Background: India frequently faces natural disasters such as floods, cyclones, earthquakes, and landslides. The lack of real-time predictive analytics and efficient disaster response coordination results in delayed evacuation, resource misallocation, and increased casualties.

Challenge: Develop an AI-powered disaster prediction and early warning system that integrates satellite data, real-time weather updates, and on-ground sensor feeds to predict disasters and send timely alerts to the public and authorities.

Scope of Work:

• AI for Disaster Prediction: Train machine learning models using historical climate data to forecast potential disasters.
• Automated Early Warning System: Develop an AI chatbot that sends alerts via SMS, WhatsApp, and regional language IVR calls.
• Geospatial Data Analysis for Risk Mapping: Implement an AI-powered geospatial mapping system to identify high-risk zones.

Expected Outcomes:

• A real-time AI-powered disaster prediction dashboard.
• A multi-channel AI-driven early warning system.
• An interactive risk mapping tool for disaster preparedness.

Background: With India’s increasing digital footprint across sectors like finance, healthcare, and governance, cybersecurity is a top national priority. AI-driven cyberattacks such as phishing, malware intrusions, and financial frauds are escalating, demanding real-time AI security solutions.

Challenge: Develop an AI-driven cybersecurity platform capable of real-time threat detection, anomaly detection, and automated response to prevent cyber threats targeting government portals, banking systems, and public infrastructure.

Scope of Work:

• AI for Real-Time Cyber Threat Intelligence: Use machine learning algorithms to detect anomalies in real-time network traffic.
• Deepfake & Phishing Detection System: Develop an AI model that identifies fraudulent content in news, emails, and social media.
• Blockchain-Based Secure Digital Transactions: Integrate AI-powered fraud detection models into a blockchain-enabled financial security system.
• User Privacy Protection Module: Implement AI-driven personal data anonymization and GDPR-compliant privacy solutions.

Expected Outcomes:

• An AI-driven automated cybersecurity defense system for government and financial institutions.
• A real-time AI fraud detection dashboard to prevent financial cybercrimes.
• An AI-integrated phishing and deepfake detection tool.

Background: Indian cities suffer from severe traffic congestion, lack of real-time traffic monitoring, and inefficient public transport planning. AI can optimize traffic flow, reduce congestion, and enhance road safety.

Challenge: Develop an AI-based smart traffic management system that optimizes traffic signal timings, predicts congestion zones, and dynamically reroutes vehicles to improve urban mobility.

Scope of Work:

• AI-Based Adaptive Traffic Signals: Use real-time camera feeds and AI models to dynamically adjust traffic light cycles.
• Smart Vehicle Rerouting System: Build an AI-powered route optimizer for public transport and private vehicles.
• Real-Time Traffic Violation Detection: Implement computer vision models to detect traffic violations (e.g., signal jumps, helmet-less riders, overspeeding).
• Public Transport Optimization: Develop an AI-driven bus and metro scheduling system for peak-hour efficiency.

Expected Outcomes:

• A real-time smart traffic control dashboard for traffic police and city planners.
• AI-powered automated violation detection with e-challan system.
• A data-driven public transport scheduler for improved efficiency.

Background: With overburdened hospitals, limited doctors, and increasing chronic diseases, AI can improve early disease detection, remote patient monitoring, and medical accessibility, especially in rural India.

Challenge: Develop an AI-powered smart healthcare assistant that helps early disease detection, personalized diagnostics, and remote patient monitoring.

Scope of Work:

• AI-Powered Disease Diagnosis: Develop an AI model for tuberculosis, heart diseases, and diabetic retinopathy detection using medical imaging.
• AI Chatbot for Primary Healthcare: Implement a multi-language AI assistant to guide patients about basic health symptoms and precautions.
• Smart Remote Patient Monitoring: Build an AI-powered wearable health tracker that monitors vital signs and sends alerts to doctors.
• AI for Assistive Technologies: Design an AI-driven assistive device for visually or physically impaired individuals.

Expected Outcomes:

• A real-time AI diagnosis tool for hospitals and telemedicine platforms.
• A health monitoring wearable prototype with AI-based anomaly detection.
• An AI chatbot in local Indian languages for accessible primary healthcare.

Background: India’s industries and healthcare sectors require smart automation to optimize labor-intensive tasks, improve manufacturing precision, and enhance patient care in hospitals.

Challenge: Develop an AI-powered robotic assistant that enhances manufacturing efficiency, quality control, and autonomous patient assistance.

Scope of Work:

• AI-Enabled Robotic Arms for Smart Factories: Design a vision-based AI robotic system that automates assembly line tasks, detects defects, and enhances productivity.
• Autonomous Patient Assistance Robot: Develop an AI-powered hospital robot that helps with medicine delivery, disinfection, and patient movement.
• AI-Integrated Collaborative Robots (Cobots): Implement intelligent robotic systems that assist human workers in repetitive or hazardous environments.
• AI for Smart Warehousing & Logistics: Build an AI-powered robotic system that automates inventory management and order fulfillment.

Expected Outcomes:

• A working AI-driven robotic assistant prototype for industrial or healthcare automation.
• An AI-powered collaborative robotic system that improves efficiency and reduces human workload.
• A vision-based AI defect detection system for industrial quality assurance.

Background: Drones are playing an increasingly important role in public safety, smart surveillance, and precision agriculture in India. AI can enhance drone capabilities, allowing them to operate autonomously for surveillance, disaster relief, and farm management.

Challenge: Develop an AI-integrated drone system that autonomously performs real-time surveillance, agricultural monitoring, and disaster assessment.

Scope of Work:

• AI for Smart Surveillance & Public Safety: Develop a real-time AI-based aerial monitoring system that detects criminal activities, crowd congestion, or accidents.
• Autonomous Drone Swarms for Disaster Relief: Design an AI-coordinated drone network that assesses floods, landslides, and fire outbreaks.
• AI-Powered Agricultural Drones: Implement computer vision models to detect crop diseases, optimize irrigation, and monitor soil health.
• Drone-Based Traffic & Road Monitoring: Build an AI-driven drone system that analyzes traffic congestion and suggests alternative routes.

Expected Outcomes:

• A functional AI-driven drone system for public safety, agriculture, or disaster response.
• A real-time AI dashboard for drone monitoring and analytics.
• AI-powered automated crop health detection with precision spraying technology.

Background: India’s gaming and entertainment industry is evolving rapidly, requiring AI-driven personalization, adaptive game environments, and realistic virtual experiences.

Challenge: Develop an AI-based game engine or virtual reality (VR) system that provides adaptive gaming experiences, AI-generated characters, or immersive storytelling.

Scope of Work:

• AI-Driven NPC Behavior: Build an AI-powered non-playable character (NPC) system that adapts to player interactions and decision-making.
• AI for Procedural Content Generation: Develop an AI-driven game content generator that dynamically creates levels, quests, and environments.
• Real-Time Motion Tracking for VR Gaming: Implement computer vision-based motion recognition for gesture-based controls and immersive gameplay.
• AI for Personalized Learning in Educational Games: Create an AI-powered adaptive learning system that tailors educational game experiences based on player engagement.

Expected Outcomes:

• A functional AI-powered game engine with adaptive NPCs and procedural environments.
• An AI-enhanced VR gaming experience for gesture-based interactive storytelling.
• A game-based AI-driven learning platform for personalized education.

Background: With the increasing adoption of digital infrastructure, India’s cyber landscape is vulnerable to real-time threats such as malware, phishing, and network intrusion attacks. Existing security systems lack AI-powered real-time detection and rapid mitigation capabilities.

Challenge: Develop an AI-based cyber threat intelligence system that detects anomalies in network traffic, identifies cyberattacks, and automates security responses.

Scope of Work:

• AI-Based Intrusion Detection System (IDS): Use machine learning models to analyze real-time network traffic and detect anomalies.
• Automated Cyber Threat Mitigation: Implement an AI-driven incident response system that autonomously takes action on detected threats.
• AI-Driven Threat Intelligence Dashboard: Develop an interactive dashboard that visualizes cyber threats and provides insights for security teams.

Expected Outcomes:

• A real-time AI-powered cybersecurity system capable of detecting and mitigating network anomalies.
• A threat visualization dashboard for security monitoring and alerts.

Background: Deepfake technology and phishing attacks are increasingly used to spread misinformation, manipulate digital identities, and conduct cyber fraud. India’s digital ecosystem needs an AI-driven solution to detect deepfakes and phishing attempts in real-time.

Challenge: Develop an AI-powered detection system that identifies fraudulent digital content, deepfake videos, and phishing emails to safeguard individuals and organizations from online fraud.

Scope of Work:

• Deepfake Identification Using AI: Train deep learning models to analyze video/audio patterns and detect synthetically altered content.
• AI-Based Email & Social Media Phishing Detection: Implement NLP models that detect fraudulent content in emails and social media posts.
• Automated Reporting & Alert System: Develop a real-time fraud detection system that alerts users and provides proactive threat mitigation.

Expected Outcomes:

• An AI-powered deepfake detection tool that verifies the authenticity of digital media.
• A real-time phishing alert system integrated into email and social media platforms.

Background: Digital transactions in India are rapidly growing, but fraudulent financial activities, identity theft, and transaction manipulations remain a significant challenge. AI and blockchain can work together to provide fraud-resistant and tamper-proof financial security solutions.

Challenge: Develop an AI-integrated blockchain security system that prevents financial fraud, detects suspicious transactions, and ensures secure digital transactions.

Scope of Work:

• AI for Fraud Detection in Digital Payments: Use machine learning models to detect fraudulent transaction patterns.
• Blockchain-Enabled Secure Transaction System: Implement a tamper-proof blockchain network for secure payment verification.
• Multi-Factor AI-Powered Authentication: Integrate AI-driven biometric or behavioral authentication mechanisms to strengthen security.

Expected Outcomes:

• A secure AI-blockchain financial transaction system that prevents fraud.
• An automated AI-driven fraud detection system for digital payments.

Background: With increasing concerns about data privacy, personal data leaks, and identity theft, AI-driven privacy-enhancing technologies (PETs) can help individuals and organizations secure their sensitive data while complying with privacy laws such as GDPR.

Challenge: Develop an AI-based privacy protection system that anonymizes user data, enhances data security, and ensures compliance with privacy regulations.

Scope of Work:

• AI-Driven Data Anonymization Framework: Develop an AI system that automatically removes personally identifiable information (PII) while preserving data utility.
• Homomorphic Encryption for Secure Data Processing: Implement an AI-powered encryption model that allows computations on encrypted data without decryption.
• Privacy-Preserving AI for Smart Cities & Businesses: Create federated learning models that allow AI training without exposing sensitive data.

Expected Outcomes:

• A privacy-preserving AI system that ensures compliance with GDPR and Indian data protection laws.
• A real-time AI-driven data anonymization tool for businesses and governments.