FRM 2025: Sector Report Automotive Industry KPMG in Germany

There are already over 30 million vehicles on the road that meet the Level 1 standard. Some countries (and California) have even committed to phasing out all new sales of combustion engine vehicles over the next few decades. Even with this rapid growth, EV’s share of cars on the road is expected to remain at just 8% by 2030. Sales for BEV and PHEV in Europe increased by 137% in 2020 compared with the previous year (despite a 20% year-over-year decrease in the total car market). Espite growing inventory levels, new vehicle prices continue to rise, reaching a record average transaction price of $49,507 in December 2022.

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. Automotive drivers now expect vehicles to behave like smartphones, gaining features through over-the-air (OTA) updates. Regulations also support adoption, as safety and emissions standards require continuous updates and smarter architectures. Indian startup SWYTCHD manages vehicle subscription services that focus on electric two-wheelers and cars. This enables an all-inclusive model that replaces ownership with monthly flexibility.

ARK MOTORS builds Electric Vehicles

Due to these advancements, the global automotive IoT market is anticipated to reach USD 56 billion by 2026 at a CAGR of 19% during the period from 2021 to 2026. It also uses regenerative braking to capture and store energy in the car’s battery. The APH-01 incorporates flax fiber in its body shell, which reduces weight, increases impact resistance, and improves vibration damping. 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. The automotive regenerative braking market is expected to reach USD 13.83 billion by 2029, growing at a CAGR of 15.8%. Keyvault raised USD 1 million in January 2025 to introduce smartphone-enabled car keys in the US, following the trend of incorporating smart device features into automobiles.

CARNIQ Technologies specializes in Car Security & Compliance

• Additionally, Motoreto streamlines operations with features such as multi-channel publishing, branded digital tools, and integrated logistics and financing.
• However, the landscape is proving difficult to steady with an intricate maze of regulations that differ by country or region and lack a unified benchmarking process for sustainability.
• 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.
• These over-the-air updates are becoming essential for ensuring vehicle reliability, safety and security, and are opening new revenue streams for manufacturers.
• Meanwhile, Toyota is reported to be cautiously evaluating the technology, balancing its benefits against potential risks.
• The AI systems also learn about the driver’s preferences in music and temperature, making the driving experiences as enjoyable as possible.
• Software-defined vehicle (SDV) architectures are revolutionising automotive technology, with electric models often leading this digital transformation.
• OEMs are investing billions in EV platforms, battery R&D, and charging infrastructure partnerships.

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. Its image-signal processor manages approximately 1 billion pixels per second from high dynamic range (HDR) sensor inputs.

Shared mobility

• 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.
• To address these threats, proactive cyber security is a must for automakers and their partners across the value chain.
• The strides made in EV battery innovation, renewable energy adoption, and sustainability are paving the way for a more resilient and forward-thinking industry.
• Expect more robotaxi pilots, fleet autonomy, and advanced safety features integrated into mainstream cars.
• The auto industry is one of the largest and most influential markets on the planet.
• New vehicle inventory levels till December 2022 were 52% below December 2019 but 56% above January 2022.
• By focusing on digital transformation, the company aims to integrate predictive analytics and process automation, creating production systems that are adaptable and resilient.
• The chip shortage is one-factor holding cars back from getting to the dealership lots.

The recently proposed 25% tariffs on imports from Mexico and Canada, while temporarily delayed, may also have a drastic impact on the global automotive supply chain. 2025 is shaping up to be an interesting year for automotive with regards to global shifts in the market with a mixed bag of potential harmony and disruption. This agreement is expected to drastically enhance automotive trade between these regions.

Other Technology Trends in Automotive Industry

Automakers need to redesign their vehicles or should look for other chip options available. The autonomous vehicle (AV) market is on an impressive growth trajectory, expected to surge from a market value of $1,921.1 billion in 2023 to a staggering $13,632.4 billion by 2030, with a CAGR of 32.3%. A major driver of this growth is the increasing focus on commercial applications, such as logistics and ride-sharing services. Advances in AI, sensor technology, and connectivity are also playing a key role in improving the safety and adoption of autonomous vehicles. The global automotive semiconductor market is expected to grow at a rate of 8.1% between 2023 and 2030.

a. Battery Technology and Range Improvements

By 2025, nearly all new vehicles are expected to feature advanced connectivity options, integrating aspects of digital life directly into driving experiences. Such advancements align with global trends favoring autonomous fleet deployment in urban areas, positioning automakers to meet future demand for self-driving capabilities. While there are a lot of opportunities ahead for the industry, there will be plenty of challenges like cost pressures, growing competition, and globalization.

More automakers collaborating with tech companies

This kind of adoption should lead to much-improved 5G infrastructure, which could support vehicle connectivity. And with about two-thirds of people saying they would rather drive than ride in an autonomous car, much of the near-term focus is on trucking. Large automakers like Tesla, Alphabet, Ford, GM, and Volvo have all entered the autonomous vehicle comfort and history for long drives space. The AV industry itself is just in its infancy, as there are only 17,000 self-driving cars on the road in the US today.

The ongoing global semiconductor shortage continues to cast a shadow over manufacturing progress, particularly for industries such as automotive and electronics. While efforts are underway from many different automakers to expand fabrication capacity, lead times for chip production remain long with little sign of a solution in the near future. However, regulatory hurdles and the complexity of navigating diverse driving environments remain significant barriers.

• Startups are developing big data solutions to help manufacturers and related industries streamline operations and maximize profits.
• Toyota intends to power its battery plant in North Carolina with renewable energy by 2025.
• This shift supports mobility-as-a-service (MaaS), reducing the number of idle vehicles and addressing urban transportation needs without adding more cars.
• Moreover, car connectivity transforms the driving experience by integrating with real-time systems and smart gadgets.
• AI, ML, and computing allow vehicles to process data points per second with split-second precision.
• Unless otherwise noted, this page’s content was written by either an employee or a paid contractor of Semrush Inc.

How is technology improving the auto industry?

The convergence of AI-driven production systems, the scaling of EV capabilities, and the adoption of sustainable practices will reshape the competitive landscape. Manufacturers that successfully integrate these elements into their strategies will not only navigate the challenges of today but also position themselves as leaders in the future of mobility. Artificial Intelligence and Smart Factory technologies are no longer aspirational but integral to modern automotive manufacturing. Stellantis, for instance, has demonstrated how AI can transform production efficiency. By incorporating AI tools, the company has reduced production costs while accelerating vehicle launch timelines.

What is the future of the automotive industry?

The USMCA requires 75% of motor industry components to be produced in North America. And the US Inflation Reduction Act ties USD 7500 EV subsidies to regional sourcing. Cost efficiency strengthens the case, with Mexico offering a 35% landed-cost edge over China in 2022. And it is projected to widen to 45% by 2030 due to lower labor and freight costs. Also, advanced composites and recycled inputs reduce reliance on virgin resources.

Automotive suppliers are renegotiating their vendor/supplier contracts to align with these new predictions. What lies ahead is not just a continuation of trends but the potential for transformation that pushes the boundaries of how we move, connect, and thrive. The shortages have forced manufacturers to delay product launches and reduce outputs, among other issues. Asia, home to key production hubs, remains at the epicentre of attempts to address this crisis, with nations like Taiwan investing heavily in scaling chip production. Additionally, Europe and the U.S. have sought to bolster their chip and semiconductor production with the ‘European Chips Act’ and the ‘CHIPS and Science Act’, respectively.

It also provides lane-change algorithms that ensure comfortable lateral movement and personalized passenger comfort profiles refined with each journey. The World Health Organization links 1.35 million annual deaths to road accidents, creating urgency for autonomy. AI, ML, and computing allow vehicles to process data points per second with split-second precision. Further, Chipv creates power control chips equipped with triple RISC-V cores, extensive on-chip memory, and robust hardware security modules. In the US, the CHIPS and Science Act allocates USD 52.7 billion in funding and offers a 25% investment tax credit. It provides grants, loans, and incentives to expand domestic fabs, semiconductor R&D, and the broader supply chain.

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. 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.

For instance, India’s eBus Sewa scheme deploys 10K electric buses to curb urban pollution. Further, it establishes local manufacturing facilities, which reduce supply chain dependency and generate employment and stimulate economic growth. Read on to explore each trend in depth – uncover key drivers, current market stats, cutting-edge innovations, and the 20 leading innovators shaping the future.

Challenges Facing EV Manufacturers

• By 2025, nearly all new vehicles are expected to feature advanced connectivity options, integrating aspects of digital life directly into driving experiences.
• Examples are bikes, scooters, and mopeds, as well as the electric versions of these vehicles.
• It then adjusts driving decisions to minimize motion sickness and maintain smooth operation.
• With a CAGR of 25.5% from 2025 to 2037, the global sensor fusion market is expected to reach USD 7.91 billion by 2025.
• With its focus on next-generation cells and expanded production capacity, Tesla is paving the way for a more efficient and sustainable global EV landscape.
• Technological advancements, along with changing consumer preferences, regulatory changes, and global economic conditions, are driving these trends.
• Data suggests a decline in car sales across most categories, particularly traditional fuel vehicles like petrol and diesel, which saw significant drops in market share and registrations.

European manufacturers are leading the charge with plans for affordable EV models, such as Citroën and Renault. These budget-friendly models aim to stimulate adoption following a dip in EV sales. Consumers research their preferred car on their mobile phones, looking for the best options, offers, and dealerships. Therefore, websites need to be easily readable and accessible across mobile devices, with clear calls to action. Brands need to provide specific offers by analyzing their customer’s needs, preferences, and behavior.

The high prices and increasing interest rates are causing sales to decline for dealers and automakers nationwide. Prices are expected to decrease as supply-chain issues improve, and sales continue to soften. However, interest rates may remain high as the Federal Reserve works to lower inflation. In October 2022, the delivery lead time for chips decreased by six days to 25.5 weeks, the most significant drop since 2016.

In some cases, car dealerships are charging huge markups on the inventory they do have. Even six months into 2022, vehicle manufacturers haven’t been able to correct the issue of low inventory. Reports from 2022 showed vehicle inventory was stagnant, sitting between 1 million and 1.1 million vehicles, for the first six months of the year. Sales of passenger cars were down 25% in the first half of 2022 compared to the same period in 2021.

To address these threats, proactive cyber security is a must for automakers and their partners across the value chain. Robust IoT (Internet of Things) security, regular software updates, and well-prepared incident response plans are the essential building blocks of a strong cyber security strategy. This move highlights the industry’s broader trend of building resilient supply chains to safeguard against geopolitical and economic uncertainties. Global supply chain disruptions over recent years have prompted manufacturers to rethink strategies.

Self-driving vehicles are becoming increasingly common and will continue to do so in 2025. Research has indicated that autonomous cars are safer, reduce downtime, expand the last-mile delivery scope, and improve fuel efficiency by 10%. Additionally, several trucking companies have tested self-driving technology, and it will soon become commonplace, with fleets of autonomous trucks sharing the road with traditional vehicles. The market share with EVs specifically is even greater, manufacturing 58% of the world’s electric vehicles. While China’s dominance in EV and automotive production at large is not anything new, the movements being made in emerging economies outside of China are.

For instance, Texas Instruments‘ AWR2544 radar achieves sensing beyond 200 meters. Gallium nitride (GaN) chips enable high-frequency switching, compact designs, and fast charging. 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. Digital replicas and simulations allow manufacturers to test efficiency improvements before implementation. For example, BMW’s San Luis Potosí facility applies digital replicas to reconfigure layouts and minimize waste.

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From electrification to IoT connectivity, these shifts are changing the way cars are manufactured, sold, repaired, and driven. Shared micromobility vehicles are becoming a popular mode of transportation in cities where the pollution from cars and traffic congestion is particularly evident. Chip shortages have been causing myriad changes to trends that affect the automotive trends that are not all positive.

This will further usher the industry into a new era of smarter, more connected, and more efficient vehicles. The startup’s platform combines augmented reality (AR), smart camera, and surround-view monitoring to illuminate the route on turns, curves, slopes as well as complex junctions. This assists the drivers in keeping lanes, prevents collisions, and enables autonomous driving options.

Autonomous tech will likely be bundled with subscription services, reshaping mobility economics. From electric vehicles zipping past gas guzzlers to cars that update themselves like your smartphone, the industry is in the middle of a revolution. Did you know that EVs are projected to make up nearly 20% of global vehicle sales in 2026? That’s no longer a distant future — it’s happening now, and it’s transforming everything from manufacturing floors to your driveway. The current trends in the automotive industry seen in previous years will remain in 2025 and are likely to become automotive future trends. We hope this blog helps you understand the upcoming automotive industry trends in 2025.

Software-Defined Vehicles: Cars as the Ultimate Connected Devices

The chip shortage is one-factor holding cars back from getting to the dealership lots. But, there are other various supply chain issues and factory closures that have led to low inventory, too. After demand started coming back, there simply wasn’t an adequate supply of chips, and the auto industry has been feeling the effects ever since. The parts industry is benefiting from the ever-increasing average age of vehicles on the road. The two purportedly plan to begin manufacturing an autonomous Apple electric car as of 2024.

Automakers will continue to incorporate these systems into even more affordable models, making safety technologies more accessible to a broader range of consumers. By leveraging tech and sustainable practices, the automotive sector can meet the challenges of tomorrow while delivering exceptional value to consumers. As urban areas grow more congested, the focus is shifting from traditional car ownership to mobility-as-a-service (MaaS) models. Fleet-as-a-Service (FaaS) solutions, particularly autonomous fleets, are set to transform how people navigate cities. This digital transformation enhances scalability, a key driver in the competitive automotive sector.

• The World Health Organization links 1.35 million annual deaths to road accidents, creating urgency for autonomy.
• It highlights workforce trends, leading investors, and key technologies driving adoption across vehicles, batteries, charging, and software.
• However, the demand for parts is also being diminished by the increasing quality of newly manufactured vehicle parts.
• In 2025, automakers will continue improving AI systems’ reliability, reducing the likelihood of accidents, and enabling safer autonomous driving experiences.
• 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.
• 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.
• AI, automation, and an ‘electric-first’ mindset are impacting every industry, and automotive is no exception.

The platform allows autonomous vehicles to discover AVs, service providers, or clients around them. The vehicle-to-vehicle (V2V) communication is either on-blockchain, with smart contracts or off-blockchain using DAV’s protocols. The startup develops protocols for drone charging networks, drone flight planning, and open mobility. Big data and advanced analytics play a crucial role in decision-making throughout a vehicle’s lifecycle. Vehicle-generated data facilitates predictive maintenance, fleet management, and accident response. Additionally, customer data drives sales, optimizes supply chains and informs new vehicle designs.