Portkey
Our project is designed to break down communication barriers between Indian Sign Language (ISL) users and those unfamiliar with it by using Augmented Reality (AR) technology in an inclusive and innovative way. Built entirely in Pictoblox, the system uses AR glasses worn by the hearing person, which captures the hand gestures in ISL. These gestures are recognized using MediaPipe and Teachable Machine, then converted into both text (displayed on the AR glasses) and speech through text-to-speech technology. The Pictoblox code is deployed to the Vuzix M400 smart glasses using an Android application, ensuring portability and ease of use.
School Help Desk Robo
Visitors and students at schools often face difficulties navigating the campus, finding information, and getting answers to common questions, which can lead to confusion, wasted time, and increased workload for school staff.
Weather Bot
This smart IoT system detects natural disasters, monitors pollution, and supports farming with sensors like DHT11, MQ135, and vibration sensors. It includes AI tools for health tips, environmental education, and disaster alerts. Special features like volcano alerts, hydration reminders, and agriculture guidance make it useful for safety, learning, and sustainable living.
Smart Museum Artifact Protection System
The Smart Museum Artifact Theft Alarm is an intelligent security system designed to protect valuable museum artifacts using a combination of hardware and AI-based technologies. This project integrates Arduino with advanced sensors and AI features like face recognition, pose detection, and biometric authentication to create a smart, real-time alert system.
Home Assist Robot
This is a robot developed especially for the elderly who are alone in the house. It assists them by providing security, healthcare, entertainment and helps them with their daily needs. In basis of security, this robot contains a safe locker and helps to control a smart home. In healthcare it has a medicine box which reminds them to take their medicines on time, a smart band, exercises and finally a virtual doctor. In entertainment, it has games, emotion detector, books, dance, music and riddles. Excluding these, it also has welcome movements and a vacuum cleaner to assist them with the house hold. This project mainly focuses on solving the problems of the elderly by providing them with their needs and solving the problems faced by them in a day to day basis.
MEDICAL CARETAKER HUMANOID ROBOT
My project is an advanced medical caretaker humanoid robot designed to
promote good health and well-being using artificial intelligence and machine
learning. It assists patients, especially the elderly and those with chronic
conditions, by offering features such as hand and item sanitization, smoke
detection, fever and diabetes monitoring, Al-based X-ray and eye scans,
emotion tracking, and a virtual doctor for quick diagnosis. The robot also
supports physical activities, provides personalized care via RFID cards, offers
entertainment, and helps with medication reminders and walking assistance.
This all-in-one solution aims to revolutionize healthcare with smart, interactive,
and compassionate technology.
AUTO BOTANIC
AutoBotanic is a smart soil management system that consists of two parts. The first part is the soil health
monitoring system, which includes a transmission tower connected to several sensors, such as an NPK sensor
that monitors the levels of nitrogen, potassium, and phosphorus in the soil. It also has a soil temperature and
moisture sensor capable of providing accurate values. The entire transmission tower is powered by a self-adjusting
solar panel that can adjust its direction toward the sun. These sensors are connected to a custom-designed transmission
PCB, created by me using open-source designing software. I ordered this PCB from an Indian manufacturer, which keeps
the production cost low. The PCB features an Arduino Nano as the main microcontroller, connected to a high-range NRF
module that transmits the soil’s nutritional values. These signals are received by the receiving module, which contains
an ESP32 that uploads the values to the internet, allowing them to be observed via an app or website.
The second part of the project is the smart fertilizer dispenser. As we saw, the soil health monitoring system accurately
detects deficiencies in the soil, but how can these deficiencies be addressed? This is where the smart fertilizer dispenser
comes into play. This technology is so unexplored that I can even patent it, and I have already started the process of patenting
it. The smart fertilizer dispenser reads the values from the NPK sensor and then begins dispensing fertilizers from its three
containers, each containing nitrogen, phosphorus, and potassium, until the values reach the desired threshold. For example
, if a farmer wants to grow wheat, they can set the dispenser to wheat mode through the AutoBotanic website. This will adjust
the threshold values of nitrogen, potassium, and phosphorus to match the specific needs of wheat.
WELL BOT
WellBot is an innovative Holistic Health and Nutrition Companion that integrates advanced technology to assist in monitoring health, ensuring safety, and improving communication. Designed for both personal and clinical use, WellBot combines health assessments like breath, memory, heartbeat tests, and environmental monitoring for fire detection and air quality. It also offers sign language interpretation, language translation, and features like the Flappy Bird game for entertainment and a QR food scanner for nutritional insights. By merging these functionalities, WellBot enhances user well-being, early health detection, and overall safety in a simple, intelligent system.
forest protection system
Our forest protection project aims to provide real-time alerts for illegal tree cutting, enabling quick responses to deforestation activities. By leveraging technology to detect unauthorized logging, we ensure faster interventions. Despite challenges like limited infrastructure in remote areas, our solution focuses on overcoming these barriers for effective forest conservation.
CLOUD PATTERN USING PICTOBLOX
The project “Cloud Pattern using Pictoblox” involves designing and simulating a dynamic cloud pattern on a digital canvas using Pictoblox, a visual programming tool.