The automobile industry is going through a major shift now, thanks to crucial developments in software and technology. Some of these enhancements have captured the interest of software development teams in addition to the sector and industry.
Your developer teams can be better prepared to successfully manage these changes by looking into these new trends in automotive software development.
Latest Trends in Automotive Software Development
Millions of lines of code are needed to implement the complex digital functionalities included in modern automobile software to guarantee reliable and secure operation. The development of automotive software companies in multiple fields has faced new hurdles due to these technological features and advancements. Your software development teams may struggle without a thorough awareness of these patterns, affecting development efforts, timeliness, and quality.
However, your teams might be well prepared by looking at the most notable trends. Let’s investigate the hottest trends in automotive software development.
1. High-Tech Connectivity
Automotive electronics now come equipped with advanced connections as standard. Nowadays, motorists want quick access to applications, wifi connectivity, and musical instruments. As a result, many embedded devices installed in cars now support Bluetooth, cellular, and WiFi connectivity.
But these interconnected devices also give hackers a way to break into automobiles. Therefore, secure coding techniques should be used in automotive software development to protect a vehicle’s cybersecurity.
2. (AI) Artificial Intelligence
Artificial intelligence has become a buzzword in several businesses in recent years. AI is currently included in the software frameworks used in the car industry with the goal of improving comfort, safety, and overall performance. Deep Learning and contextual artificial intelligence are becoming more prominent in this setting.
Automotive companies ahead of the curve have already invested in this trend by using AI for simulation testing, image processing, and recognition to support better decision-making. The use of artificial intelligence in vehicles is anticipated to grow as the technology develops.
3. On-Demand Updates
Future software updates for electronic control units (ECUs) won’t require a trip to a car service facility. Modernized electronics have enabled ECUs to get updates or upgrades over the air (OTA).
Smartphones already have a lot of this OTA feature, and it’s about to become the norm for all platforms. Vehicle software updates should be as simple as updating a smartphone.
4. Data on faster mobility
To fully define the newest automotive models, “supercomputers on wheels” have emerged in recent years. These vehicles provide new chances and solutions thanks to novel sensors and software upgrades.
Cutting-edge sensor fusion technology enables intelligent handling of the data gathered by sensors in sophisticated vehicles. Vehicles may now communicate with other vehicles and IoT-connected gadgets thanks to improved network technologies like 5G.
5. Autonomous Vehicles
To make autonomous driving a reality, the automotive industry is making enormous progress. However, even when the technology is made available, it can take some time for drivers to get used to this new way of driving.
Assuring the public that self-driving cars are safe is a significant problem for automotive software development teams. To do this, SOTIF (ISO/PAS 21448) rules must be followed precisely. SOTIF offers guidelines on design, verification, and validation procedures to guarantee failure-free safety when self-driving cars share the road with regular cars.
6. Strengthened Safety
According to studies from the National Highway Traffic Safety Association, 94 percent of all car accidents worldwide result from human mistakes. Automotive software engineers are adding sophisticated technologies to make cars safer to combat this frightening figure.
Safety features like blind-spot monitoring, driver attention monitoring, and forward-collision warning use sensors in the car to keep track of their constantly changing environment. Because of this, it will be difficult for developers to make these safety features highly adaptable, dependable, and effective.
7. Artificial Reality
The automobile sector will undergo a transformation because of augmented reality (AR). It could significantly affect vehicle production, maintenance, and design. One of its primary features is making it easier for drivers to “see through” traffic, improving safety. AR can also increase confidence in and reliance on autonomous vehicles.
8. Adaptability of Humans
A manufacturer’s ability to connect with and truly understand people is the secret to their success in the digital car market. For developers, following the most recent market trends is insufficient. The demands and preferences of drivers must be understood by Original Equipment Manufacturers (OEMs), who must concentrate not just on innovation but also on how customers may react to changes.
Adding the newest features to cars alone won’t ensure success. According to automotive software developers, The user experience will improve if Artificial Intelligence is designed to match human behavior. Their distinctive feature should become their point of differentiation, making their automobiles stand out in the marketplace.
9. Moving forward
Using automation and integration, 5iQ, a top automotive software, equips your company to handle present and foreseeable demand for workshops for vehicle maintenance, repair, and service. It delivers greater efficiency and increased job productivity, resulting in greater business profitability thanks to modernized processes and crucial features.
The most recent automobile trends are also included in our customer garage management software. Real-time data is delivered through our Client and Technician Applications on our cloud-based platform 5iQ, guaranteeing seamless connectivity between your customers and your workshop wherever they are.