iSMS- Intelligent Storke Management Syste,
iSMS can diagnose stroke both, brain infarct and bleed with a click of a button so that correct treatment can be started within the CRITICAL TIME which will decrease mortality and morbidity in Stroke patients. It is an innovative product since it considers other differential diagnosis of Stroke such as brain tumour and correctly differentiates and diagnoses.
– This product will have MASSIVE SOCIAL IMPACT especially in rural areas since there is a shortage of resources there.
– In addition to machine learning, DEEP LEARNING has been used so that the accuracy of the model can be improved.
– The brain images used in the training model are ANONIMISED from real life patient database and not from online databases.
– iSMS can be used by patients after giving their consent. The CONSENT FORM is designed within the iSMS platform
After the regionals, this project also received the INNOVATION AWARD from the government. The State Innovation Council will mentor the team to patent this product
Cura
We propose a friendly robot that functions as both a stress reliever and an emergency assistant in multi-speciality hospitals.The robot interacts with patients through AI-powered conversations, keeping them engaged and entertained. It’s connected to a central system, allowing patients to contact medical staff in emergencies with minimal effort. Designed to serve patients efficiently. it also has a medical compartment to keep small yet effective first aid items
Jeevan Amrit
Project Jeevan Amrit is a smart saline monitoring system designed to prevent risks associated with unattended saline bottles. Inspired by a real-life experience when a friend’s saline drip was left unchecked, the project aims to ensure patient safety by automating saline level monitoring. This system alerts medical staff when the saline level is low, preventing air embolism and other complications. Developed as part of a competition, Jeevan Amrit showcases the potential of technology in healthcare, enhancing patient care and safety.
ErgoBot
ErgoBot is an AI-driven posture and vision correction system designed to promote healthy sitting habits and prevent posture-related and vision-related health issues. Using computer vision, machine learning, and IoT, ErgoBot continuously analyzes a user’s sitting posture and screen-viewing distance to ensure optimal ergonomics.
Equipped with a webcam-based AI model, the system detects improper postures such as slouching, forward head position, or uneven weight distribution. It also features a vision correction system that uses Quarky and an ultrasonic sensor to measure the distance between the user and the screen. If the user sits too close, ErgoBot provides real-time alerts through sound, vibration, or visual notifications.
Designed for students, professionals, and long-hour screen users, ErgoBot helps reduce back pain, spinal strain, and eye fatigue. With AI-powered analysis and IoT integration, it ensures long-term ergonomic health and productivity
Vriddha Care
The growing elderly population in India necessitates technology-driven solutions to address challenges such as lack of independence and limited access to health and emergency services. Elderly individuals often struggle with modern technology, leading to difficulties in performing daily tasks, accessing healthcare, and maintaining family connections. They also experience forgetting and forgetting to take medicines, which can negatively impact their health. As their eyesight weakens, they struggle to read properly, making tasks difficult. To bridge these gaps, a technology-driven ecosystem designed using Pictoblox has been developed. The system includes a login page, a personalized medicine advisor, a health monitor, an emergency alert system, a magnifier, read-aloud feature, smart home integration, personalized medicine advisors, and medical reminders. The app has a user-friendly interface designed specifically for elderly users and includes an UPI Payment system for safe money transactions. This app aims to bring elderly people and technology closer to each other.
Tailtrack Health
Tailtrack Health is a wearable health device for pets that monitors Real Time heart rate, oxygen levels, activity, and location, displaying real-time data on the app. It insecurely attaches to a pet’s collar, ensuring comfort and safety. The device helps pet owners track their pet’s health and movement with ease. It also includes power optimization features to phone battery life. Designed to be lightweight and durable, it provides a reliable solution for pet health monitoring.
Hand Gesture Teachable Machine
The Hand Gesture Teachable Machine is an innovative project by Pranali Velip, Barsharani Muduli and Hasti Patel from Shree Mahalasa Narayani High School, Verna. Designed to assist speech-impaired individuals, it translates hand gestures into speech or text using Teachable Machine and PictoBlox.
The system captures hand gestures via a webcam, trains an AI model with 1000+ samples per gesture, and integrates it into a block-based coding environment for real-time recognition. Users refer to a hand sign sheet, and Tobi, the AI assistant, detects and displays the corresponding letter, enabling effective communication.
This project highlights how machine learning enhances accessibility, bridging communication gaps for speech-impaired individuals. By fostering inclusivity and empowerment, it showcases technology’s potential to create a meaningful impact on society.
Adjustable Wheelchair
Our project introduces a sliding and adjustable wheelchair designed to help individuals with mobility challenges move easily to different seats. Traditional wheelchairs often make transfers difficult, requiring assistance and causing discomfort. Our design features a smooth sliding mechanism, allowing users to shift effortlessly with minimal effort. The adjustable design ensures a better fit with different seats, making movement safer and more comfortable. This also reduces effort for both the user and caregiver. Made from lightweight yet durable materials, our prototype focuses on safety, comfort, and ease of use. The design is simple, ensuring that users can operate it without difficulty. This wheelchair provides a practical and effective solution for mobility transfers, helping users be more independent in their daily lives. By improving accessibility and ease of movement, our innovation aims to enhance everyday comfort while offering a reliable, user-friendly, and affordable assistive device.
Crysense
CrySense is an innovative baby cry detection prototype designed to assist deaf and blind parents in recognizing when their baby is crying. Built using Quarky, this device integrates sound sensors, a vibration motor, and machine learning to accurately detect a baby’s cry. The sound sensors continuously monitor ambient noise, and once the system identifies a baby’s cry, it triggers a visual alert and vibrations to notify parents promptly.
Schedulr
Schedule is an AI-powered planner developed using PictoBlox and the ChatGPT extension to help students manage their study routine efficiently. Instead of a static timetable, the app interacts with students through a chatbot, asking essential questions such as:
Name, Age, and Class
Number of Subjects and Their Names
Preferred Study Hours and Breaks
Best Learning Environment
Targeted Subjects for Improvement
School Hours and Extracurricular Activities
Using ChatGPT, the app analyzes responses and generates a personalized, adaptive schedule that balances study, breaks, and activities. It also provides motivational tips, reminders, and study strategies to enhance productivity. The AI continuously adjusts the schedule based on student performance and feedback, ensuring a customized learning experience.
This AI-powered assistant promotes better time management, reduces stress, and boosts academic performance. With real-time interactions, intelligent scheduling, and AI-driven recommendations, Schedule transforms study planning into a smarter, more structured, and efficient process, helping students stay focused and productive.