Problem Statements
Select a problem statement that excites your team. You can choose any one during registration or decide later after forming your team.
SCET Swachh Campus 360
Develop an upgraded web & mobile solution that digitizes the entire sanitation lifecycle at SCET campus (40,000+ sq. meters) with QR-based feedback system, real-time tracking, contractor management, and admin control panel.
Requirements:
- • Dynamic Resource Configuration with API sync
- • Digital Job Cards with geo-fencing & photo evidence
- • QR-based reporting and feedback system
- • Performance analytics and automated reports
SCET Smart Campus Parking System
Software solution to digitize parking ecosystem with vehicle registration, real-time occupancy tracking, and owner lookup feature for 3000+ daily vehicles across categorized zones.
Requirements:
- • Vehicle registration with QR code generation
- • Categorized parking capacity management (2-Wheeler/4-Wheeler)
- • Real-time check-in/check-out system
- • Admin search for vehicle owner lookup with contact details
SCET Virtual Campus Explorer
Create an immersive virtual walkthrough solution with hierarchical navigation from campus to specific labs, using 360° photos or 3D modeling. Embeddable on college website.
Requirements:
- • Hierarchical navigation (Campus → Dept → Room)
- • 360° photosphere tour or 3D environment
- • Interactive information tags on equipment
- • Admin interface to add new spaces without coding
Smart Attendance Tracking System
Automate attendance tracking using QR codes, biometrics, or facial recognition with cloud-based analytics for faculty and administrators. Support both offline and online classes.
Requirements:
- • Automated attendance (QR/biometrics/facial recognition)
- • Cloud-based dashboard for faculty and administrators
- • Analytics for attendance trends and student engagement
- • Compatibility with offline and online classes
Sustainable Resource Management
Develop IoT-based appliances or application that track energy/water usage and shift operation to off-peak hours when renewable energy is abundant. Calculate cost savings and carbon footprint reduction.
Requirements:
- • Real-time energy and water usage tracking per appliance
- • Smart appliance scheduling for off-peak hours
- • IoT sensors integration with smart plugs
- • Cost savings and carbon footprint calculation with alerts
Portable Power Meter (1-10kW)
Develop a portable device to measure power, energy, voltage, current, and power factor for 1-10kW range. Detect abnormal conditions for preventive maintenance and equipment monitoring.
Requirements:
- • Voltage, current, and power measurement
- • Energy consumption tracking (kWh) over time
- • Power factor measurement for efficiency evaluation
- • Abnormal situation detection (spikes, low PF, voltage fluctuations)
Automatic Classroom Power Management
Design a system to automatically turn OFF classroom electrical supply after 60/120 minutes and control power based on college working hours. Reduce energy wastage without manual intervention.
Requirements:
- • Time-based automatic ON/OFF control
- • Configurable college start and end timings
- • Interval-based power cutoff (60/120 min)
- • Safe switching mechanism with manual override option
Vertical Two-Wheeler Parking System
Design a vertical mechanical structure with 2-3 levels for two-wheeler parking. Include IoT sensors for slot detection and mobile app. Optional: Automated Guided Vehicle (AGV) integration.
Requirements:
- • Multi-level lifting and securing mechanism (3D prototype)
- • IoT-based parking slot sensors
- • Mobile app showing available spaces in real-time
- • Mechanical structure design with guiding and locking system
📝 Important Notes
- • You can choose any problem statement from above that interests your team
- • All submissions will be judged on innovation, implementation, and impact
- • You'll have 24 hours to develop your solution