It integrates electric drivetrains, transforming existing vehicles into sustainable and cost-effective alternatives to new EVs. The kit maintains original vehicle features to ensure a seamless transition and familiar driving experience. Indian startup Starkenn develops AI-powered ADAS to enhance vehicle safety and reduce road accidents. Its product suite includes a collision warning system, Starkenn Safe which uses radar to detect obstacles and alert drivers of potential collisions.

FlxTran develops Autonomous Vehicles for Unused Railway Tracks

Sensor fusion that combines information from various sources improves safety and autonomy by enabling accurate decision-making. Indian startup ThinkSeed develops middleware solutions that enhance smartphone connectivity to vehicles for secure access and infotainment. Its product, THINKey, transforms smartphones into digital keys that allow users to lock, unlock, and start their vehicles.

Top 10 Emerging Automotive Industry Trends 2025 and Beyond

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.

Shortage of chips will complicate the automotive industry

This approach equips them to differentiate their offerings, with software being the key to creating compelling customer experiences. The study offers data-based insights and recommendations for action for decision-makers in the automotive sector. Gain in-depth insights into the key developments that characterise the automotive industry. UK-based startup Distributed Additive Manufacturing (DAM) offers 3D printing services including design, building, and finishing of parts.

Auto Sales Impacted by Low Inventory and High Prices

Many auto manufacturers are considering integrating in-car payments to ease refueling, paying for parking or tolls, and even grocery shopping. Autonomous driving technologies like AD and ADAS are only possible to implement with the adoption of AI. Driver assistance technology, in particular, can go as far as detecting driver fatigue by monitoring their eyes and taking measures to avoid car accidents. 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. Significant investments in AI and Internet of Things (IoT) devices are crucial for fine-tuning self-driving algorithms, making them safer and more reliable.

V2ROADS simplifies Vehicle-to-Everything (V2X) Connectivity

• Looking ahead, there is no doubt that the automotive industry is on the brink of a paradigm shift driven by unprecedented technological advancements and a commitment to sustainability.
• This communication system is crucial for the safe deployment of autonomous vehicles, as it will enable them to “talk” to other vehicles and infrastructure, reducing the risk of accidents.
• 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 startup’s technology allows these pods to adapt across industries, enhancing efficiency and safety in transporting people and goods.

The segment’s sales will rise in the first six months of fiscal 2025, while the industry’s revenue will increase at the same pace to $33.8 billion. According to Globe News Wire, the entire market will grow at a CAGR of 5.5% from 2025 to 2033, logging USD 984 billion. Semiconductor chips are at the heart of almost every automotive trend, from connected technologies to autonomous driving and EVs.

Aadhya Navik designs Ride Safety Software

Advanced systems that power, control, and optimize automobiles are increasingly being built around tiny chips. Semiconductors ensure energy efficiency, consistent power distribution, and power the battery systems in EVs. They also enable software updates, enhance entertainment, and facilitate smooth communication in connected and software-defined vehicles.

The Automotive Industry in 2025: Key Focus Areas and Trends

Regenerative braking systems, crucial in EVs and hybrid cars (HEVs and PHEVs), contribute to energy recovery rates of 5% to 20%, depending on driving conditions. The platform includes geofencing, driver behavior monitoring, route mapping, and compare multiple salvage cars using reports integrated or standalone camera options, accessible via a dashboard and mobile app. For asset tracking, the startup provides small, discrete devices with long-life batteries lasting up to five years, waterproof ratings, and location monitoring alerts for reliability in outdoor conditions. XCognition captures operator input or sensor data to generate execution-ready robotic programs to increase accuracy and reduce deployment time. XTrude models the physics of FDM processes to optimize parameters like flow rate and extrusion temperature to ensure large-scale 3D printing.

EcoG builds an Electric Vehicle Charging Platform

• The expected reach in 2026 is expected to reach nearly $62 billion at a growth of CAGR 22.75%.
• 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.
• The demand for sustainable and eco-friendly transportation, like electric luxury vehicles, also drives market growth.
• However, it is estimated that over 60% of all Americans have garages that will allow for electric vehicle charging.
• 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.
• Mercedes-Benz’s Drive Pilot showcases this with over 35 sensors, including LiDAR and radar, working together to achieve certified Level 3 autonomy.

This digital transformation enhances scalability, a key driver in the competitive automotive sector. Companies like Huawei are allocating significant resources to developing EVs with cutting-edge ADAS and autonomous features. These technologies aim to reduce accidents and provide a safer driving experience. As we look ahead to 2025, these trends highlight the challenges and opportunities that manufacturers face. We explore eight most influential trends expected to define the automotive manufacturing landscape, offering insights into what lies ahead for the industry. The European Commission will start talks in the New Year on the future of the industry in the region as sales of electric vehicles stall.

Reports from key manufacturing shows

Additionally, blockchain is instrumental in verifying the supply chain of automotive parts, ensuring that materials and components are sourced from legal and trustworthy suppliers. The global automotive blockchain market is experiencing significant growth — it is projected to reach USD 6.11 billion by 2032. Singapore-based startup Beam focuses on e-scooters to promote shared mobility in the Asia-Pacific region.

Latest Trends in the Automotive Industry (2025-

Infineon, the largest manufacturer of auto chips, is increasing its investment in production by nearly $1 billion euros in 2022. All of this puts the auto industry at the back of the line when it comes to receiving chips. Now, 94% of consumers check the manufacturer’s website for product information before purchasing a part. And Tesla had already decided to close all its stores in 2019, now selling all new cars online.

What role will artificial intelligence play in the future of the automotive industry and its trends?

• Consumers research their preferred car on their mobile phones, looking for the best options, offers, and dealerships.
• Further, its Craidlr ATX-G gateways are integral to the surface temperature & vibration monitoring solution, catering to diverse automotive testing needs.
• Connected cars enable real-time navigation updates, remote diagnostics, and seamless smartphone integration.
• 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.
• They also prevent crowding in frequency bands, which is essential for ADAS and autonomous driving.

Software-defined vehicle (SDV) architectures are revolutionising automotive technology, with electric models often leading this digital transformation. While traditional OEMs are adapting to this shift, we are also witnessing newer market entrants are making significant strides in implementation, which is making for a more competitive automotive sector. Road safety, regulatory mandates, autonomous vehicle adoption, and smart city development drive this innovation.

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.

Advanced Driver Assistance Systems (ADAS)

Jaguar Land Rover’s REALCAR project established a closed-loop recycling system that reclaims over 50K tonnes of aluminum scrap. The project avoids more than 500K tonnes of CO2 emissions by reducing the need for primary aluminum. Another instance is that of Michelin, which made a road-approved car tire with 45% sustainable materials. Today, you can hear about renewable energy from every corner of the Internet, and it’s no wonder why.

It highlights workforce trends, leading investors, and key technologies driving adoption across vehicles, batteries, charging, and software. 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. This infrastructure ensures the safety of drivers and passengers and can even send emergency SOS messages to respective services in case of an accident, sharing all the critical information. Connectivity also enables remote diagnostics, alerts the driver about necessary maintenance, and promotes both safety and cost-efficiency.

⚡️ Navigating the EV Charging Infrastructure Challenge

Automakers need to redesign their vehicles or should look for other chip options available. The AI in Automotive industry in 2026 is evolving as AI, autonomous technologies, and software-defined vehicles reshape global mobility systems. This AI in Automotive Market Report examines the trends and technologies driving vehicle intelligence, operational efficiency, safety advancement, and data-driven mobility innovation.

Discover the Top 10 Auto Trends and Innovations

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.