhance road safety, and promote intelligent transport systems. It showcases how the integration of IoT and automation can create a more sustainable and responsive mobility infrastructure.
bot recycling
The components are not fitting in
Don’t have enough samples of bottles
What should we use when people give us bottles.
Automatic road spray painting
It is a project that helps the workers it is based on industrial innovation and infrastructure