Driving simulation has become a very useful tool for vehicle design and research in industry and educational institutes. This paper provides a review of driving simulator components, including the vehicle dynamics model, the motion system, and the virtual environment, and how they interact with the human perceptual system in order to create the illusion of driving. In addition, a sample of current state-of-the-art vehicle simulators and algorithms are described. Finally, current applications are discussed, such as driver-centered studies, chassis, and powertrain design, and autonomous systems development. A driving simulator can measure performance accurately and efficiently. With a real vehicle, it is far more cumbersome to obtain complete, synchronized, and accurate measurement data.

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On the basis of region, the global automotive driving simulator market is segmented into North America, Europe, Asia Pacific, and Rest of the World. North America held the dominant position in the automotive driving simulator market in 2017 and is projected to retain its dominance over the forecast period. In 2017, North America generated a revenue of US$ 56.6 million and is expected to reach US$ 70.2 million in 2025, with a CAGR of 2.7% over the forecast period. U.S. and Canada are major economies driving growth of the automotive driving simulator market in this region.

https://www.globalbankingandfinance.com/pdf-ab-dynamics-has-launched-a-new-static-driving-simulator-for-automotive-driving-simulator-market/