Worldwide Automotive 4D Imaging Radar Industry to 2030 – Technological Partnerships Among Key Participants to Offer Innovation Solutions

DUBLIN, July 22, 2022 /PRNewswire/ — The “Automotive 4D Imaging Radar 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.

Global market for automotive 4D imaging radar is expected to grow at a CAGR of 22% during the forecast period of 2022-2030. 4D radar employs time-of-flight measurement and echolocation to map objects in a 3D environment. The ability to map the positions of objects in a vehicle’s route is now being tested in the autonomous vehicle sector.

In contrast to more traditional technologies such as Lidar, conventional radar, and cameras, 4D radar can detect when and how quickly a vehicle is going in a variety of weather and environmental circumstances. It is a relatively new device that measures the height of objects above the road as well as their relative speed, distance, and azimuth using a huge Radio Frequency (RF) channel array. Time is referred to regarded be the fourth dimension, however it is not really mapped by 4D radar.

Instead, it calculates the height of the objects and their relative speed using time. With respect to its’ application in automotive the 4D imaging radar, gives cars the intuition they need to make life-saving split-second judgments while significantly lowering the direct and indirect costs to OEMs and Tier 1 suppliers.

Global Regulations & Increased Need for Safety and Comfort is Driving the Demand

afety has become the utmost priority across the globe. For instance, in 2023, CPD technology must be installed in order to receive all four possible points in the areas of adult protection, child protection, pedestrian protection, and safety assistance. The installation of CPD technology in particular is crucial for reducing hot vehicle events, which have killed thousands of children left in automobiles throughout the world.

Automakers are concentrating more on in-cabin safety systems like enhanced seat belt reminders (SBR), child presence detection (CPD), and optimized airbag deployment in an effort to meet global safety regulations that are becoming more stringent. Greater requirements as well as a rise in consumer demand for more comfort features are expected during the next years.

Technical Superiorities of 4D Imaging Radar to Increase its Uptake

The 4D imaging radar system finds both static and moving objects in an area by using time-of-flight data and echolocation. They may be used for short- and medium-range detection and have a range of up to 300 meters and beyond. The accuracy of imaging radars is improved by the addition of the fourth dimension (azimuth angle of elevation) and time-bound point cloud data to offer high-resolution sensing with a broad field of view.

Accurate identification and simultaneous tracking of several static and/or moving targets are made possible by a wide antenna array. Since there are no optics involved, this method is reliable in all types of weather and illumination. For example, within the cockpit, 4D imaging radar can accurately monitor threats without a line of sight to them.

Increasing Sale of Automated Cars

Most of the cars sold in the U.S and Europe are automated at least at basic level. However, many of today’s automobiles have some automated control of the steering wheel, brakes, and/or accelerator, as evidenced with adaptive cruise control, lane departure alarms, and/or automatic lane shifting. Level 4 and Level 5 cars aren’t currently accessible for the general public to purchase.

While fully autonomous driving is undoubtedly a few years away, manufacturers add more cutting-edge safety technologies each year, lowering collisions and making drivers more at ease with the idea of ever removing their hands entirely from the wheel. As OEMs are continuously striving for increased levels of automation. These cameras are capable of spotting things like other vehicles, people on foot, traffic signals, and road signs. The computing unit receives the information and analyses it before making the best option for moving the vehicle.

Affordable Safety is the Foremost Concern to be Resolved

There is now a lack of coordination in terms of when new safety measures will go into effect in various locations, despite the fact that the ultimate aim of safeguarding every life on the road remains the same. For any company intending to offer a single product in several – or all – markets, this poses a considerable difficulty. One possibility is to add sensors provisionally and activate them as and when necessary, but this strategy comes at a high cost and offers no further benefit.

Equally concerning is the lack of adequate regulation of car safety in many emerging nations. Numerous variables are at work in this situation, including substandard road infrastructure, insufficient emergency services, and poorly maintained automobiles, many of which have undergone substantial modification or reconstruction. Because of this, many OEMs that produce affordable automobiles still consider anything over the minimum level of safety technology to be uneconomical. Customers who buy such vehicles – and passengers who ride in them – cannot take advantage of the best degree of safety stipulated by organizations like Euro NCAP. As a result, a bizarre scenario of safety disparity is maintained, with those who live in more prosperous nations and can afford costlier automobiles maintaining access to the required protection.

Technological Partnerships Among Key Participants to Offer Innovation Solutions

As the market is niche and very less market players have ventured into automotive 4D imaging radar segment. However, the environment is cohesive for potential entrants during the forecast period. Key players in this market include Vayyar Imaging, Arbe Robotics, Uhnder, RFISee, RadSee, Smart Radar System, Zadar Labs, Oculli, InnoSenT, Infineon, and Ainstein. Other players focusing on higher level automation includes Texas Instruments, NXP Semiconductors, ST Microelectronics, Xilinx, and Analog Devices.

AEC-Q100-qualified 48 transceivers with an integrated, digital signal processor and a microcontroller unit utilized for real-time signal processing are the foundation of Vayyar’s radar-on-chip technology. According to the manufacturer, there is no need for an extra CPU to run sophisticated image algorithms on the sensor.

Additionally, Nxp and Continental are working together to test a brand-new radar sensor chipset. The ability to categorize radar echoes according to the kind of item on the road is a feature of every new sensor chipset. To ensure that smaller objects are not missed, the radar will also be able to calculate the elevation, range, speed, and azimuth.

North America to Grow as a Global Leader

North America led the global market for automotive 4D imaging radar in 2021 and is expected to continue to be the global leader during the forecast period of 2022 – 2030. North America is also expected to grow at the fastest pace with the highest CAGR in comparison to other geographies during the forecast period. Increased focus on innovation, affordability of high end cars, cohesive infrastructure for automated vehicles and so on are the key drivers boosting the market growth in North America Europe is the second largest geography after North America. Europe is a home to leading automotive companies in the world and hence holds significant growth potential during the forecast period.

Key questions answered in this report

What are the key micro and macro environmental factors that are impacting the growth of automotive 4D Imaging radar 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 4D Imaging radar market?
Which is the largest regional market for automotive 4D Imaging radar 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 global automotive 4D Imaging radar market?
Who are the key competitors and what are their key strategies to enhance their market presence in the automotive 4D Imaging radar market?

Key Topics Covered:

1. Preface

2. Executive Summary

3. Automotive 4D Imaging Radar Market: Business Outlook & Market Dynamics
3.1. Introduction
3.2. Global Automotive 4D Imaging Radar 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
3.8.1. Supplier Power
3.8.2. Buyer Power
3.8.3. Threat Of Substitutes
3.8.4. Threat Of New Entrants
3.8.5. Competitive Rivalry
3.9. PESTEL Analysis
3.9.1. Political Landscape
3.9.2. Economic Landscape
3.9.3. Technology Landscape
3.9.4. Legal Landscape
3.9.5. Social Landscape
3.10. Competitive Landscape
3.10.1. Market Positioning of Key Automotive 4D Imaging Radar Market Vendors
3.10.2. Strategies Adopted by Automotive 4D Imaging Radar Market Vendors

4. Automotive 4D Imaging Radar Market: By Level of Automation, 2020-2030, USD (Million)
4.1. Market Overview
4.2. Growth & Revenue Analysis: 2021 Versus 2030
4.3. Market Segmentation
4.3.1.Advanced Driver Assistance Systems (ADAS)
4.3.2.Autonomous Vehicles (AV)

5. Automotive 4D Imaging Radar Market: By Range, 2020-2030, USD (Million)
5.1. Market Overview
5.2. Growth & Revenue Analysis: 2021 Versus 2030
5.3. Market Segmentation
5.3.1.Short-range Radar
5.3.2.Medium & Long Range Radar

6. Automotive 4D Imaging Radar Market: By Frequency, 2020-2030, USD (Million)
6.1. Market Overview
6.2. Growth & Revenue Analysis: 2021 Versus 2030
6.3. Market Segmentation
6.3.1.24 GHz to 24.25 GHz
6.3.2.21 GHz to 26 GHz
6.3.3.76 GHz to 77 GHz
6.3.4.77 GHz to 81 GHz

7. North America Automotive 4D Imaging Radar Market, 2020-2030, USD (Million)

8. UK and European Union Automotive 4D Imaging Radar Market, 2020-2030, USD (Million)

9. Asia Automotive 4D Imaging Radar Market, 2020-2030, USD (Million)

10. Latin America Automotive 4D Imaging Radar Market, 2020-2030, USD (Million)

11. Middle East and Africa Automotive 4D Imaging Radar Market, 2020-2030, USD (Million)

12. Company Profiles
12.1. Ainstein
12.1.1. Company Overview
12.1.2. Financial Performance
12.1.3. Product Portfolio
12.1.4. Strategic Initiatives
12.2. Hyundai Mobis
12.2.1. Company Overview
12.2.2. Financial Performance
12.2.3. Product Portfolio
12.2.4. Strategic Initiatives
12.3. Bosch
12.3.1. Company Overview
12.3.2. Financial Performance
12.3.3. Product Portfolio
12.3.4. Strategic Initiatives
12.4. Oculii
12.4.1. Company Overview
12.4.2. Financial Performance
12.4.3. Product Portfolio
12.4.4. Strategic Initiatives
12.5. Vayyar Imaging
12.5.1. Company Overview
12.5.2. Financial Performance
12.5.3. Product Portfolio
12.5.4. Strategic Initiatives
12.6. Texas Instruments
12.6.1. Company Overview
12.6.2. Financial Performance
12.6.3. Product Portfolio
12.6.4. Strategic Initiatives
12.7. ZF
12.7.1. Company Overview
12.7.2. Financial Performance
12.7.3. Product Portfolio
12.7.4. Strategic Initiatives

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

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