Automotive trends in 2025 impacting middle-market organisations RSM Global

These are the old and traditional methods that buyers use to contact dealers or check your products or information about the brand on search engines. Buyers check all the accessible platforms like your social media, website, videos, and more. Buyers would be shifting to a new modernized model and will directly deal with OEMs (original equipment manufacturers) and the dealer will play the role of an agent. By the second quarter of 2024, global cyber-attacks had surged, with organisations facing an average of 1,636 attacks per week—a 30% year-on-year increase.

Shift Toward Mobility Services

Almost 40% of all autonomous vehicles sold in 2025 are predicted to have L2 ADAS features. German OEMs already have a full roadmap from L2 to L3, with Mercedes Benz commercializing their DrivePilot system, and BMW is likely to follow soon. Emerging companies are developing advanced sensing technologies to collect extensive vehicle data and enable vehicles to better understand their surroundings. Blockchain technology is increasingly being utilized in the automotive industry for various applications.

• The chip shortage is one-factor holding cars back from getting to the dealership lots.
• Additionally, CARNIQ Technologies supports the automotive sector with threat analysis, cybersecurity management, and secure system development.
• These tools equip dealerships to handle inquiries efficiently, thus freeing time for other important tasks.
• In 2025, automakers will continue improving AI systems’ reliability, reducing the likelihood of accidents, and enabling safer autonomous driving experiences.
• These vehicles reduce emissions and feature innovative designs for modern commuters.
• Therefore, these were the five trends transforming the automotive industry this year and beyond.
• The U.S. National Highway Traffic Safety Administration (NHTSA) plans to require automatic emergency braking (AEB) systems in all new light-duty vehicles by 2026.

North America bore the brunt, accounting for 58% of publicly extorted ransomware victims. Manufacturing was not spared either, representing 29% of global ransomware targets, an alarming 56% rise over the previous year. Explore the most important trade fairs and conferences to boost your business success.

Increasing production of digital vehicles

These sensors measure distances, identify obstructions, and capture crucial traffic and road condition data. When paired with high-resolution cameras, these tools allow self-driving cars to identify objects, lane markers, and even pedestrians with unprecedented precision. While full autonomy is still on the horizon, advanced driver assistance systems (ADAS) are already transforming how we drive. In 2025, the focus will be enhancing ADAS features, such as adaptive cruise control, lane-keeping assistance, automatic emergency braking, and more.

Methodology: How We Created the Automotive Trend Report

The growing shared mobility trend also looms as more people are using shared transportation methods instead of owning cars. GenAI offers potential for advanced applications like predictive maintenance, where AI could assist in analyzing vehicle data and forecast potential failures before they occur. This would mark a critical shift toward an era of personalized vehicle recommendations and optimized repair services. By addressing issues proactively, manufacturers and service providers can further reduce breakdowns, enhance vehicle reliability, and improve overall customer satisfaction.

Innovation Map outlines Top 10 Automotive Trends & 20 Promising Startups

Its image-signal processor manages approximately 1 billion pixels per second from high dynamic range (HDR) sensor inputs. The system combines this data with inputs from multiple cameras and sensors to enable AI-driven perception and decision-making in near-real-time driving scenarios. Additionally, the startup offers plug-and-play solutions that simplify deployment in safety-critical applications such as EV fast charging and sensor integration.

General Intelligence builds Self-Driving Intelligence Software

• However, with the cessation of certain models, there are concerns about a potential production dip in 2024.
• The demand for sustainable and eco-friendly transportation, like electric luxury vehicles, also drives market growth.
• MaaS is set to become a key focus for the automotive industry in 2025 as companies look to diversify their business models and create new revenue streams.
• The future trends in the automobile industry predict a roller-coaster ride for players.
• Also, the EV market is projected to reach USD 6.16 trillion by 2035 at a CAGR of 25.32%.
• This article offers an inside look at the facility and Xiaomi’s ambitious plans in the automotive sector.
• Manufacturing was not spared either, representing 29% of global ransomware targets, an alarming 56% rise over the previous year.

The startup’s technology allows these pods to adapt across industries, enhancing efficiency and safety in transporting people and goods. Singaporean startup EVIE Autonomous designs electric, autonomous shuttles for last-mile delivery, passenger transport, agriculture, and cargo movement. Its product range includes an electric modular chassis, the standard autonomous shuttle pod, and pods for other applications.

Companies like Toyota and Hyundai are investing in hydrogen fuel cell technology. By 2025, we could see a broader adoption of fuel cell vehicles, especially in regions like Europe and Asia, where hydrogen infrastructure is beginning to grow. Environmental consciousness is driving the automotive industry toward more sustainable and eco-friendly solutions. Manufacturers are prioritizing robust security measures to protect sensitive consumer data and prevent malicious interference.

LiDAR provides high-resolution 3D mapping that allows vehicles to detect road geometry, obstacles, and pedestrians with centimeter-level accuracy. Also, radar ensures long-range detection of moving objects in all weather conditions, which is critical for adaptive cruise control and highway safety. US-based startup NuNami designs automotive semiconductors that provide reliable connectivity and safety-critical interfaces. Its modules integrate high-voltage isolation, digital error correction, and built-in self-testing to ensure secure data transfer and fault-tolerant operation in automotive systems. They also incorporate floating-point units that improve computational accuracy and performance. The startup provides single-chip motor control solutions that integrate RISC-V processor cores with programmable MOSFET drivers, FD-CAN and LIN interfaces, and dedicated PWM modules.

Q) What are the new trends in the automotive industry?

These units support CCS2 and CHAdeMO standards, ensuring broad adaptability across EV models. For example, Qualcomm released reports and white papers highlighting C-V2X as a critical capability for intelligent transportation systems. They also emphasize that regulatory support and infrastructure readiness are essential for large-scale deployment. BMW’s Neue Klasse illustrates this shift with four superbrains that reduce wiring by 600 meters and reduce vehicle weight. This centralization allows faster product cycles, OTA updates, and cross-domain features.

This transition offers shorter lead times, reduced tariff exposure, and a stronger crisis response. It re-engineers proven EV technology and applies it to Land Rover Defenders, Range Rover Classics, and Series models from 1949 to 2016. It does so to preserve their heritage design and deliver zero-emission performance. The startup employs the Perceived Quality Index to eliminate engineering bias by translating customer insights into measurable quality improvements. Cost savings also play a role, as recycled aluminum or bioplastics often return their investment in just over a year. Investors support companies with strong sustainability commitments, channeling funding toward greener production.

Nissans to Look For at Tokyo Auto Salon

For example, Mercedes-Benz is using Chat-GPT for intelligent virtual assistants within its vehicles. 94 percent of global automakers are using ARM-based technology for automotive applications, alongside the top 15 automotive semiconductor suppliers in the world adopting ARM technologies in their silicon. The automotive industry is being altered by the integration of Artificial Intelligence (AI), which is powering a new wave of smarter and more personalized innovations.

From enhancing in-vehicle safety solutions to enabling semi-autonomous driving features, AI is redefining innovations in vehicle functionality and unprecedentedly shaping the driving experience. US-based startup FlxTran develops a new transportation system using self-driving vehicles on abandoned railroad tracks to provide fast regional transport to connect smaller communities. The system uses an app to schedule rides on autonomous vehicles, cutting down trip times compared to the available commuting options. FlxTran’s approach improves connectivity and access to opportunities beyond major cities. Moreover, V2X communication systems allow vehicles to interact with each other and infrastructure, improving traffic flow and reducing accidents. These innovations collectively propel the industry towards safer, more efficient transportation.

Digital Twins and Simulation technologies take centre-stage

Car companies plan to integrate powertrain components in the next five to ten years by combining onboard chargers with batteries. Tesla already employs single inverter housings across its models, offering efficient integration of power electronics. This shift is driven by the growing need for more efficient power management in electric vehicles, resulting in smarter and more streamlined EV designs. 2025 will witness the automotive industry transitioning from Level 2 autonomy to Levels 2.5 and 3, representing a substantial evolution in automotive technology and enhancing vehicle automation and safety.

Why the EV Boom Hasn’t Happened

Moreover, redundancy across sensor types improves resilience in poor weather or low visibility. Waymo highlights this in its robotaxi fleet, which processes multimodal data to complete over 250K paid rides weekly with high reliability. Tesla’s Full Self-Driving Computer processes high-rate image input, handling camera streams of up to approximately 2.5 billion pixels per second through its camera serial interface.

🔌 Trend 1: The Electric Revolution Accelerates – EVs Taking Charge

This leaves the vast majority of companies concerned with their supply and wanting for more. With 2024 now firmly in the rearview mirror, let us dive into how those trends have developed into 2025 and what that means for middle-market organisations for the year ahead. In addition, it offers insurance-approved vehicle tracking systems with Thatcham S5 and S7 certification to meet insurer requirements and offers nationwide installation with priority police response.

Wireless and ultra-fast charging stations are also emerging as promising solutions to ease the transition to EVs further. Wireless charging could eliminate the need for physical connectors, offering a more seamless user experience. Digital twins—virtual replicas of physical systems—are gaining traction, enabling manufacturers to simulate scenarios and predict outcomes in real-time.

• Michelin’s development of tyres composed of 45% sustainable materials is a noteworthy example of how companies are rethinking material usage to minimise their environmental footprint.
• The cost of new cars remains at an all-time high, and with higher interest rates, consumers are likely either to wait for rates to decrease or to turn to the used car market.
• Market leaders are adjusting their strategies to align with current trends, further emphasizing the shift towards EV-only vehicles.
• European manufacturers are leading the charge with plans for affordable EV models, such as Citroën and Renault.
• The startup emphasizes comfort with electric doors, extended safety features, and panoramic views from all seats.
• Belgian startup Apache Automotive develops the APH-01, a T3 prototype for extreme terrain.

By 2030, automotive industry trends 2030 will witness a significant shift towards electric and autonomous vehicles, driving sustainable growth in the car market. The infrastructure for EVs is expected to become more widespread and advanced, supporting the increasing number of electric vehicles on the road. Additionally, autonomous driving technology is set to dominate the industry, creating a safer and more efficient transportation system.

Artificial intelligence (AI), the Internet of Things (IoT), blockchain, and advanced semiconductors allow autonomous driving, predictive maintenance, and secure connectivity. These technologies enhance safety, efficiency, and user experience across vehicles. 2025 is no exception—automotive manufacturers are expected to continue implementing more and more advanced safety features in their vehicles.

Also, automotive Ethernet and time-sensitive networking (TSN) provide deterministic in-vehicle data highways that keep safety-critical communication reliable. In addition, SWYTCHD includes access to premium electric scooters and cars such as the Ola S1 Pro, Ather 450X, TVS iQube, and Nexon EV. This approach enhances road efficiency and reduces fuel consumption, thereby lowering emissions. Regulations such as Europe’s General Safety Regulation 2 (GSR2), US mandates for automatic emergency braking, and China’s target of 70% Level 2-3 adoption by 2025 compel automakers to improve deployment. US-based startup TeraDAR designs its 4D imaging sensor that enhances sensor fusion by offering the Terahertz wavelength for vehicle perception.

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For example, Valeo, with its SCALA LiDAR, which scans the surroundings 25 times per second at ranges beyond 200 meters. Further, high-speed automotive Ethernet, 5G networks, and V2X communication extend a car’s perception beyond its line of sight. Gallium nitride (GaN) chips enable high-frequency switching, compact designs, and fast charging. Transparency rules such as the EU’s Corporate Sustainability Due Diligence Directive and the US Uyghur Forced Labor Act add pressure for stricter supplier oversight.

Industry 4.0 and Digitalization in Manufacturing

• This number is expected to have risen in 2020 as dealers everywhere turned to digital channels.
• These budget-friendly models aim to stimulate adoption following a dip in EV sales.
• Therefore, websites must be easily readable and accessible on mobile devices, with clear calls to action.
• Henkel is using digital simulation tools to co-develop EV battery designs with automotive partners.

They are discussing the prospect of AI for driving eco conscious buyers use VIN checks systems, the implications of some regulatory changes for automotive innovation, and the potentials of renewable sources for energy for the automobiles. Blockchain secures supply chains and in-car data, and extended reality (XR) advances design, testing, and training. Additive manufacturing shortens prototyping cycles, and IoT-driven analytics improve predictive maintenance. Changing consumer preferences, cost efficiency, technological progress, and sustainability targets drive this innovation. A Deloitte UK study found that 52% of all consumers show no interest in car subscription models; interest is higher among younger people (age 18-34). These all-inclusive options reduce the financial burdens of ownership, especially for urban users.

Solid-state batteries increase energy density, shorten charging times, and give EVs longer ranges and greater convenience. For example, Toyota plans a commercial rollout by 2027 to bring solid-state battery EVs into mass production. Moreover, automakers reduce tailpipe emissions, cities improve air quality, and governments reduce fossil fuel dependence.

This ensures precise planning, reduces downtime, and enhances efficiency in assembly operations. This decision also highlights a broader trend toward diversification in battery production hubs. With the Middle East emerging as a significant player in the EV supply chain, manufacturers must adapt their strategies to seize these new opportunities.

🔒 Data Privacy Concerns and Ethical Use of Vehicle Data

• The startup also offers Leap EasyTrack, a vehicle tracking solution that allows for quick and easy self-installation, making it simple to transfer between vehicles without downtime.
• According to a study completed by INRIX Transportation, Honolulu, New Orleans, and Nashville are the three US cities that stand to gain the most from micromobility vehicles.
• Supplemented by the categorisation of our experts, a clear picture emerges of where the industry stands – and where it should develop in order to remain fit for the future.
• Brazil is leading the way by a large margin, followed by Mexico, Costa Rica, Colombia and Chile, respectively.
• This is further fueled by increasing awareness of convenience and supported by rising digital literacy, internet accessibility, urbanization, and disposable income levels.
• Singaporean startup EVIE Autonomous designs electric, autonomous shuttles for last-mile delivery, passenger transport, agriculture, and cargo movement.

While some regions already allow limited AV testing and deployment, 2025 will likely see a more transparent legal framework surrounding autonomous driving technology. This regulatory clarity will pave the way for broader AV adoption in cities, particularly in controlled environments like urban areas or designated autonomous vehicle lanes. As autonomous vehicles become more mainstream, governments and regulatory bodies will need to create new laws to ensure their safe deployment.

The idea behind a circular economy is to create a closed-loop system where materials are reused, refurbished, and recycled rather than disposed of. In 2025, many automakers will focus on creating vehicles that are easier to disassemble, repair, and recycle at the end of their lifecycle. This approach could significantly reduce waste and contribute to a more sustainable automotive industry. Leading companies such as Volkswagen, General Motors, and Volvo have committed to producing zero-emission vehicles and achieving carbon-neutral operations by mid-century. In line with this, automakers focus on sustainability in their manufacturing processes, energy sourcing, and material selection.