Logo
  • Cases & Projects
  • Developers
  • Contact
Sign InSign Up

© Copyright 2025 Many.Dev. All Rights Reserved.

Product
  • Cases & Projects
  • Developers
About
  • Contact
Legal
  • Terms of Service
  • Privacy Policy
  • Cookie Policy
VR-Based OHS Training System for Power Engineers - European Market Expansion
  1. case
  2. VR-Based OHS Training System for Power Engineers - European Market Expansion

This Case Shows Specific Expertise. Find the Companies with the Skills Your Project Demands!

You're viewing one of tens of thousands of real cases compiled on Many.dev. Each case demonstrates specific, tangible expertise.

But how do you find the company that possesses the exact skills and experience needed for your project? Forget generic filters!

Our unique AI system allows you to describe your project in your own words and instantly get a list of companies that have already successfully applied that precise expertise in similar projects.

Create a free account to unlock powerful AI-powered search and connect with companies whose expertise directly matches your project's requirements.

VR-Based OHS Training System for Power Engineers - European Market Expansion

intechhouse.com
Education
Energy & natural resources
Information technology

Challenge

Power engineers face significant risks during their work, particularly when dealing with electrical equipment. Traditional training methods in a classroom setting are insufficient to prepare them for real-world dangers, leading to potential accidents and safety concerns. There is a need for an immersive and effective training system that can simulate high-risk scenarios and assess trainee preparedness.

About the Client

Software and Electronic Engineering company specializing in developing VR training solutions for industrial safety.

Objectives

  • Develop a comprehensive VR training system for power engineers.
  • Enhance the effectiveness of OHS training through immersive simulations.
  • Reduce workplace accidents and improve safety protocols.
  • Create scenarios covering high-voltage pole/basket elevator and medium-voltage switching station operations.
  • Develop a solution suitable for deployment in European markets.

Functional Requirements

  • VR simulations of high-risk power engineering tasks.
  • Real-time monitoring of trainee physiological responses (heart rate).
  • Interactive elements within the simulations (e.g., controlled wind blast, safety vest feedback).
  • Scenario management and customization capabilities.
  • User authentication and access control.
  • Progress tracking and reporting.
  • Web-based administration panel.

Preferred Technologies

.Net (Web interface)
Unity (VR, Pneumatic control)
C++ (electronic controllers)
3D printing (case prototyping)

Integrations Required

  • Heart monitor data integration (potentially via API or serial connection)
  • Potential integration with existing learning management systems (LMS) in European markets.

Non-Functional Requirements

  • High system performance and responsiveness for seamless VR experience.
  • Scalability to accommodate a growing number of users and scenarios.
  • Robust security measures to protect trainee data.
  • Cross-platform compatibility (considering different VR hardware).
  • User-friendly interface for both trainees and administrators.

Expected Business Impact

The VR training system is expected to significantly improve the effectiveness of OHS training, reduce the risk of workplace accidents, enhance employee safety, and expand InTechHouse's market reach in Europe. Successful implementation will position InTechHouse as a leader in VR-based industrial safety training and generate new revenue streams through service sales.

More from this Company

Development of an Electronic Notification System for Food Product Market Admission Compliance
Implementation of Data Mesh Architecture for Enhanced Data Accessibility and Security in Healthcare
DevOps and IT Infrastructure Optimization for Manufacturing and Transportation Solutions
Client-Centric Financial Management System Development
Development of High-Reliability PCB Solutions for Subsea Oil & Gas Applications