The Worldwide Automotive Sensor Fusion Industry is Expected to Reach $22.5 Billion by 2030

DUBLIN, Oct. 17, 2022 /PRNewswire/ — The “Automotive Sensor Fusion Market Size, Market Share, Application Analysis, Regional Outlook, Growth Trends, Key Players, Competitive Strategies and Forecasts, 2022 to 2030” report has been added to  ResearchAndMarkets.com’s offering.

The sensor fusion market for automotive size is anticipated to grow at a CAGR of 26% during the forecast period reaching about $ 22.5 billion by 2030.

The demand for the sensor fusion market for automotive is anticipated to be driven by factors such as the implementation of rigorous safety laws, the rising popularity of high-end and luxury automobiles, and the rising popularity of advanced driver assistance systems (ADAS).

COVID-19 epidemic caused disruptions throughout the whole global automotive supply chain during the second and third quarters of 2020, which had an effect on new car sales in FY 2020. The pandemic caused lockdowns and shutdowns of manufacturing facilities in many regions, which presented the automotive sector with an uncertain timescale for recovering from the effects of the pandemic.

A limited supply of car parts, decreased sales of new vehicles, the shutdown of production facilities, and a loss in working capital were among the most significant issues that the automotive sector encountered as a result of COVID-19. Due to the fact that the manufacture of automobiles is dependent on the sensor fusion market for automotive, it is anticipated that this industry would be harmed as a result of the epidemic. Nevertheless, a number of specialists in the field predict that the recovery could pick up steam somewhere around the second half of 2021.

Enhanced Technical Capabilities of Sensor Fusion Driving its application

The use of sensor fusion is becoming increasingly common in automobiles, mostly as a result of the many practical advantages that it provides. Sensor fusion is the process of combining the data obtained from several sensors through the utilisation of software algorithms to produce an environmental model that is as exhaustive and accurate.

Sensor Fusion Enables Quick Actions Based on Data However, Development & Maintenance Cost to Hinder Growth

One more advantage is a decrease in latency. The sensor fusion system’s domain controller does not need to wait for individual sensors to finish processing data before taking any action based on that data.

This helps expedite performance in situations where even fractions of a second count, which ultimately improves the safety of the driver. Lack of standardisation in software design and hardware platform can drive up development and maintenance costs. This is a limitation.

Autonomous Vehicles Promising Opportunities During the Forecast Period

For autonomous vehicles to be able to monitor and assess their surroundings, they need sensors such as cameras, radar, and LiDAR units. They also require computer capacity and artificial intelligence to assess multidimensional impediments, and they frequently require multisource data inputs to present the vehicle with a holistic and unified view of its surroundings in real-time within fractions of a second. In order for autonomous vehicles to fulfil all of these objectives, sensor fusion is an absolute necessity.

Risk of Hacking Poses a Significant Threat

Because they include so many technological parts, vehicles that drive themselves are vulnerable to being hacked. Hackers have the ability to sabotage self-driving cars by pretending to be a person or another vehicle in front of it. Because of this, the software platform is unable to respond appropriately in a timely manner. Because of the vulnerability of numerous apps, such as infotainment systems, adaptive cruise control, and emergency braking systems, hackers are also able to take control of these types of applications.

Middleware Dominates Both in terms of Revenues and Growth

Middleware dominated the market in terms of market revenues for the year 2021. It is also anticipated that this segment will grow at a fastest pace with the highest CAGR during the forecast period of 2022 to 2030. Middleware now makes it possible for many units to communicate with one another.

However, as vehicles continue to develop into mobile computing platforms, middleware will make it feasible to customise automobiles and enable the installation and upgrades of vehicle software.

This will make it possible for cars to continue their evolution. It is anticipated that during the forecast period, middleware will function with ECU hardware in a vehicle and will make abstraction, virtualization, and distributed computing possible. Automakers are also opting flexible middleware systems as a result of developments in ADAS functionality.

Feature Segment Promising Significant Growth During the Forecast Period

Feature fusion is expected to grow at the fastest pace registering the highest CAGR during the forecast period. The level of fusion known as feature fusion is the one that is utilised the most frequently in autos. The extraction of features from input images from sensors is required in order to perform fusion at the feature level. Pixel intensities, as well as edge and texture features, can also serve as inputs for features.

Extraction of features such as edges, areas, shapes, sizes, and lengths, as well as picture segments, are all part of the feature fusion level. In addition to this, it extracts features from the images to be fused that have an intensity level that is comparable to other features. The direction of associated feature values created by several algorithms is the key benefit of feature fusion. This identifies a group of characteristics that can increase the accuracy of the system, which is the fundamental goal of feature fusion. It is anticipated that the market for feature fusion will expand the quickest in Asia Pacific, followed by the market in North America.

L4 Automated Vehicles to Dominate the Future Market Revenues

L4 cars have not yet been launched to the public on a commercial sale due to a variety of complexities including a dearth of supporting infrastructure, stringent government rules, and other similar factors. It is anticipated that these automobiles will be available for purchase by the year 2024 to 2025. Because all L4 cars are equipped with sensor fusion, the launches of these vehicles are anticipated to create considerable opportunities for software development companies working on sensor fusion and associated component makers.

APAC to be the Global Leader

During the forecast period, the Asia-Pacific region is anticipated to represent the largest market for sensor fusion in the automotive sector. It is anticipated that the market in Asia Pacific will expand as a result of the growing usage of advanced ADAS features such as automated emergency braking (AEB), lane departure warning (LDW), adaptive cruise control (ACC), and other similar technologies.

The sensor fusion markets in China and Japan are now the largest in the Asia Pacific area. The rising rate of vehicle production in combination with severe safety requirements that require ADAS capabilities to be included in vehicle models is the primary driver that is driving change in these two countries. The market in the region is anticipated to be driven by the increasing demand for premium and luxury automobiles, as well as the improvements in sensor fusion hardware. 

Key questions answered in this report

What are the key micro and macro environmental factors that are impacting the growth of Automotive Sensor Fusion market?
What are the key investment pockets with respect to product segments and geographies currently and during the forecast period?
Estimated forecast and market projections up to 2030.
Which segment accounts for the fastest CAGR during the forecast period?
Which market segment holds a larger market share and why?
Are low and middle-income economies investing in the Automotive Sensor Fusion market?
Which is the largest regional market for Automotive Sensor Fusion market?
What are the market trends and dynamics in emerging markets such as Asia Pacific, Latin America, and Middle East & Africa?
Which are the key trends driving Automotive Sensor Fusion market growth?
Who are the key competitors and what are their key strategies to enhance their market presence in the Automotive Sensor Fusion market worldwide?

Key Topics Covered:

1. Preface

2. Executive Summary

3. Automotive Sensor Fusion Market: Business Outlook & Market Dynamics
3.1. Introduction
3.2. Global Automotive Sensor Fusion Market Value, 2020 – 2030, (US$ Million)
3.3. Key Trends Analysis
3.4. Market Dynamics
3.4.1. Market Drivers
3.4.2. Market Restraints
3.4.3. Key Challenges
3.4.4. Key Opportunities
3.5. Impact Analysis of Drivers and Restraints
3.6. See-Saw Analysis
3.7. Attractive Investment Proposition
3.8. Porter’s Five Force Model
3.9. PESTEL Analysis
3.10. Competitive Landscape

4. Automotive Sensor Fusion Market: By Technology, 2020-2030, USD (Million)
4.1. Market Overview
4.2. Growth & Revenue Analysis: 2021 Versus 2030
4.3. Market Segmentation
4.3.1. Camera
4.3.2. Radar
4.3.3. LiDAR

5. Automotive Sensor Fusion Market: By Data Fusion Type, 2020-2030, USD (Million)
5.1. Market Overview
5.2. Growth & Revenue Analysis: 2021 Versus 2030
5.3. Market Segmentation
5.3.1. Homogeneous
5.3.2. Heterogeneous

6. Automotive Sensor Fusion Market: By Vehicle Type, 2020-2030, USD (Million)
6.1. Market Overview
6.2. Growth & Revenue Analysis: 2021 Versus 2030
6.3. Market Segmentation
6.3.1. Passenger Car
6.3.2. Light-commercial Vehicles (LCV)
6.3.3. Truck
6.3.4. Bus

7. Automotive Sensor Fusion Market: By Data Fusion Level, 2020-2030, USD (Million)
7.1. Market Overview
7.2. Growth & Revenue Analysis: 2021 Versus 2030
7.3. Market Segmentation
7.3.1. Feature
7.3.2. Decision
7.3.3. Data

8. Automotive Sensor Fusion Market: By Software Layer, 2020-2030, USD (Million)
8.1. Market Overview
8.2. Growth & Revenue Analysis: 2021 Versus 2030
8.3. Market Segmentation
8.3.1. Operating System
8.3.2. Middleware
8.3.3. Application Software

9. Automotive Sensor Fusion Market: By Electric Vehicle, 2020-2030, USD (Million)
9.1. Market Overview
9.2. Growth & Revenue Analysis: 2021 Versus 2030
9.3. Market Segmentation
9.3.1. BEV
9.3.2. PHEV
9.3.3. FCEV

10. Automotive Sensor Fusion Market: By Autonomous Vehicle, 2020-2030, USD (Million)
10.1. Market Overview
10.2. Growth & Revenue Analysis: 2021 Versus 2030
10.3. Market Segmentation
10.3.1. L4
10.3.2. L5

11. Automotive Sensor Fusion Market: By Sensor Type, 2020-2030, USD (Million)
11.1. Market Overview
11.2. Growth & Revenue Analysis: 2021 Versus 2030
11.3. Market Segmentation
11.3.1. Temperature
11.3.2. Pressure
11.3.3. Oxygen
11.3.4. NOx
11.3.5. Speed
11.3.6. Inertial
11.3.7. Image
11.3.8. Position
11.3.9. Other sensors

12. Automotive Sensor Fusion Market: By Application, 2020-2030, USD (Million)
12.1. Market Overview
12.2. Growth & Revenue Analysis: 2021 Versus 2030
12.3. Market Segmentation
12.3.1. Powertrain & Drivetrain
12.3.2. Safety & Body control
12.3.3. Exhaust
12.3.4. Infotainment
12.3.5. Navigation & Telematics

13. Automotive Sensor Fusion Market: By Sensor Fusion Environment, 2020-2030, USD (Million)
13.1. Market Overview
13.2. Growth & Revenue Analysis: 2021 Versus 2030
13.3. Market Segmentation
13.3.1. External
13.3.2. Internal

14. North America Automotive Sensor Fusion Market, 2020-2030, USD (Million)

15. UK and European Union Automotive Sensor Fusion Market, 2020-2030, USD (Million)

16. Asia Automotive Sensor Fusion Market, 2020-2030, USD (Million)

17. Latin America Automotive Sensor Fusion Market, 2020-2030, USD (Million)

18. Middle East and Africa Automotive Sensor Fusion Market, 2020-2030, USD (Million)

19. Company Profiles
19.1. Robert Bosch GmbH (Germany)
19.2. ZF Friedrichshafen AG (Germany)
19.3. Continental AG (Germany)
19.4. NXP Semiconductors N.V.v (Netherlands)
19.5. Infineon Technologies (Germany)
19.6. Denso Corporation (Japan)
19.7. Aptiv (Ireland)
19.8. ST Microelectronics

For more information about this report visit https://www.researchandmarkets.com/r/uqkum1

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