Electric vehicles (EVs) are basically considered as the future of automobiles. One of the biggest factors contributing to the fact is that electric vehicles are more environment-friendly compared to usual vehicles. Additionally, electric vehicles require less maintenance than traditional vehicles and are also cheaper to run. Electric vehicle virtual prototyping is gaining popularity for enhancing the fluidity and productivity of work for the development teams involved in prototyping.
The global electric vehicle virtual prototyping market is anticipated to reach $5,613.2 million by 2030, with a CAGR of 33.83% during the forecast period 2021-2030.
Additionally, it also ensures an integrated scaling verification and validation system for electronic systems associated with EVs.
Virtual prototyping is a process that involves the creation of a virtual model of a machine using a computer. It is also referred to as virtual prototyping or computer-assisted modeling.
Virtual prototyping can be used to test product reliability, safety, and correct functionality. It is specifically used in industries where the design of a product cannot be changed easily after development.
In industries such as electric vehicles, virtual prototyping is used to test the design before the actual production.
Benefits of Virtual Prototyping:
Apart from getting a clear idea of the product, there are several other advantages that virtual prototyping offers:
1. Better and faster planning and production
2. Cost savings
3. Shorter time to market
4. Lesser iterations
5. Error detection
6. Identification of potential issues during actual functioning of the product
7. Conduct futuristic concept tests
8. Get user feedback
Electric Vehicle Virtual Prototyping:
Electric vehicle virtual prototyping involves the utilization of virtual prototyping for the development of EV projects. Electric vehicle virtual prototyping involves the creation of a virtual model by simulating it in order to analyze how the real model will look. It is used to develop digital prototypes that can test different functionalities of electric vehicles, such as heating and cooling systems.
Presently, virtual prototyping of EVs and EV-related developments are done via simulating software. The companies use a virtual testing environment where the virtual models of the electric vehicles are showcased.
It is useful to detect errors and identify missing or irrelevant features, future usability, and functionality in the long run. Virtual prototyping can be helpful in minimizing the manufacturing cost of the companies as every design can be discussed beforehand. Virtual prototyping of electric vehicles is the gateway of its full-fledged implementation procedure. When the designs and models of the electric vehicles are virtually prototyped, the development team can study how the actual model will seem like and eliminate possible risks.
North America is the most competitive automotive market for electric vehicles. The regional presence of traditional motor industry giants such as Ford, Tesla, and Fiat Chrysler may be responsible for the rise in electric vehicle production in the region. Additionally, the high customer demand paired with the availability of resources and opportunities provides a favorable growth advantage to North America EV market.