FRM 2025: Sector Report Automotive Industry KPMG in Germany

This tech shift is also accelerating the move toward software-defined vehicles and connected ecosystems. Trends span sustainable manufacturing, EV expansion, supply chain nearshoring, vehicle cybersecurity, automotive semiconductors, sensor fusion, autonomous driving, subscription models, SDVs, and V2X. They shift the industry toward electrification, digitalization, and connected mobility. Automotive industry trends refer to changes in patterns within the automotive sector that influence vehicle design, production, marketing, and usage.

Key Technology Trends in the Automotive Industry in 2025

After the pandemic, we developed a habit of shifting all requirements to online methods, and so do goes with the automobile industry. Our new generation which is called millennials or Genz researches everything online before the actual purchase. Consumer trends in the automotive industry reveal that short videos are more effective than text in converting leads into customers in the automotive industry.

Waymo’s Autonomous Cars: A Look at the Future of Transportation in Los Angeles

Digital platforms enable smooth access and allow users to book, swap, and unlock vehicles through mobile apps. For example, Hyundai partners with Revv in India to expand subscription offerings through a mobile-first platform. AI and ML processors support object recognition, path planning, and decision-making. For instance, Texas Instruments‘ AWR2544 radar achieves sensing beyond 200 meters. It uses AI-powered damage recognition, estimation, and work distribution to streamline repair processes.

MotionSafe enables AI-powered Automotive Cybersecurity

The software integrates a one-shot multitask network capable of performing 2D detection, semantic segmentation, and monocular depth estimation. It processes these tasks in real time at over 120 frames per second on consumer-grade graphics processing units (GPUs). Indian startup General Intelligence creates self-driving intelligence software that supports software-defined vehicles in adapting to diverse driving environments.

Automotive Semiconductors: Asia-Pacific Leads with 45% Global Share

The SDVs market is set to reach 7.6 million units in 2025 from 6.2 million units in 2024.
In 2024, the automotive industry experienced significant transformations, with advancements in electric vehicles (EVs), autonomous driving technologies, and shifts in global markets.
But, there are other various supply chain issues and factory closures that have led to low inventory, too.
They also support smart city initiatives by offering data for traffic management and logistics automation.
This has led to a shift away from traditional automotive infrastructure, which focused on powertrains, interiors, electrical systems, and safety systems.
This approach could significantly reduce waste and contribute to a more sustainable automotive industry.
Swedish startup Intended Future utilizes data-driven design benchmarking tools for the automotive industry.
In addition to enhancing energy efficiency, regenerative braking systems reduce greenhouse gas emissions by recovering energy during braking to support global efforts to meet stricter emission norms.
Shared mobility reduces individual car ownership, especially in urban areas, impacting vehicle sales volumes but increasing demand for fleet vehicles and mobility-as-a-service (MaaS) platforms.

Moreover, automakers and tier-suppliers are increasingly focusing on sustainable steel production to lower emissions across their supply chains. Further, Jaguar Land Rover is pioneering a closed-loop recycling process for seat foam, turning waste from old vehicles into high-quality material for new ones. This innovative, circular production approach supports sustainability goals by reducing landfill waste and advancing circular economy practices in automotive manufacturing. The UK’s automotive sector offers a compelling illustration of the progress being made.

Evolving Video Marketing Solutions

Connected cars enable real-time navigation updates, remote diagnostics, and seamless smartphone integration. They also support smart city initiatives by offering data for traffic management and logistics automation. Established in 2007, SG Analytics is a Great Place to Work® (GPTW) certified company with a team of over 1200 employees and a presence across the U.S.A., the UK, Switzerland, Poland, and India. Despite this, 2025 is guaranteed to be pivotal, with potential breakthroughs in autonomous driving technology along with a stronger push toward hybridization and sustainability. Simultaneously, many automakers embrace vertical integration strategies, taking control of the software stack from chip development to application integration.

Also, EV charging infrastructure requires strong cybersecurity, as attackers target charging stations for data theft or service disruption. The startup also operates PartSmart, a real-time parts ordering platform that connects insurers, workshops, fleet owners, and suppliers. The platform enables visibility across the entire claims cycle and supports both OEM and aftermarket sourcing.

⚖️ Regulatory Hurdles and Ethical Dilemmas in Autonomous Tech

The road to 2025 is set to bring even more dynamic changes, with global collaborations, technological breakthroughs, and bold strategies defining the future of manufacturing. This article profiles the top five Chinese automotive original equipment manufacturers (OEMs) leading the industry in sales volume and market capitalization. The Auto Industry Trends & Startups outlined in this report only scratch the surface of trends that we identified during our data-driven innovation & startup scouting process. Norwegian startup Chargerly designs vehicle-to-building (V2B) solutions that integrate EVs with building energy systems to improve resilience, efficiency, and sustainability. Automotive drivers now expect vehicles to behave like smartphones, gaining features through over-the-air (OTA) updates.

What is the future of the automotive industry?

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. Moreover, redundancy across sensor types improves resilience in poor weather or low visibility.

Despite these challenges, global new-vehicle sales are projected to remain flat, with new-car sales increasing. Sales of electric vehicles (EVs) are expected to grow, although governments may restructure their incentive programs. The automotive industry is transforming, fueled by evolving consumer demands, rapid technological advancements, and the urgency of addressing climate change. In 2025, the future of mobility will take a new shape in ways that promise smarter, more efficient, and more sustainable vehicles.

The global ADAS market is projected to reach USD 36.6 billion by 2025, with a CAGR of 10.8% from 2025 to 2037. Companies like Nvidia innovate in AI-powered chips for AVs, partnering with automakers like Toyota, Tesla, and Aurora Innovation to enhance autonomous capabilities. North America led the AV market in 2024 with over 40% revenue share, while Asia-Pacific is the fastest-growing region, with an expected CAGR of 35% from 2024 to 2033. Level 3 (conditional automation) and Level 4 (high automation) systems are gaining traction, with broader availability expected in Europe and North America by 2025. Tangram Vision allows perception teams to focus on product-specific check American cars with EpicVIN features by handling complex sensor tasks and accelerating development and deployment processes.

Moreover, Asia-Pacific is the fastest-growing region, with a projected CAGR of 14.8%.
They improve energy efficiency through wide-bandgap devices that extend EV range and minimize charging times.
Advanced Driver Assistance Systems (ADAS) and autonomous driving technologies continue to evolve, bringing unprecedented changes to vehicle safety and functionality.
Automakers will continue to incorporate these systems into even more affordable models, making safety technologies more accessible to a broader range of consumers.
Cost savings also play a role, as recycled aluminum or bioplastics often return their investment in just over a year.
Solid-state batteries increase energy density, shorten charging times, and give EVs longer ranges and greater convenience.

Optimizing mobile experiences & personalization

The startup uses automotive sensors and compute platforms to offer a scalable solution for cars to enable large-scale fleet learning. German startup SafeAD develops a vision-first perception and scene-understanding pipeline for autonomous driving. The charging infrastructure is more vulnerable as a result of the quick uptake of EVs, which hackers may attack to obtain customer information or interfere with services. The need for high-performance processors is also growing as a result of software-defined vehicles (SDVs), which rely on semiconductors for ongoing updates and subscription-based services.

Apache Automotive develops Hybrid Cars

Canadian startup Aadhya Navik designs software solutions that improve safety, comfort, and traffic efficiency in autonomous driving.
While the past two years have been a challenge for most auto manufacturers, high-end luxury brands have experienced unexpected success.
As electric vehicles become mainstream, digitalization reshapes production, and mobility services redefine car ownership, the industry is set to transform how vehicles are manufactured and used.
The technology also draws energy during off-peak hours to lower costs and stabilize the grid.
5G facilitates faster data transmission, higher network and bandwidth capacity as well as improves security (e.g., protection from cyberattacks).
Another instance is that of Michelin, which made a road-approved car tire with 45% sustainable materials.
These innovations collectively propel the industry towards safer, more efficient transportation.

While fully autonomous vehicles (AVs) are not yet standard on the roads, significant advancements are being made in 2025 toward realizing the vision of driverless cars. Companies like Tesla, Waymo, and others are working tirelessly to refine the technology, which includes machine learning, computer vision, and lidar (light detection and ranging) systems. The upcoming automotive industry trends refer to evolving changes in patterns within the sector that influence vehicle design, production, marketing, and usage. Technological advancements, along with changing consumer preferences, regulatory changes, and global economic conditions, are driving these trends.

The solution also serves as the base for additional services such as micropayments and micro-mobility.
Its suite of platforms and solutions allows automotive OEMs to accelerate testing data analysis and enhance automation and team collaboration.
Mercedes-Benz’s Drive Pilot showcases this with over 35 sensors, including LiDAR and radar, working together to achieve certified Level 3 autonomy.
In the US, the AV market is expected to expand, rising from USD 22.6 billion in 2024 to USD 222.8 billion by 2033, with a CAGR of 28.92% starting in 2025.
The scale established by these six stages is essential for comprehending and characterizing self-driving technologies, which span from complete human driving to complete vehicle autonomy.
The demand for sustainable and eco-friendly transportation, like electric luxury vehicles, also drives market growth.

As of the end of 2023, over 1 billion miles have been driven with Tesla Autopilot enables. As a result of this partnership, Ford is expected to launch its own self-driving car business. The standard ranges from SAE Level 0 (no automation) to SAE Level 5 (full automation). The Society of Automotive Engineers (SAE) “Levels of Driving Automation” standard shows how stages of vehicle automation progress. In China, it was even reported that lithium-ion battery pack prices fell below $100/kWh for the first time.

Motoreto simplifies Automobile Distribution for Used Vehicles

It is expected to expand from $95.14 billion in 2024 to $386.82 billion by 2032, reflecting a robust compound annual growth rate (CAGR) of 19.2% over the forecast period according to some figures.
Buyers check all the accessible platforms like your social media, website, videos, and more.
With established automakers facing nimble startups in the mobility race, building new businesses should be a priority for auto executives.
Additionally, it uses the Future Trends Index to identify and prioritize relevant design directions across different markets.
Today, you can hear about renewable energy from every corner of the Internet, and it’s no wonder why.

This article offers an inside look at the facility and Xiaomi’s ambitious plans in the automotive sector. Meanwhile, we are seeing the economic case for sustainable materials strengthen as manufacturers realise operational efficiency gains and reduce their long-term costs. Cross-industry collaboration is emerging as a key enabler, with automotive companies forming partnerships to develop and implement innovative material solutions.

In October 2022, the delivery lead time for chips decreased by six days to 25.5 weeks, the most significant drop since 2016. Approximately 70 percent of industrial companies report faster chip supply, possibly due to weakened consumer spending and demand. These constraints are expected to persist into 2025, as semiconductor production has exceeded full production-rate utilization since 2019, with recent rates surpassing 95%.

In the first half of 2023, electrified vehicle production surged by 70%, highlighting the rapid pace of investment in EV production capabilities, and continues to grow. As battery technologies evolve, the future promises breakthroughs in recyclability and energy efficiency. Innovations like solid-state batteries are set to revolutionise manufacturing priorities and reshape the EV supply chain.

Bentley Supersports Vows to Be a Pure Driver’s Car

Following these trends helps greater penetration in the emerging market, like the growing adoption of electric vehicles in China and India. Following these trends will equip enterprises with greater penetration in the emerging market, such as the growing adoption of EVs across China and India. A combination of technological advancements, sustainability initiatives, and new business models will shape the automotive industry in 2025. The rise of electric vehicles, autonomous driving, and innovative mobility solutions will redefine how we think about transportation. Meanwhile, environmental concerns will drive automakers to focus on sustainable manufacturing processes, alternative fuels, and circular economy principles. In 2024, the automotive industry is increasingly integrating cutting-edge technologies into its operations.

The automotive industry is highly dynamic, and these trends are subject to change over time. Monitoring and understanding these trends are critical for automakers and other stakeholders to stay ahead of their competitors. The US-based startup Apex AI enables automotive companies to implement complex AI solutions. Apex.OS runs on automotive electronic control units (ECUs) and offers robust, reliable, and secure APIs to develop autonomous mobility solutions. ApexAutonomy offers modules to build 3D perception, localization, and control to enable autonomous vehicles. Lastly, MARV.Automotive is a configurable and extensible data management platform that reliably transmits data from the vehicle to the cloud.

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.

Market leaders are adjusting their strategies to align with current trends, further emphasizing the shift towards EV-only vehicles. Just days ago, Jaguar unveiled their new concept car, the Jaguar Type 00, a fully electric, futuristic vehicle that marks a departure from every other car the brand has produced. This transformation is also expected to help revive sluggish vehicle sales by 2030. The next decade will undoubtedly see dramatic changes in how we drive, how we share vehicles, and how we engage with the technology that powers our transportation systems. Self-driving vehicles rely on artificial intelligence (AI) and machine learning algorithms to process real-time data from cameras, sensors, and radars.