Full Project Files (Unity): CLICK HERE TO DOWNLOAD THE PROJECT
Demo Video: HERE TO VIEW THE VIDEO
A smart indoor and outdoor navigation system designed to improve movement inside large environments such as universities, events, and public facilities.
Built using Unity and AR-based navigation technologies, UniFlow provides real-time guidance for students, visitors, and visually impaired users through interactive path visualization and intelligent directional assistance.
The project also aligns with the goals of the Saudi Vision 2030 by supporting digital transformation, smart environments, accessibility, and enhanced user experience through innovative technologies.
Many students and visitors experience difficulties navigating large campuses and facilities, which may lead to delays, missed lectures, or difficulty locating important destinations.
UniFlow introduces a smart navigation solution that:
- Detects the user's current position
- Guides users toward their destination using AR navigation
- Dynamically updates routes based on movement and direction
- Supports accessibility features for visually impaired users
- Real-time indoor navigation
- AR directional guidance
- Dynamic route updating
- Smart path visualization
- Accessibility support for visually impaired users
- Interactive user experience
- Support for both indoor and outdoor environments
The system includes an audio-based guidance mode designed for visually impaired users.
Using directional sound feedback:
- Audio becomes stronger when the user is facing the correct direction
- Audio decreases when the user moves away from the path
- Guidance intensity changes based on distance to the destination
This creates an intuitive navigation experience without requiring constant visual interaction.
The system can adapt based on time and context.
Examples:
- Lecture halls during class hours
- Cafeterias during lunch time
- Event halls during university activities
- Exam rooms during examination periods
Before navigation can function, the environment must first be scanned and mapped.
The system relies on pre-scanned building data to:
- Create accurate navigation paths
- Detect spatial positioning
- Enable AR tracking and route visualization
Without scanning the environment first, navigation features cannot operate correctly.
- Unity Engine
- AR Technologies
- Spatial Mapping
- Indoor Positioning Concepts
- Mobile Navigation System
UniFlow is not limited to universities only.
The same concept can be applied to:
- Graduation ceremonies
- Hackathons
- Workshops and conferences
- Museums and exhibitions
- Large indoor facilities
- Outdoor events and festivals
Additionally, the system has future potential for:
- Hajj & Umrah guidance systems
- Assisting pilgrims inside crowded environments
- Smart navigation for large-scale public spaces
Our goal is to create a smarter, more accessible navigation experience that improves mobility inside complex environments for everyone.
- AI-assisted navigation
- Voice interaction
- Smart crowd detection
- Multi-building support
- Real-time event guidance
- Enhanced accessibility modes
An academic project focused on improving navigation and accessibility experiences inside large environments using AR and smart guidance technologies.