Projects to Products
Driving Innovation
Product Development
Soil-Based Crops Recommendation System
The Soil-Based Crops Recommendation System is an innovative solution designed to assist farmers in maximizing agricultural productivity. By analyzing soil parameters such as pH, moisture, nutrient content, and more, the system provides precise crop recommendations tailored to the specific characteristics of the soil.
This cutting-edge technology has been developed by Sampath Ganesh Kandregula and Sai Dinesh Sarisa, founders of Krishak Mitra, and Kamaljeet Kainth in collaboration with GNA University Technology Business Incubator .
Key Highlights:
• Objective: Empower farmers with data-driven insights for better crop selection and yield optimization.
• Technology: Integrates advanced soil analysis techniques and AI-driven recommendations.
• Patent Status: Successfully filed and published under the intellectual ownership of GNA University and the inventors.
• Applications: Ideal for farmers, agricultural consultants, and organizations aiming to promote sustainable farming practices.
Stage : Proof of Concept and Patent Published
For more information :
https://iprsearch.ipindia.gov.in/PublicSearch/PublicationSearch/PatentDetails
Some of my selected projects that progressed from ideas to proof of concept (POC) and minimum viable products (MVPs), successfully leading to patent filing and publication in India.
Artificial Intelligence Enabled Attendance Management System
The Artificial Intelligence Enabled Attendance Management System is a groundbreaking solution designed to automate and streamline attendance tracking. By leveraging AI-driven technology, this system replaces traditional manual and RFID-based methods, providing precise and efficient management of attendance records.
Key Features
AI-Enabled Image Processing: Automatically authorizes users and detects ID card issues.
Accurate Entry/Exit Logging: Maintains detailed attendance records effortlessly.
Cost-Efficiency: Eliminates the need for expensive RFID systems and manual processes.
Scalable Solution: Adaptable for schools, colleges, and corporate organizations.
Stage : MVP and Patent Published
This patented system was developed by GNA University Technology Business Incubator in collaboration with the Er. Kamaljeet Kainth, Brayan Rai, Suruchi, Jaurjena Parmar, and Dr. Monika Hanspal.
For more information :
https://iprsearch.ipindia.gov.in/PublicSearch
Application Numbe : 202311012060
The IoT-Based Engine Deactivation System is an advanced security solution designed to enhance vehicle safety. Leveraging IoT technology, this system enables remote engine deactivation during emergencies via a mobile app, ensuring rapid response and reducing risks.
Key Features:
• Remote Engine Deactivation: Cuts off ignition using IoT technology via a secure mobile app.
• Enhanced Safety: Essential for motorsport events to prevent accidents in emergencies.
• Universal Compatibility: Can be installed in petrol, diesel, and electric vehicles.
• Dual Modes: Offers both automatic and manual modes for flexibility and reliability.
Developed By: Kamaljeet Kainth, Virender Singh, Arjun Anand, Manjinder Singh, Ramandeep Singh, Sharanjeet Singh along with GNA University.
Stage : MVP, tested in live go-karting race and Patent Published
For more information :
https://iprsearch.ipindia.gov.in/PublicSearch
Application Numbe : 202011027705
IOT BASED ENGINE DEACTIVATION SYSTEM FOR VEHICLES
SELF-CHARGED UNMANNED AERIAL VEHICLE
The Self-Charged Unmanned Aerial Vehicle is an advanced innovation that revolutionizes aerial vehicle technology. This system offers self-charging capabilities during the cruising phase, eliminating manual recharging and enhancing efficiency. It also provides precise directional control and higher thrust, making it suitable for long-duration tasks and carrying heavy payloads.
Key Features:
• Self-Charging Mechanism: Utilizes induced electromotive force (EMF) to recharge the battery during operation.
• Directional Precision: Offers precise movement and stability using motorized directional nozzles.
• Higher Efficiency: Provides tremendous up-thrust for hovering and lifting heavy loads.
• Compact Design: Ensures reduced drag and enhanced maneuverability.
Developed By:
Chaitanya Aswini Kumar Reddy, Sampath Ganesh Kandregula, Kamaljeet Kainth.
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Stage :Patent Published
For more information :
https://iprsearch.ipindia.gov.in/PublicSearch
Application Numbe : 202311031733
The Helmet Indication System for Cyclists is an innovative safety solution designed to enhance visibility and communication on the road. Using gesture-based controls, the system enables cyclists to indicate turns, stops, and other signals with ease, ensuring a safer riding experience.
Key Features:
• Gesture-Controlled Signals: Uses head movements to activate turn signals, stop indicators, and parking lights.
• LED Integration: Bright LED lights ensure high visibility in all conditions.
• Seamless Functionality: Independent of manual operation, allowing cyclists to focus on riding.
Developed By:
Kamaljeet Kainth, Arjun Annand, Nikhil Kumar, Vivek Joshi
This cutting-edge helmet system revolutionizes cyclist safety, promoting better communication and reducing accidents.
For more information :
https://iprsearch.ipindia.gov.in/PublicSearch
Application Numbe : 202011027704
SMART HELMET INDICATION SYSTEM FOR CYCLE USING HEAD GESTURE &ROTATION OF FRONT WHEEL OF CYCLE.
All rights reserved to applicants and inventor(s)
All rights reserved to applicants and inventor(s)
All rights reserved to applicants and inventor(s)
All rights reserved to applicants and inventor(s)
All rights reserved to applicants and inventor(s)