Drive-By-Wire Market Report (2024 - 2030) - Size and Share Analysis, Industry Trends, and Growth Forecasts
This report offers deep insights into the Drive-By-Wire Market Which is Segmented by Vehicle Type, Sensor Type, Component, and Application.
Drive-by-Wire Market Size Analysis
Market Statistics
Study Period | 2017 - 2030 |
2023 Market Size | USD 22.0 Billion |
2024 Market Size | USD 23.1 Billion |
2030 Forecast | USD 33.9 Billion |
Growth Rate (CAGR) | 6.6% |
Largest Region | Asia-Pacific |
Fastest Growing Region | North America |
Nature of the Market | Consolidated |
Largest Application | Brake by Wire |
Market Size Comparison
Key Players
Key Report Highlights
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Explore the market potential with our data-driven report
The drive-by-wire market generated revenue of USD 22.0 billion in 2023, which is expected to witness a CAGR of 6.6% during 2024–2030, to reach USD 33.9 billion by 2030. The major factors responsible for the growth of the market include the rise in the stringency of the vehicular emission norms of governments, the increasing development of autonomous vehicles, and the growth of the connected infrastructure.
Moreover, the development and testing of autonomous vehicles are increasing, which highlights the surging importance of drive-by-wire systems in enabling precise control and seamless integration with various sensors and control algorithms.
The consumer demand for advanced safety features in vehicles, such as traction control and electronic stability control (ESC), has led to the development of drive-by-wire systems. In addition to that, the growing adoption of advanced driver assistance systems (ADAS), which include automated parking, lane-keeping assistance, and adaptive cruise control, is driving the need for drive-by-wire technology.
Drive-by-Wire Market Trends & Drivers
Increasing Rate of Vehicle Electrification Is a Key Trend
- The automotive industry has witnessed a technological revolution with the introduction of hybrid electric vehicles. The demand for these vehicles has been fueled by the tax benefits available on their purchase and rising environmental awareness.
- As the conventional systems that are used to power the engine add to the requirement for fuel, the use of an electric motor in the start-stop system can significantly lower the load on the engine, thus leading to fuel efficiency. Thus, the electrification of automobiles is a major trend in the market.
Increasing Vehicular Emission Norm Stringency Is Driving Market Growth
- In the wake of the increasing concerns over air pollution and the effect it has on human and environmental health, governments around the world are implementing new emission norms and making the existing ones more stringent.
- Due to the presence of such regulations, manufacturers are being compelled to use lightweight materials in vehicles in an effort to increase their fuel efficiency. This calls for drive-by-wire controls, which is why the market will grow with the increasing stringency of emission norms.
High Expense of Maintenance and Implementation
- The costs associated with implementing and maintaining drive-by-wire technology can vary depending on the complexity of integrating it into new or existing vehicle architectures.
- Factors such as safety features, communication protocols, and compatibility with other electronic systems need to be considered. The type of vehicle and its intended use can also impact implementation costs.
- For high-performance vehicles or advanced autonomous systems, more sophisticated drive-by-wire solutions may be necessary, leading to higher prices. Costs also increase when meeting safety and regulatory requirements.
- Moreover, to ensure that drive-by-wire systems meet the necessary safety standards, they must comply with local and industry safety regulations. Ongoing maintenance costs include software updates, sensor calibration, and potential hardware repairs. Regular maintenance is crucial to ensure that drive-by-wire systems continue to operate safely and efficiently.
In-Depth Segmentation Analysis
Passenger Cars Dominate Vehicle Segment
- The passenger car category is dominating the vehicle type segment and held a larger revenue share, of 70%, in 2023. This is attributed to the increasing production of mid-size and luxury vehicles.
- Furthermore, the increasing demand for improved safety with better operational accuracy is set to boost the passenger car drive-by-wire market.
- Moreover, the commercial vehicle category is set to witness faster growth till 2030. This can be attributed to the increasing industrialization in developing countries, which calls for a high usage of off-highway vehicles, including construction and mining equipment, forklifts, and tractors. With such vehicles undergoing rapid technological advancements, the market is growing.
During the study, we have analyzed two vehicle types in the report:
- Passenger Car (Larger Category)
- Commercial Vehicle (Faster-Growing Category)
Electronic Throttle Control Leads Component Segment with 25% Share
- The electronic throttle control category is dominating the component segment, with a market share, of 25%, in 2023. This is attributed to the popular feature of it in the drive-by-wire systems as it provides numerous types of advantages from the traditional mechanical throttle system.
- Further, it helps improve the fuel’s efficiency by augmenting the vehicle's air-fuel ratio. This is because the electronic throttle control can accurately control the amount of air that helps make sure the engine is running smoothly at its most efficient level.
- Moreover, electronic throttle control systems can enhance vehicle performance by offering more accurate control over the engine's throttle, resulting in improved acceleration and responsiveness. Due to these advantages, electronic throttle control has become a popular feature of drive-by-wire systems.
During the study, the following component types covered in the report are:
- Electronic Control Unit
- Engine Control Module
- Actuator
- Feedback Motor
- Parking Pawl
- Electronic Throttle Control Module (Larger Category)
- Electronic Transmission Control Unit
Steer-by-Wire Category to Witness the Highest CAGR
- The steer-by-wire category is expected to have the highest CAGR, of 9%, during 2024–2030, based on the application. This can be because this system has a reduced requirement for maintenance, as it is constituted of an integrated electronic control unit, embedded software, and control area network bus interface.
- The installation of the shift-by-wire system aids in a higher reduction in vehicle weight compared to conventional transmission systems. Moreover, it also diminishes the intensity of engine noise and renders high operational accuracy.
- Steer-by-wire systems are commonly utilized in electric and hybrid vehicles, eliminating the need for a direct mechanical link between the steering wheel and the wheels.
- This design enables the integration of advanced driving assistance systems (ADAS) and provides greater flexibility in vehicle design. Throttle-by-wire systems replace the traditional mechanical linkage between the engine and the accelerator pedal with electronic sensors and actuators.
- Drive-by-wire systems play a crucial role in developing and implementing autonomous driving technology. These systems allow for the seamless integration of advanced driver-assist features such as automated parking, adaptive cruise control, and lane-keeping assistance.
- Whereas, the brake-by-wire category held the largest market share, of 45%, in 2023. The brake-by-wire systems focus on electronic control of braking systems.
- Unlike conventional cars that use hydraulic systems to apply brake force through a pedal, brake-by-wire systems manage braking operations using electronic sensors and actuators, eliminating the need for a direct mechanical connection between the brake pedal and braking components.
- A central control unit analyzes data from various sensors, including wheel speed, vehicle speed, brake pedal position, and other relevant information, to calculate the appropriate braking force.
- Electronic actuators manage the amount of force applied to each wheel during braking, often utilizing advanced communication networks for rapid and precise data transfer between components.
- To enhance safety and reliability, brake-by-wire systems often incorporate redundant parts and systems due to the critical nature of braking. These systems can improve vehicle safety by enabling electronic stability control and enhancing braking performance.
- Additionally, brake-by-wire systems can improve overall fuel efficiency by integrating with other vehicle control systems. By eliminating the need for a direct mechanical connection between the brake pedal and braking components, brake-by-wire systems provide vehicle designers with greater design flexibility.
Below are the major applications in which drive-by-wire plays an important role:
- Throttle by Wire
- Shift by Wire
- Brake by Wire (Largest Application Category)
- Park by Wire
- Steer by Wire (Fastest Application Category)
APAC Held 45% Revenue Share in 2023
- Geographically, APAC held the largest market share, of 45%, in 2023. This dominancy is because of the increasing disposable income of its middle-class population and the cost advantages experienced by original equipment manufacturers (OEMs) owing to the availability of cheap labor and raw materials in the region.
- Moreover, the growing popularity of premium and luxury vehicles and the presence of stringent emission norms in the region are expected to boost the APAC market for drive-by-wire.
- On the other hand, North America is the fastest-growing market, advancing at a CAGR of 9% during 2024–2030. This is driven by the rising adoption of autonomous vehicles by consumers, businesses, and the U.S. military.
- This trend has significantly increased the demand for autonomous or self-driving vehicles, which rely heavily on electronic components to perform various functions.
- Additionally, being a region of developed economies, North America has a population with sufficient disposable income to invest in non-essential items like cars.
Further, regions and countries analyzed for this report include:
- North America (Fastest-Growing Regional Market)
- U.S. (Larger and Faster-Growing Country Market)
- Canada
- Europe
- Germany (Largest Country Market)
- U.K. (Fastest-Growing Country Market)
- France
- Italy
- Spain
- Rest of Europe
- Asia-Pacific (APAC) (Largest Regional Market)
- China (Largest Country Market)
- Japan
- India (Fastest-Growing Country Market)
- South Korea
- Australia
- Rest of APAC
- Latin America (LATAM)
- Brazil (Largest and Fastest-Growing Country Market)
- Mexico
- Rest of LATAM
- Middle East and Africa (MEA)
- Saudi Arabia (Largest Country Market)
- South Africa
- U.A.E. (Fastest-Growing Country Market)
- Rest of MEA
Competitive Landscape
Drive-by-wire market players are actively engaging in product development to enhance their market presence. The majority of the manufacturers prioritize innovation and continuous product feature development, investing heavily in research and development to introduce new features. The objective is to introduce features that enhance safety are cost-effective and improve performance and fuel efficiency in the market.
Top Drive-by-Wire Companies:
- Robert Bosch GmbH
- Denso Corporation
- Continental AG
- ZF Friedrichshafen AG
- CTS Corporation
- Ficosa International S.A.
- Kongsberg Automotive
- Nexteer Automotive
- Hitachi Ltd.
- Nissan Motor Corporation
- Infineon Technologies AG
Drive-by-Wire Companies News
- Sprinklr launched the Sprinklr Unified Partners Program, which integrates the various new types of partners. These include referral partners, independent consultants, business process outsourcing (BPO) partners, and technological solution brokers (TSBs).
- Titan, a manufacturer of EV steering systems, has introduced a new steer-by-wire system. This is utilized by a variety of low-volume vehicles, including light commercial vehicles and trucks, through to supercars. This system comprises hydraulic, manual, and electrified (EPAS) options.
- Hitachi Astemo Limited has developed a steer-by-wire prototype for vehicles, which starts the tires electrically rather than mechanically by the electric control of steering wheel inputs. This facilitated smooth, unforced steering wheel operations.
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