A system that utilizes the latest VR goggles and live-action footage to provide experiential learning of common scenes in car accidents.
1. Real accident experiences through "live-action" The unique realism of "live-action" is characterized by aspects that cannot be fully recreated with CG, such as the way light falls, surrounding sounds, and the fear of approaching vehicles. This makes it easier for memories to be retained compared to classroom learning, leading to high educational effectiveness. 2. Abundant content (trucks, forklifts, etc.) It includes a wide range of content specifically tailored for transportation and logistics companies. - Truck and trailer section: Contact accidents during right turns at intersections, countermeasures against aggressive driving, etc. - Forklift section: Forklift overturn accidents, load collapses, collisions with pedestrians. - General and operational driving: Collisions during blind starts, accidents in parking lots. 3. High educational effectiveness and convenience - 360-degree video: Allows users to change their viewpoint and observe the accident from all angles. - Situation explanations and guidance included: Not only accident experiences but also explanations of risk factors are provided. - Lightweight goggles: Uses lightweight goggles that can be worn over glasses. - PC compatibility: A learning mode is also available on PC screens without goggles. 4. Main implementation purposes: Safe driving training in companies, safety education in logistics and warehouse environments, and Japanese traffic manners education for foreign drivers.
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basic information
This is a system that utilizes the latest VR goggles and live-action footage to provide experiential learning of common car accident scenarios. It features a sense of realism unique to "live-action," such as the fear of an approaching vehicle. As a result, it is easier to retain information compared to traditional classroom learning, and high educational effectiveness is expected. "Dri-VR" is a virtual reality system specifically designed for traffic and labor safety education using live-action footage. Since it uses videos shot with actual vehicles and professional stunt performers rather than CGI, it allows users to safely and immersively experience extremely realistic accident "near misses" and "dangerous scenes" in a secure environment (indoors). The main features are as follows:
Price information
VR headset (goggles) main unit: ¥253,000 + the following software Road Rage Edition: ¥39,000 Bicycle Accident Edition: ¥39,000 Car Parking Accident Edition (includes 5 scenes): ¥55,000 Car Parking Accident and 20 other points How do you see from the car? (includes 5 scenes) Truck and Trailer Edition (includes 9 scenes) + 2 types of immediately usable training texts: ¥88,000 Others: Drunk Driving, Labor Accidents, Hazard Prediction
Price range
P3
Delivery Time
P3
Applications/Examples of results
Safety driving training in companies, safety education in logistics and warehouse sites, and Japanese traffic manners education for foreign drivers are being implemented in training programs aimed at reducing accidents. While it is impossible to provide real-life dangerous experiences, using Dri-VR allows individuals to safely experience these dangers and feel them as "personal matters," making it recognized as a very effective tool for enhancing safety awareness.
Line up(1)
| Model number | overview |
|---|---|
| Dr-VR (Driver) is ideal for safe driving training for companies, on-site education in logistics and warehouses, and traffic etiquette training for foreign drivers. | Efforts have been made to enhance the educational effect. In addition to being able to check all directions of an accident through 360-degree video, a teaching segment that explains the risk factors is combined, providing a learning experience that goes beyond mere participation. |
Company information
- Sales/installation/consulting of network equipment - Sales of measuring instruments - Rental of electronic devices, sales of used measuring instruments - Software/hardware development and manufacturing - Educational materials: robotic arms, real-time OS programming learning - Introduction to AI using IoT devices (sensors) (optimal as a practical material for implementing "anomaly detection" using AI) - Security educational materials - Security-related software: DDoS, EDR, authentication, etc.
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