Automotive trends in 2025 impacting middle-market organisations RSM Global

Quantum computing accelerates material discovery and crash simulation, and edge computing and 5G offer real-time responsiveness in vehicles. Moreover, the technology combines EV chargers, a DC bus, smart inverters, and an energy management platform. This coordinates power flows between vehicles, buildings, and distributed energy resources. Its bidirectional charging technology allows EV batteries to supply electricity to buildings during outages or peak demand. The technology also draws energy during off-peak hours to lower costs and stabilize the grid.

With customers becoming more demanding, rules and regulations are becoming stricter, and competition is stronger and faster. Many enterprises are moving ahead to create autonomous vehicles with all the multi-faceted benefits. To meet these new requirements and realize this long-term vision, approaches are required to push against the status quo.

Best of 2025 How Generative AI Is Transforming Industry

These systems aim to minimise human intervention, improve decision-making, and enhance overall efficiency, paving the way for smarter supply chain operations. However, the primary function of these cars is not just to entertain they can connect to other vehicles (V2V), pedestrians (V2P), infrastructure (V2I), and cloud (V2C). Lastly, there’s even a term “vehicle-to-everything” (V2X), which includes all types of vehicle communication.

The Ford Mustang GTD Is the Best Muscle Car Ever

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.

Ascent Labs builds Risk Management Platform

The global ADAS market is projected to reach USD 36.6 billion by 2025, with a CAGR of 10.8% from 2025 to 2037. Level 3 (conditional automation) and Level 4 (high automation) systems are gaining traction, with broader availability expected in Europe and North America by 2025. The AV market is projected to reach USD 1.73 trillion by 2033, growing at a CAGR of 31.85% from 2025 to 2033. Tangram Vision allows perception teams to focus on product-specific features by handling complex sensor tasks and accelerating development and deployment processes. The platform features customizable work product templates, detailed instructions, and comprehensive checklists for self-assessment. It also provides streamlined audit management, structured frameworks for continuous improvement, and intuitive escalation processes.

• Firstly, it accelerates the design and testing process through rapid prototyping.
• Indian startup Starkenn develops AI-powered ADAS to enhance vehicle safety and reduce road accidents.
• British startup Cube Intelligence develops a blockchain-based security platform for autonomous vehicles.
• The systems that come together to implement such technologies are sensor fusion, computer vision, and real-time decisions to enable the vehicle to take all complex traffic scenarios easily.
• 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.
• Australian startup V2Grid designs V2G technology that converts EVs into mobile energy resources for homes, businesses, and the national grid.
• As we look ahead to 2025, these trends highlight the challenges and opportunities that manufacturers face.
• The automotive industry is highly dynamic, and trends are subject to change over time.
• It eliminates mandates that favour EVs, emphasising consumer choice and opposing regulations that make gasoline-powered vehicles less accessible.

Distributed Additive Manufacturing enables Large Scale Sustainable Parts Production

The chip shortage is proving to be costly for the industry with many auto manufacturers shutting down plants due to low supply. The global automotive parts market has been steadily growing for the past twenty years. Increasing battery efficiency as well as EV charging infrastructure can speed up adoption. As climate change concerns intensify, automakers are increasingly pressured to reduce emissions, lower their environmental footprint, and embrace green technologies. Digital twins—virtual replicas of physical systems—are gaining traction, enabling manufacturers to simulate scenarios and predict outcomes in real-time. Predictive maintenance powered by AI minimizes machine failures, while IoT networks provide detailed insights into factory operations.

SWYTCHD offers EV Subscription

Labor costs are another factor in the rise of local sourcing, with countries such as Taiwan, Cambodia, and Laos providing a lower-cost labor alternative to China. Given the opportunity to significantly disrupt private transport and shape the future of the automotive industry, companies are expected to continue investing in autonomous vehicles in 2025. Without subsidies, demand for EVs on the consumer end could also drastically decrease as was recently seen in Germany after government incentives ended. This may also see American automakers finding more challenges in exporting vehicles to regions in which regulations are more stringent. At the same time, a limited EV infrastructure and uneven policy application dampen the pace of meaningful progress throughout the region. When it comes to the benefits of connected cars, it seems that drivers are more willing to allow for data collection, too.

• As we progress through 2025, these trends will continue to reshape the automotive landscape.
• Now, 94% of consumers check the manufacturer’s website for product information before purchasing a part.
• UK-based startup Distributed Additive Manufacturing (DAM) offers 3D printing services including design, building, and finishing of parts.
• This approach equips them to differentiate their offerings, with software being the key to creating compelling customer experiences.

Mobility

Continuous change detection triggers automatic cloud updates to ensure up-to-date navigation information. South Korean startup BOS Semiconductors builds Eagle-N, an AI accelerator for in-vehicle infotainment (IVI) and ADAS. It uses Tenstorrent’s Tensix NPU core to deliver up to 250 tera operations per second (TOPS) for efficient AI processing. The Global Startup Heat Map showcases the distribution of 6000+ exemplary startups and scaleups analyzed using the StartUs Insights Discovery Platform.

How is the rise of shared mobility changing the automotive industry?

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.

📱 The Digital Dealership Experience and Online Sales

Autonomous vehicles are reshaping mobility, from AI‑powered perception to intelligent infrastructure and generative simulation. This report explores how breakthrough technologies are accelerating the shift toward safer, smarter, and more sustainable transportation systems worldwide. The SAE, originally the Society of Automotive Engineers, has identified six levels of automation on the path to completely autonomous vehicles. 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.

EcoG builds an Electric Vehicle Charging Platform

Expected to produce batteries for up to 800,000 vehicles annually, the plant will be powered entirely by renewable energy, demonstrating a dual focus on production efficiency and sustainability. The SDVs market is set to reach 7.6 million units in 2025 from 6.2 million units in 2024. North America is commanding a 43% share as new-age OEMs focus on BEVs and software-driven architectures. Major technology providers are also solidifying their roles in key areas such as ADAS, electrical/electronic (E/E) architectures, and cloud computing solutions.

The main issue holding back the popularity of these vehicles is a lack of hydrogen fueling stations. The market for FCEVs is expected to grow at a remarkable CAGR of nearly 70%, through 2026. However, that number is smaller than it was in 2019 when more than 80% of people commuted by car. The Wall Street Journal reports that dealerships have been known to charge $40k above MSRP on luxury cars.

• OEMs seek alternative sources to improve sourcing flexibility and bring products to market faster.
• Chinese startup Move-X Autonomous Driving offers Level 4 autonomous driving through integrated vehicle platforms designed for commercial deployment.
• These systems aim to minimise human intervention, improve decision-making, and enhance overall efficiency, paving the way for smarter supply chain operations.
• The emergence of CASE (Connected, Autonomous, Shared, and Electrified) technologies is changing the industry like never before.
• While it’s true that at the end of 2023, there wasn’t an adequate supply of electric mobility hubs, the charging infrastructure in Europe has improved drastically.
• Additionally, it uses the Future Trends Index to identify and prioritize relevant design directions across different markets.
• This rise in digital advertising spending is being steered by the growing usage of social media.

Also, adoption rises quickly, with China reaching 50% EV penetration in 2024, and in India, over 18.8 lakh EVs are supported under FAME schemes till June 2025 by the government. Declining battery costs move EVs closer to price parity with combustion vehicles. Sales of the most expensive cars are predicted to drive the most market growth through 2031.

Whilst these acts have been active for some years now, the landscape has not changed drastically. Until these efforts bear fruit, the industry will need to focus on mitigating risks and prioritising demand effectively. Whilst the U.S. may be bucking it, there is certainly a global trend towards a more sustainability-forward manufacturing scene. However, as with all complex bodies of rulesets, differing rules and regulatory mandates across the globe make it easier for international automakers to fall foul of compliance.

Avvenire designs Light Electric Vehicles (LEVs)

However, it raises privacy and cybersecurity concerns that OEMs must address to maintain consumer trust. The connected car market is a battleground for tech giants and traditional automakers alike. Automotive industry trends refer to changes in patterns within the automotive sector that influence vehicle design, production, marketing, and usage. Technological advancements, changes in consumer preferences, regulatory changes, and global economic conditions drive these trends. The automotive industry is highly dynamic, and trends are subject to change over time. Monitoring and understanding these trends is crucial for automakers, suppliers, and other stakeholders to stay competitive.

• In Europe, the EU’s Chips Act aims to raise the bloc’s share of global chip production from under 10% to about 20% by 2030.
• This article offers an inside look at the facility and Xiaomi’s ambitious plans in the automotive sector.
• Blockchain technology is increasingly being utilized in the automotive industry for various applications.
• It combines a gasoline engine with an electric motor to enhance fuel efficiency and reduce emissions.
• Plug-in hybrid electric vehicle (PHEV) sales also hit a record high, indicating a robust consumer interest in electric mobility.
• In line with this, automakers focus on sustainability in their manufacturing processes, energy sourcing, and material selection.
• For EVs specifically, weight reduction translates directly into extended range and improved battery performance.

The number of connected cars worldwide will likely reach 400 million by 2025 up from 237 million in 2021. The startup also offers META, a compact shuttle for urban mobility; and SPACE for passenger transportation. These vehicles use a re-assembly factory LatinPost dating your drive feature model, which allows upgrades and updates to extend their lifecycle. Moreover, lightweight and bio-based materials are used to reduce vehicle weight and improve fuel efficiency, which aligns with sustainability goals. These pods use AI and machine learning algorithms for real-time perception and adaptive decision-making. The startup’s technology allows these pods to adapt across industries, enhancing efficiency and safety in transporting people and goods.

The global automotive industry, responsible for 10% of the world’s carbon dioxide emissions, faces ongoing pressure to overhaul its practices. 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. In these regions, shared mobility options like vans, minibuses, and two- and three-wheelers are more common and often electrified due to their affordability.

Since we’ve already explored the use of AI in the auto industry, it makes perfect sense to discuss connected cars, which are undoubtedly one of the top trends for the future. Connected cars are equipped with cutting-edge technology that allows them to connect to the Internet, other vehicles, and external software. These cars offer numerous benefits, not just for drivers and manufacturers, but also for passengers and the environment. By optimizing driving routes, connected cars help reduce emissions, contributing to a greener future. Using data from IoT technology, drivers receive real-time route suggestions to avoid traffic jams and ease congestion, ensuring faster, stress-free travel. Autonomous driving technology is one of the automotive industry’s most exciting and potentially disruptive developments.

Vehicle Subscription Services: SIXT & Stellantis Partner on 250K Vehicle Subscription Deal

Also, GPS and V2X connectivity improve fleet distribution and service reliability. Telematics and IoT sensors monitor vehicle condition and enable predictive maintenance. For instance, Planet42 extends access to underbanked consumers in South Africa and Mexico. Additionally, the startup offers features such as platooning algorithms for safe and efficient vehicle grouping.