The Driving Simulator Market size is estimated at USD 677.97 million in 2024, and is expected to reach USD 876.46 million by 2029, growing at a CAGR of 5.27% during the forecast period (2024-2029).
Due to the COVID-19 pandemic outbreak and the subsequent lockdowns (with all the restrictions followed), the driver simulator market witnessed a decline. Like any other industry, the pandemic showed a negative impact on the driving simulator market as well. Major countries with a large market share are negatively impacted by the pandemic, reducing the installation of driving simulators. However, as the economies slowly returned to a state of normalcy, the market is picking up pace and is expected to grow positively during the forecast period.
As technologies in automobiles are improving day by day, there is also a significant need for safety features in them. Most accidents happen due to human errors, lack of driving skills, etc. To avoid such situations, driving simulators are the best way to enhance driver skills virtually, where a real-time environment is created artificially. This system helps the driver in managing the situation in a controlled manner. Thus, a driving simulator is more efficient and improves safety to a great extent.
The adoption of driving simulators and analysis technology has experienced an increase in the railways, aviation, marine, defense, and automotive sectors, as it helps in testing and analyzing the designs of products in a virtual environment. Especially in the automobile sector, there is a consistent increase in the demand for advanced safety features in compact and mid-sized automobiles, as most countries are bringing in new laws to improve vehicular safety. Moreover, increasing stringency of safety and environmental regulations has compelled manufacturers and authorities to invest in driving simulators with innovative designs for training. This drastically decreases the research and development cost of the advanced features in a new vehicle.
Simulators are one of the crucial aspects of the development and testing of new vehicles. The simulator's result helps engineers make important decisions by running virtual simulations while building the prototype and testing the vehicle on the track.
Additionally, the electrification of automotive components, the advent of semi-autonomous and autonomous vehicles, and the increasing influence of technology companies in the automotive industry are growth factors for the driving simulator market. The automotive industry is heading toward autonomous vehicles.
Most vehicle manufacturers are working on autonomous vehicle technology, which is not possible without simulators, and in the future, new players are likely to enter the field of autonomous vehicles, which may drive market growth in the forecast period. Major automaker companies, technology giants, and specialist start-ups have invested more than USD 50 billion over the past five years to develop autonomous vehicle (AV) technology, with 70% of the money coming from other than the automotive industry. At the same time, public authorities see that AVs offer substantial potential economic and social benefits.
Autonomous vehicle makers are working hard to address the issue of autonomous vehicle safety when they are deployed on public roads. These players believe that autonomous vehicles will be far safer drivers than human drivers. This standard necessitates a large increase in existing testing installations.
However, while testing of driverless vehicles on actual roads has expanded in recent years, safety worries about autonomous vehicles are prompting market firms to engage in simulator testing for autonomous vehicles, as autonomous vehicles require a massive amount of data collection and processing. The data is shared among IoT-connected automobiles and wirelessly transferred to a cloud system to be examined and utilized to improve automation.
Several key market companies are substantially investing in the development of testing simulation systems and software for autonomous cars for these vehicles to be released on the road with considerably higher safety ratings. For instance,
At the most recent CommunicAsia 2022 trade show, MORAI, a Korean company that creates simulation technology for autonomous vehicles, demonstrated its MORAI SIM Drive, a "true-to-life autonomous vehicle driving simulator.' As an autonomous vehicle and autonomous system, MORAI develops simulation tools and solutions.
The realistic driving simulator for autonomous vehicles, MORAI SIM Drive, can verify autonomous vehicles and offer simulation environments, sensor data, and vehicle models that are exact replicas of the real thing. MORAI SIM Drive automates building virtual environment and offers accurate network representation with HD map and a high-performance 3D graphic engine (Unity).
Vehicle manufacturers are investing heavily in autonomous car technology and entering partnerships to develop the best autonomous vehicle, as autonomous vehicles require enormous data collecting and processing. The entire data is shared between IoT-connected cars and uploaded wirelessly to a cloud system to be analyzed and used to improve automation.
With OEM's focus on automated driving soon and subsequent growth of electric vehicles is anticipated to drive the demand for driving simulators, especially for testing and research by the OEMs operating in the market.
Europe is led by Germany, one of the global most technologically superior markets. There is rapid growth for Level 2 and Level 3 autonomous cars in this region, equipped with advanced driver assistance systems like collision detection, lane departure warning, and adaptive cruise control.
From driver instructor academies to the race track, driving simulators are increasingly used as strategic tools in training education for drivers and racers. Moreover, the driving simulator will be deployed to assess ride and handling, NVH (Noise, Vibration, and Harshness), human-machine interface, and hardware in the loop in the hope of accelerating the rate of innovation in the overall vehicle development process while reducing the number of physical prototypes, and development time and costs.
The German driving simulator market is booming due to various investments and purchases ensured by utility partners. For instance,
Several utility platforms and companies understand the deep readiness of driving simulators and thus actively invest in research and technologies to come up with advanced and reliable stimulation solutions. For instance:
Thales claims that the consolidation will expand its footprint in the land market while maintaining its expertise in helicopters and military aircraft solutions. This acquisition also allows it to strengthen its local footprint in France, Switzerland, Germany, and the United Kingdom, while expanding its presence in the United Arab Emirates and Australia.
Considering these ongoing developments and purchases for driving simulators in Germany, demand for the same is expected to witness a high growth rate during the forecast period.
The driving simulator market is dominated by several active players' presence, which includes major existing companies and new startups. Some of the major players in the market are Cruden BV, AutoSim AS, AVSimulation, and Ansible Motion. utility partners and OEMs are heavily investing in developing advanced driving simulator technology for their vehicle testing and its on-road dynamics. Players are carrying strategic alliances for the same. For instance:
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