Global Automotive Radar Sensors Market 2017-2021

  • ID: 4032434
  • Report
  • Region: Global
  • 96 pages
  • TechNavio
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FEATURED COMPANIES

  • Asahi Kasei
  • Brigade
  • Delphi Automotive
  • HELLA
  • Mitsubishi Electric
  • NXP Semiconductors
  • MORE
About Automotive Radar Sensors

Radar sensors (also known as headway sensors) are a key component of advanced driver assistance systems (ADASs). These sensors are employed to constantly sense (in real-time) the distance between vehicles or between the vehicle and large objects around it, thereby improving driving efficiency and safety. Automotive radar systems are usually employed in ADASs.

Analysts forecast the global automotive radar sensors market to grow at a CAGR of 20.50% during the period 2017-2021.

Covered in this Report:

The report covers the present scenario and the growth prospects of the global automotive radar sensors market for 2017-2021. To calculate the market size, the report provides a detailed description of radar sensors and their system architecture to give the reader a flavor of the technologies involved.

The Market is Divided Into the Following Segments Based on Geography:

Americas
APAC
EMEA

Global Automotive Radar Sensors Market 2017-2021, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years.

The report also includes a a discussion of the key vendors operating in this market.

Key Vendors:

Autoliv
Continental
Delphi Automotive
DENSO
HELLA
InnoSenT
NXP Semiconductors
Robert Bosch
Smartmicro
Wistron NeWeb
ZF-TRW

Other Prominent Vendors:

Asahi Kasei
Mitsubishi Electric
Nidec Elesys Americas
FUJITSU TEN (along with Valeo)
Valeo (along with Raytheon)
Brigade

Market Drivers:

Rise of autonomous vehicle technology to increase need for radar sensor-based systems.
For a full, detailed list, view the full report

Market Challenges:

Price war with LiDARs is distinct threat to sustainability of automotive radar sensors market.
For a full, detailed list, view the full report

Market Trends:

Ray-tracing simulation is expected to replace drive testing of automotive radar sensor based systems.
For a full, detailed list, view the full report

Key Questions Answered in this Report:
- What will the market size be in 2021 and what will the growth rate be?
- What are the key market trends?
- What is driving this market?
- What are the challenges to market growth?
- Who are the key vendors in this market space?
- What are the market opportunities and threats faced by the key vendors?
- What are the strengths and weaknesses of the key vendors?

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Note: Product cover images may vary from those shown
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FEATURED COMPANIES

  • Asahi Kasei
  • Brigade
  • Delphi Automotive
  • HELLA
  • Mitsubishi Electric
  • NXP Semiconductors
  • MORE
Part 01: Executive summary

Part 02: Scope of the report
Market overview
Report coverage
Key vendors

Part 03: Market research methodology
Research methodology
Economic indicators

Part 04: Introduction
Key market highlights
Radar sensors
System architecture of a typical automotive radar system
Radar systems by frequency and wavelength characteristics
Operational areas of radar sensors: Automotive sensor architecture for ADAS and vehicular autonomy
Methods of detecting distances using radar technologies
Comparison of radar sensors along with other automotive sensors

Part 05: Market landscape
Market overview
Market size and forecast
Technical regulations governing automotive radar sensor systems
Broad regulatory framework governing automotive radar sensors based on application areas
Five forces analysis

Part 06: Market segmentation by application
Market overview
Market size and forecast

Part 07: Market segmentation by range
Market overview
Market size and forecast

Part 08: Market segmentation by geography
Geographic segmentation rationale
Market size and forecast

Part 09: Market drivers
Rising accident fatalities globally to drive adoption of ADAS, thereby increasing demand for radar sensors
Rise of autonomous vehicle technology to increase need for radar sensor-based systems
Increase in radar sensor adoption as radar sensor-based ADAS applications are more economical than alternatives
Faster growth in luxury and mid-market segments to propel ADAS adoption, thereby increasing demand for radar sensors

Part 10: Market challenges
Industry-specific challenges
Radar sensor design challenges

Part 11: Technological trends
Bi-static radar sensors to score over mono-static radar sensors due to stringent requirements on linearity and dynamic range of radar systems
Ray-tracing simulation is expected to replace drive testing of automotive radar sensor based systems
Signal synthesis and receptor isolation techniques to lead to implementation of high accuracy and low power radar sensors in automotive radar sensors market
System-on-chip (SoC) solutions are expected to become new normal in automotive radar sensors market
Hybrid-data fusion of radar sensor and surround view camera systems to be an enabler for vehicular autonomy
Sensor fusion using methods like Kalman filtering to drive the radar sensor fusion development space

Part 12: Vendor landscape
Key vendor rankings based on product portfolio
Vendor classification by radar range
Other prominent vendors

Part 13: Key vendor analysis
Autoliv
Continental
Delphi Automotive
DENSO
HELLA
InnoSenT
NXP Semiconductors (Qualcomm)
Robert Bosch
Smartmicro
Wistron NeWeb
ZF-TRW

Part 14: Appendix
List of abbreviations

Part 15: Extras

List of Exhibits
Exhibit 01: Report coverage
Exhibit 02: Key vendor of automotive radar sensors
Exhibit 03: Evolution of ADASs: Timeline depicting increased use of radar sensors with time
Exhibit 04: System architecture of a typical automotive radar system
Exhibit 05: Radar systems by frequency and wavelength characteristics
Exhibit 06: Summary of sensors used in automotive object detection (including pedestrians)
Exhibit 07: Automotive sensors comparison
Exhibit 08: ADAS systems using automotive radar sensors
Exhibit 09: Automotive radar, camera, and sensor systems by range and aperture angle
Exhibit 10: Automotive radar frequency bands with corresponding applications
Exhibit 11: Segmentation of global automotive radar sensors market
Exhibit 12: Global automotive radar sensors market 2016-2021 ($ billions)
Exhibit 13: Regulations for fixed antenna structures in radar systems
Exhibit 14: List of common NCAPs
Exhibit 15: Initiatives on safety by governments and transport authorities
Exhibit 16: Five forces analysis
Exhibit 17: ADAS volumetric breakup proportions 2016
Exhibit 18: ADAS volumetric breakup proportions 2021
Exhibit 19: Global automotive radar sensors market by application 2016-2021 ($ billions)
Exhibit 20: Growth rates of radar sensors in various ADASs 2016-2021
Exhibit 21: Global automotive radar sensors market by range 2016-2021 ($ billions)
Exhibit 22: Changes in geographic penetration of radar sensors over forecast period
Exhibit 23: Global 4-wheeler production by geography 2015-2020
Exhibit 24: Global automotive radar sensors market by geography 2016-2021 ($ billions)
Exhibit 25: Flowchart depicting a probable process flow for rise in demand for radar sensors
Exhibit 26: Road traffic deaths by region 2015 (per 100,000 people)
Exhibit 27: Percentage change in road accidents over 2000-2020
Exhibit 28: Global causes of motor vehicle fatalities 2015
Exhibit 29: Pedestrian deaths as a percentage of total traffic deaths in US 2005-2014
Exhibit 30: Consumer preferences toward automobile elements in US (nine-point scale)
Exhibit 31: Consumer preferences toward automobile elements in Europe (nine-point scale)
Exhibit 32: Change in proportion of importance in rating a vehicle by Euro NCAP 2014 and 2015
Exhibit 33: List of the cars awarded 5-star rating by Euro NCAP 2015
Exhibit 34: Euro NCAP star rating scoring criteria
Exhibit 35: Euro NCAP rating criteria by importance
Exhibit 36: Flowchart depicting a probable process flow for rise in demand for radar sensors
Exhibit 37: Autonomy timeline projections 2010-2080
Exhibit 38: Levels of autonomy in automotive industry: SAE/NHTSA
Exhibit 39: Automotive sensors for ADAS and autonomous driving systems
Exhibit 40: Global automotive luxury passenger car production 2015-2020 (millions of units)
Exhibit 41: Global automotive ultra-luxury passenger car production 2015-2020 (millions of units)
Exhibit 42: Virtual signal isolation and curing cube
Exhibit 43: Key vendor rankings based on product portfolio
Exhibit 44: Vendor classification by radar range
Exhibit 45: Other prominent vendors
Exhibit 46: InnoSenT: Product portfolio
Exhibit 47: Robert Bosch: Product portfolio
Exhibit 48: Smartmicro: Product offerings
Note: Product cover images may vary from those shown
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FEATURED COMPANIES

  • Asahi Kasei
  • Brigade
  • Delphi Automotive
  • HELLA
  • Mitsubishi Electric
  • NXP Semiconductors
  • MORE
Global Automotive Radar Sensors Market 2017-2021

Key players in the global automotive radar sensors market: Autoliv, Continental, Delphi Automotive, DENSO, HELLA, InnoSenT, NXP Semiconductors, Robert Bosch, Smartmicro, Wistron NeWeb, and ZF-TRW.

Other Prominent Vendors in the market are: Asahi Kasei, Mitsubishi Electric, Nidec Elesys Americas, FUJITSU TEN (along with Valeo), Valeo (along with Raytheon), and Brigade.

Commenting on the report, an analyst said: “One trend in market is bi-static radar sensors to score over mono-static radar sensors due to stringent requirements on linearity and dynamic range of radar systems. Detection range is the main specification for long- and mid-range radar systems. Obtaining a high detection range requires high transmitter output power and highly sensitivity receiver. Meeting such stringent performance goals is more difficult for monostatic radar systems when compared with their bi-static counterparts.”

According to the report, one driver in market is rise of autonomous vehicle technology to increase need for radar sensor-based systems. As shown in the projected timeline for the adoption of vehicular autonomy, the earliest timeframe for the number of vehicles having considerable autonomy (level 3 and above) to reach critical mass (at Technavio, we consider 5% market penetration as critical mass for new technological domains) is 2025 in both the base case as well as optimistic scenarios. Our pessimistic scenario, which mostly counts in a near complete lack of regulatory support and consumer apprehension for autonomous features in passenger vehicles, does paint a sordid picture, however, with the 5% autonomy take rate projected to be attained around 2047.

Further, the report states that one challenge in market is price war with LiDARs is distinct threat to sustainability of automotive radar sensors market. As discussed previously in the section on market drivers, radar sensors have been the preferred choice as enablers for ADAS and autonomy as they are inexpensive than LiDAR sensors. The price is expected to decline as Mitsubishi Electric, the expert in the missile guidance systems technology, has begun attempts to produce cheaper radar sensors. The company's experience and the existing patents related to military radar space make it plausible to expect radar sensors to continue their current trends of price reduction.

The study was conducted using an objective combination of primary and secondary information including inputs from key participants in the industry. The report contains a comprehensive market and vendor landscape in addition to a SWOT analysis of the key vendors.
Note: Product cover images may vary from those shown
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  • Autoliv
  • Continental
  • Delphi Automotive
  • DENSO
  • HELLA
  • InnoSenT
  • NXP Semiconductors
  • Robert Bosch
  • Smartmicro
  • Wistron NeWeb
  • ZF-TRW
  • Asahi Kasei
  • Mitsubishi Electric
  • Nidec Elesys Americas
  • FUJITSU TEN (along with Valeo)
  • Valeo (along with Raytheon)
  • Brigade
Note: Product cover images may vary from those shown
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Note: Product cover images may vary from those shown
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