6 Dof Simulator Systems
Driving simulators are generally used for educational and research purposes. Driving Simulators with the ability to produce a virtual driving environment similar to real driving conditions can be used to train drivers before they are exposed to the real world. In addition, driving simulators are important in data collection for road safety research, human factor study, vehicle system development and traffic control device development. These data enable designers, engineers and ergonomists to advance the detailed design and development process of automobile interiors for human factor and vehicle performance studies.
Typically designed for military, commercial and entertainment applications (Six-axis) 6dof simulator systems are fully electromechanical. It is digitally controlled and requires virtually no maintenance. 6dof simulator systems are complex moving platforms with high motion sensitivity. It is preferred for more professional applications such as air flight training simulators. They can reach high load capacities. With high efficiency and the lowest cost of ownership in the industry, these systems will provide decades of trouble-free service. These clean and environmentally friendly systems have a very reliable, safe and proven design. With their completely closed design, these systems can be operated in the worst and the most difficult conditions. The simulator design and motion performance of the simulator enable reliable reproduction of vehicle motion environments. Simulators are used to investigate the relative importance of motion, noise, sitting and thermal environment in vehicles and the interactions between these factors.
Simulators are also used to investigate the effects of vibration on motion perception, sitting dynamics and posture balance during sitting, standing and walking. Eforsim integrates full flight motion simulators, driver training systems and 6dof simulator systems for virtual reality research. With its experience in online applications, Eforsim guarantees 6 dof motion platforms for real-time interaction to provide maximum performance while operating at the highest security level.