Peer-to-Peer Tutoring Platform & EdTech Development
A scalable EdTech platform designed to simplify tutor-student interaction, streamline online learning workflows, and make education more accessible through a seamless digital experience
THE CLIENT
Tutorfly is an aviation training platform focused on creating realistic pilot simulation environments for civil aviation education and professional training.
The goal was to develop a highly accurate flight simulator that combines real-world navigation, interactive cockpit systems, and performance tracking into a scalable digital product
PROBLEM SPACE
Realism Without Physical Infrastructure
Traditional pilot training requires expensive physical simulators. The challenge was to recreate a realistic cockpit and flight environment digitally while maintaining accuracy
Complex Multi-User Interfaces
Each crew member operates different systems and controls. The platform had to provide detailed, role-specific instrument panels without overwhelming usability
High-Performance Rendering
Flight simulation requires continuous rendering of terrain, altitude changes, and environmental movement in real time
Accurate Pilot Performance Tracking
The system needed to record routes, flight hours, and pilot actions with precision to support training evaluation
WHAT WE DID
Custom Aviation Simulator Development
We designed and developed a state-of-the-art civil aviation pilot simulator, starting as an MVP and evolving into a full-scale training product
Interactive Cockpit System
Created highly detailed instrument panels tailored for each crew member, accurately simulating real cockpit workflows and controls
Dynamic Terrain Visualization
Integrated Google Maps with dynamic zoom and rendering systems to realistically reproduce terrain and altitude changes during flight
Pilot Activity Tracking
Implemented a comprehensive logging system for flight hours, routes, and performance metrics to ensure accurate simulation analysis and training assessment
TECHNICAL IMPLEMENTATION
Researched pilot training processes and cockpit interaction logic to replicate real aviation scenarios
Built a scalable system capable of handling real-time rendering, instrument synchronization, and continuous data processing
Utilized WebGL and Google Map API to create immersive environmental visualization with responsive zoom and movement behavior
Implemented desktop application architecture using Electron and NW.js for stable simulator performance
Focused on low-latency communication and efficient rendering to ensure realistic simulation responsiveness
WORKING PROCESS
The product was designed around real pilot workflows, not simplified educational abstractions
We initially focused on validating the simulator core, then expanded the system into a full-featured aviation platform
Every interaction — from instrument response to terrain rendering — was optimized for immediacy and realism
The interface had to balance complexity with usability, ensuring pilots could operate naturally inside the simulator environment
The architecture supports future expansion, including additional aircraft systems, training scenarios, and advanced analytics
PROJECT RESULTS
A realistic digital aviation simulator capable of replicating real-world pilot training scenarios
Detailed cockpit environments with role-based instrument systems
Accurate tracking of pilot activity and performance metrics
A scalable simulation platform that evolved from MVP into a full-featured product
TOOLS WE USE
Simulation & Rendering
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WebGL -
Google Map API
Desktop Application Development
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Electron
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NW.js
Backend & Core Engineering
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C#
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Boost.Asio
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V8
Frontend Technologies
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HTML5
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