The uptake in EVs is experiencing a surge, driven by rapid advances in battery technology, an expanding charging infrastructure and supportive government incentives. As more manufacturers roll out affordable and appealing EV models, the market is shifting towards sustainable alternatives which are becoming more accessible to a broader consumer base. One of the most in-demand connectivity solutions is in-vehicle infotainment—the systems that provide both information and entertainment for enhanced driving experience. The currently available infotainment systems can connect with smartphones, sensors, ADAS (advanced driver assistance systems) as well as other in-vehicle and external systems. In 2025, a great number of car manufacturers are planning to improve their infotainment systems providing them with more and more advanced capabilities. Vehicle connectivity has become a really game-changing innovation in automotive industry that will transform the future of driving.
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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.
Auto Sales Impacted by Low Inventory and High Prices
LiDAR sensors enable precise 3D mapping, crucial for vehicle navigation and obstacle detection. AI algorithms process vast data from sensors and cameras, enhancing decision-making for safe, efficient driving. French startup Airnity provides a cellular connectivity platform for the automotive industry to enhance connected car operations. THINKey operates through a secure architecture using enclaves in the phone, vehicle, and cloud, adhering to the car connectivity consortium’s digital key standard. Additionally, the startup offers infotainment solutions with plug-and-play SDKs and certification-ready apps for phone mirroring and multimedia features.
Connected, autonomous, shared, and electric (CASE) vehicle technologies remain a strong focus in automotive markets
Battery technology has taken centre stage in the EV revolution, and this article provides a deep dive into the leading chemistries and formats that defined 2024. From LFP to cutting-edge solid-state batteries, it examines the trade-offs between cost, performance, and sustainability while uncovering key Morocco World News EpicVIN feature regional trends. These advancements are critical as manufacturers aim to balance efficiency, durability, and safety.
- The Society of Automotive Engineers (SAE) “Levels of Driving Automation” standard shows how stages of vehicle automation progress.
- Key automotive industry trends include a significant rise in electric vehicle production, a growing market for pre-owned vehicles, and an uptick in digital car sales.
- It does so to preserve their heritage design and deliver zero-emission performance.
- 2025 is predicted to be a big year for self-driving taxi services, as companies look to re-imagine the future of the automotive and taxi-hailing industry.
- Consumer trends in the automotive industry reveal that short videos are more effective than text in converting leads into customers in the automotive industry.
- Europe is projected to reach a 20.4% market share, while the US is likely to reach 11.2%.
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- Supply chains are being restructured to secure critical minerals and diversify chip sources.
- A combination of technological advancements, sustainability initiatives, and new business models will shape the automotive industry in 2025.
- The sensor integrates chip-level innovations that reduce power consumption, simplify hardware complexity, and enable performance through a modular architecture.
- In some cases, car dealerships are charging huge markups on the inventory they do have.
- It combines a gasoline engine with an electric motor to enhance fuel efficiency and reduce emissions.
- Mercedes-Benz is also using generative AI to include conversational assistants for improving user experiences and redefining in-car interactions.
- Success will depend on manufacturers’ ability to balance technological advancement with practical implementation while meeting evolving consumer expectations.
The EU enforces a 2035 zero-emission mandate, and the US Inflation Reduction Act channels subsidies into domestic EV production and attracts international manufacturers. In addition, the startup integrates regional infrastructure knowledge into vehicle design to ensure durability, accessibility, and energy efficiency. Additionally, it uses the Future Trends Index to identify and prioritize relevant design directions across different markets.
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.
With zero emissions, low noise, and a range of up to 400 km, FALAK offers a sustainable urban mobility solution. The startup emphasizes comfort with electric doors, extended safety features, and panoramic views from all seats. Advances in solid-state batteries promise higher energy density and faster charging times, while the expansion of ultra-fast chargers addresses key barriers to EV adoption. With the growing popularity of bidirectional charging (V2G) technology, EVs now contribute energy to the grid to improve stability. By focusing on digital transformation, the company aims to integrate predictive analytics and process automation, creating production systems that are adaptable and resilient. These examples point to AI enabling real-time decision-making and predictive maintenance, while improving quality control and minimising downtime, marking the technology ‘a no-brainer’ for production in 2025.
How is electric vehicle technology shaping the automotive industry?
- By optimizing driving routes, connected cars help reduce emissions, contributing to a greener future.
- Initial deployments focus on simpler, grid-like cities such as Phoenix in the USA, Milton Keynes in the UK, and Singapore.
- 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.
- This innovative, circular production approach supports sustainability goals by reducing landfill waste and advancing circular economy practices in automotive manufacturing.
- Automakers are also adopting hyper-personalized features to offer customized experiences through infotainment systems, user profiles, and real-time navigation updates.
- Volkswagen is using digital twin technology at its Wolfsburg plant to simulate and optimise production processes for the Tayron SUV.
- Brands provide specific offers by analyzing your needs, preferences, and behavior.
This chiplet-based architecture integrates with automotive processors via PCIe Gen5 and UCIe interfaces, which allows customizable and cost-effective system enhancements. BOS Semiconductors focuses on high-performance, energy-efficient AI solutions to drive innovation in autonomous driving and enhance in-cabin experiences. US-based startup Avvenire develops LEVs for efficient and eco-friendly urban transportation. Its products include the Leggera, an all-electric vehicle for on-road and off-road use, and the Spiritus, a three-wheel electric car with optional autonomous driving, Wi-Fi connectivity, and solar panels.
Latest Trends in the Automotive Industry (2025-
Major car, truck, and SUV manufacturers are investing in fuel-cell electric vehicle development, with the support of countries like China, Germany, Japan, South Korea, and the United States. The EU’s Green Deal and its accompanying “Fit for 55” initiative aim to cut carbon emissions drastically by 2030, piling new expectations on manufacturers to reduce their environmental impact. Adding to the challenge, measures such as stricter Euro 7 tailpipe standards and updated rules on battery recycling demand deeper innovation within supply chains and operations.
consumer trends
The US-based startup Launch Mobility develops a platform for a range of shared mobility solutions. The platform LM Mission ControlTM offers free-floating or station-based car sharing, advanced shuttle services, shared dockless scooters, keyless rental programs, and peer-to-peer shared mobility. Further, their drivers use out-of-the-box or white-labeled apps to manage reservations or remotely access vehicles. Factories equipped with IoT-enabled devices and machine learning capabilities are emerging as the backbone of next-generation automotive production. These facilities use data-driven insights to optimise processes, reduce energy consumption, and increase operational efficiency.
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This coordinates power flows between vehicles, buildings, and distributed energy resources. Also, IoT sensors such as LiDAR and radar expand perception by generating environmental data. For instance, Audi and BMW vehicles exchanged sensor data, including camera feeds, during 5G-V2X Direct demonstrations in Berlin. This data alerted drivers to pedestrians and cyclists before they became visible.
wrap up and 2025: EV batteries, gigafactories, sustainability and smart factories in auto manufacturing
However, it’s estimated that there will be 33 million autonomous vehicles on the road by 2040. Virtual car shopping is the new norm and will remain a significant car industry trend for years. The booming e-commerce industry is essential to the global online car buying demand. This is further fueled by increasing awareness of convenience and supported by rising digital literacy, internet accessibility, urbanization, and disposable income levels.
It enhances safety via driver-assist features and promises to revolutionize mobility with robotaxis and freight automation. Its progress influences OEM investments, partnerships with tech firms, and consumer expectations. While full autonomy is still years away, incremental advances are reshaping vehicle capabilities and market offerings today. These material innovations are also crucial to meeting evolving regulations, particularly the EU’s stringent emission standards. For EVs specifically, weight reduction translates directly into extended range and improved battery performance.
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 features by handling complex sensor tasks and accelerating development and deployment processes.
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This trend is reshaping how manufacturers think about scalability and flexibility, particularly as the demand for electric vehicles continues to grow, and will continue to make itself felt throughout 2025. EV technology is the catalyst for transformation—it’s forcing OEMs to rethink vehicle architecture, supply chains, and customer engagement. Battery improvements reduce costs and increase range, making EVs more accessible. EVs also enable new business models like vehicle-to-grid services and battery leasing.
💻 Trend 2: The Rise of Software-Defined Vehicles (SDVs) – Cars as Computers
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.
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.
Automotive Industry Trends 2025: Future & Growth of Automotive
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.
(c) 2025 Automotive Manufacturing Solutions
The startup’s product range includes residential wallboxes from 7 to 22 kW and commercial chargers up to 132 kW. 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.
- Driver assistance technology, in particular, can go as far as detecting driver fatigue by monitoring their eyes and taking measures to avoid car accidents.
- This kind of adoption should lead to much-improved 5G infrastructure, which could support vehicle connectivity.
- As a car seller, dealer, or manufacturer, you must only build flexible yet solid automotive marketing strategies and create a strong sense of customer trust and loyalty.
- And TuSimple is hoping to begin selling completely autonomous Level 4 trucks to fleet operators in 2024.
- Simultaneously, many automakers embrace vertical integration strategies, taking control of the software stack from chip development to application integration.
- UK-based startup Electric Car Converts changes classic Land Rovers into EVs by replacing combustion engines with modern electric motors and battery packs.
The integration of Industry 4.0 technologies is revolutionizing automotive manufacturing. IoT, AI, and digital twins are becoming essential tools for improving efficiency, reducing downtime, and optimizing production processes. The push toward electrification is reshaping the automotive manufacturing landscape. By 2025, we will see increased investments in EV production as automakers cater to evolving consumer demands and regulatory pressures. However there are huge opportunities for the industry in the shift to software-defined vehicles and autonomous driving. These shifts are beneficial to ARM, STMicroelectronics, NXP Semiconductors and Infineon Technologies.
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Major automotive manufacturers are responding by rethinking their revenue models and investing heavily in on-demand vehicle access services. Meanwhile, tech companies such as Uber and Lyft continue to expand their digital-first transportation solutions, creating a more competitive and diverse mobility landscape. Moreover, automakers offer features on demand as they are turning cars into service platforms. Likewise, projects USD billion in annual software and services revenue by 2030 from connected vehicles. The startup strengthens autonomous driving by providing reliable and production-ready Level 4 vehicles that expand commercial mobility solutions. Semiconductors enhance safety by enabling faster decisions and reducing accident risks.
Digital Twins and Simulation technologies take centre-stage
They improve energy efficiency through wide-bandgap devices that extend EV range and minimize charging times. The semiconductors also enable infotainment, voice assistants, and AI-driven interfaces for a better user experience. These advanced technologies are widely used across a great number of industries and the automotive domain is no exception. They are used by the automotive industry for car manufacturing, employee training as well as vehicle sales and marketing. The main advantage of this digital technology is that it allows auto manufacturers to create complex and at the same time lightweight vehicle parts.