Automotive

Automotive LiDAR Market to Grow US$ 3.21 Billion by 2027

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The global Automotive LiDAR market size is expected to surpass around US$ 3.21 billion by 2027 and the market is expected to garner growth at a CAGR of 28.4% over the forecast period 2021 to 2027.

The Automotive LiDAR market report covers a detailed analysis for the historic period 2017-2020, considering 2021 as the base year and forecast (growth) for 2021-2027.

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Growth Factors

Increasing awareness among vehicle users for safety along with safety norms issued by the global regulatory bodies is a prime factor that drives the automotive LiDAR market. Furthermore, rising adoption of autonomous and electric vehicles projected to mark a stupendous growth in the application of advanced vehicle safety components such as automotive LiDAR. Growing emphasis from the governments for ADAS incorporated vehicles in the past few years due to safety concern is likely to propel the demand for automotive LiDAR during the forecast period. Automotive LiDAR is proved as the decisive technology for the autonomous vehicles owing to high precision and accurate real-time detection from the lasers emitted from the device.

However, high cost of the technology hinders the market growth. Some of the manufacturers are working towards cutting the price of the LiDAR sensor in automotive sector by reducing the laser emitters in the solution, though the automotive LiDAR is quite expensive these days thus facing restriction in frequent adoption from many manufacturers.

Market Report Scope

Report Highlights Details
Market Size USD 3.21 Billion by 2027
Growth Rate CAGR of 28.4% from 2021 to 2027
Largest Market North America
Fastest Growing Market Europe
Base Year 2021
Forecast Period 2021 to 2027

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Market Overview

A recent study by Precedence Research on the Automotive LiDAR market offers a forecast for 2021 and 2027. The study analyzes crucial trends that are currently determining the growth of the Automotive LiDAR market. This report explicates on vital dynamics such as the drivers, restraints, and opportunities for key market players, along with key stakeholders as well as emerging players associated with the manufacturing of Automotive LiDAR. The study also provides the dynamics that are responsible for influencing the future status of the Automotive LiDAR market over the forecast period.

A detailed assessment of the Automotive LiDAR market value chain analysis, business execution, and supply chain analysis across regional markets has been covered in the report. A list of prominent companies operating in the Automotive LiDAR market along with their product portfolio enhances the reliability of this comprehensive research study.

Report Highlights

  • North America dominated the global automotive LiDAR market with significant revenue contribution in 2019. Government regulations along with surge in sales of electric and hybrid vehicles are the key factors that drive the growth of the region. Furthermore, integration of LiDAR solution in collision avoidance and remote sensing applications expected to surge the demand for automotive LiDAR in the region.
  • Europe projected to grow at the fastest growth rate during the forecast period. UK and Germany are the major countries integrating IoT and real-time image processing technology to LiDAR solution. However, China, India, and other ASEAN countries seek opportunistic growth for the LiDAR solution in the coming years due to rising trend of green and hybrid vehicles on road.
  • By application, Advanced Driver Assistance System (ADAS) emerged as the leading segment capturing more than 70% of the global market revenue. Furthermore, the segment expected to offer attractive growth rate during the forecast period owing to increasing application of ADAS in smart vehicle parking and adaptive cruise control solutions.

Regional Snapshots

North America led the global automotive LiDAR market with magnificent revenue share accounting to more than 50%. The significant growth of the region is attributed to the rising research and development activities for enhancement of autonomous vehicles. The government policies supporting the investment in autonomous vehicles drive the research & development for the same. For instance, in 2018, U.S. government invested US$ Mn for the research in self-driving technology. The research activity would be conducted in government and private agencies working on the enhancement of autonomous driving solutions.

Europe is the most attractive region in the global automotive LiDAR market. The anticipated growth of the region is mainly due to supportive policies of the government such as European New Car Assessment Program and Vehicle and Driver Safety Policy. Under these policies, the government has mandated the implementation of vehicle safety solutions that significantly drives the market for automotive LiDAR in the region. In addition, the autonomous vehicles are prominently dependent on the sensor that has significantly elevated the sensor implementation, thus propels the overall growth of automotive LiDAR solutions.

OBJECTIVES OF THE STUDY

  • To analyze and forecast the electric motor market, in terms of value and volume
  • To provide information about the key factors influencing the growth of the market (drivers, restraints, opportunities, and challenges)
  • To define, segment, and project the size of the global electric motor market on the product type, end-use and other segments
  • To project the size of the market, with respect to five main regions, namely, North America, Europe, Asia Pacific (APAC), the Middle East & Africa, and South America, with their key countries
  • To strategically analyze micro markets with respect to individual growth trends, growth prospects, and their contribution to the total market
  • To analyze opportunities in the market for stakeholders and provide a competitive landscape of the market leaders
  • To strategically profile key players and comprehensively analyze their core competencies
  • To track and analyze research & development (R&D) and competitive developments such as joint ventures, mergers & acquisitions, and new product developments in the electric motor market

Research Methodology

  • Market estimate for 2020
  • Average selling price (ASP) per region for specific product type
  • Filtrations and assortment of gathered data, to estimate the base year (2021) market size for the country
  • Gathering data from company websites, annual reports, white papers, financial reports, broker reports, investor presentations, and SEC filings
  • National government documents, statistical databases
  • News articles, press releases, and webcasts specific to companies operating in the market
  • Country wise analysis through internal and external proprietary databases, and relevant patent and regulatory databases
  • Determination of market penetration by country

Major Players Covered in this Report

The updated market research report on electric motor market allows the buyers and manufacturers to stay updated with the current market trends, ongoing happenings, and a clear picture on the market scenario. List of key players included in the research report will help the market vendors to know their market position and plan more operational strategies to gain topmost position among other players. The report offers crucial company information on each market player, such as company profile, financial information, and recently adopted growth strategies. This will help other existing players and the new entrants to plan strategies and establish their presence in the market.

Major manufacturers & their revenues, percentage splits, market shares, growth rates and breakdowns of the product markets are determined through secondary sources and verified through the primary sources.

  • Company Overview
  • Company Market Share/Positioning Analysis
  • Product Offerings
  • Financial Performance
  • Recent Initiatives
  • Key Strategies Adopted by Players
  • Vendor Landscape
  • List of Suppliers
  • List of Buyers

Major key players operating in the market are

  • LeosphereSaS
  • Airborne Hydrography AB
  • Faro Technologies Inc.
  • Aerometric Inc.
  • 3D Laser Mapping Inc.
  • Mira Solutions Inc.
  • Quanergy Systems, Inc.
  • Optech Inc. (Teledyne Technologies)
  • IBEO automotive systems GmbH
  • Velodyne
  • LeicGeosystems Inc.

Segments Covered in the Report

By Product Type

  • Aerial
  • Mobile
  • Terrestrial/Static
  • Short-range

By Components

  • Laser
  • GPS/GNSS Receiver
  • Camera
  • Inertial Navigation System
  • Micro Electro Mechanical System

By Application

  • Advanced Driver Assistance System (ADAS)
    • Adaptive Cruise Control
    • Automatic Emergency Braking
  • Autonomous Cars

By Regional Outlook

  • North America
    • U.S.
    • Canada
  • Europe
    • U.K.
    • Germany
    • France
  • Asia Pacific
    • China
    • India
    • Japan
    • South Korea
  • Rest of the World

Why should you invest in this report?

If you are aiming to enter the global Automotive LiDAR market, this report is a comprehensive guide that provides crystal clear insights into this niche market. All the major application areas for Automotive LiDAR are covered in this report and information is given on the important regions of the world where this market is likely to boom during the forecast period of 2021-2027, so that you can plan your strategies to enter this market accordingly. Besides, through this report, you can have a complete grasp of the level of competition you will be facing in this hugely competitive market and if you are an established player in this market already, this report will help you gauge the strategies that your competitors have adopted to stay as market leaders in this market. For new entrants to this market, the voluminous data provided in this report is invaluable.

TABLE OF CONTENT

Chapter 1. Introduction

1.1. Research Objective
1.2. Scope of the Study
1.3. Definition

Chapter 2. Research Methodology

2.1. Research Approach
2.2. Data Sources
2.3. Assumptions & Limitations

Chapter 3. Executive Summary

3.1. Market Snapshot

Chapter 4. Market Variables and Scope

4.1. Introduction
4.2. Market Classification and Scope
4.3. Industry Value Chain Analysis
4.3.1. Raw Material Procurement Analysis
4.3.2. Sales and Distribution Channel Analysis
4.3.3. Downstream Buyer Analysis

Chapter 5. Market Dynamics Analysis and Trends

5.1. Market Dynamics
5.1.1. Market Drivers
5.1.2. Market Restraints
5.1.3. Market Opportunities
5.2. Porter’s Five Forces Analysis
5.2.1. Bargaining power of suppliers
5.2.2. Bargaining power of buyers
5.2.3. Threat of substitute
5.2.4. Threat of new entrants
5.2.5. Degree of competition

Chapter 6. Competitive Landscape

6.1.1. Company Market Share/Positioning Analysis
6.1.2. Key Strategies Adopted by Players
6.1.3. Vendor Landscape
6.1.3.1. List of Suppliers
6.1.3.2. List of Buyers

Chapter 7. Global Automotive LiDAR Market, By Product

7.1. Automotive LiDAR Market, by Product Type, 2020-2027
7.1.1. Aerial
7.1.1.1. Market Revenue and Forecast (2016-2027)
7.1.2. Mobile
7.1.2.1. Market Revenue and Forecast (2016-2027)
7.1.3. Terrestrial/Static
7.1.3.1. Market Revenue and Forecast (2016-2027)
7.1.4. Short-range
7.1.4.1. Market Revenue and Forecast (2016-2027)

Chapter 8. Global Automotive LiDAR Market, By Application

8.1. Automotive LiDAR Market, by Application, 2020-2027
8.1.1. Advanced Driver Assistance System (ADAS)
8.1.1.1. Market Revenue and Forecast (2016-2027)
8.1.2. Autonomous Cars
8.1.2.1. Market Revenue and Forecast (2016-2027)

Chapter 9. Global Automotive LiDAR Market, By Components

9.1. Automotive LiDAR Market, by Components, 2020-2027
9.1.1. Laser
9.1.1.1. Market Revenue and Forecast (2016-2027)
9.1.2. GPS/GNSS Receiver
9.1.2.1. Market Revenue and Forecast (2016-2027)
9.1.3. Camera
9.1.3.1. Market Revenue and Forecast (2016-2027)
9.1.4. Inertial Navigation System
9.1.4.1. Market Revenue and Forecast (2016-2027)
9.1.5. Micro Electro Mechanical System
9.1.5.1. Market Revenue and Forecast (2016-2027)

Chapter 10. Global Automotive LiDAR Market, Regional Estimates and Trend Forecast

10.1. North America
10.1.1. Market Revenue and Forecast, by Product (2016-2027)
10.1.2. Market Revenue and Forecast, by Application (2016-2027)
10.1.3. Market Revenue and Forecast, by Components (2016-2027)
10.1.4. U.S.
10.1.4.1. Market Revenue and Forecast, by Product (2016-2027)
10.1.4.2. Market Revenue and Forecast, by Application (2016-2027)
10.1.4.3. Market Revenue and Forecast, by Components (2016-2027)
10.1.5. Rest of North America
10.1.5.1. Market Revenue and Forecast, by Product (2016-2027)
10.1.5.2. Market Revenue and Forecast, by Application (2016-2027)
10.1.5.3. Market Revenue and Forecast, by Components (2016-2027)
10.2. Europe
10.2.1. Market Revenue and Forecast, by Product (2016-2027)
10.2.2. Market Revenue and Forecast, by Application (2016-2027)
10.2.3. Market Revenue and Forecast, by Components (2016-2027)
10.2.4. UK
10.2.4.1. Market Revenue and Forecast, by Product (2016-2027)
10.2.4.2. Market Revenue and Forecast, by Application (2016-2027)
10.2.4.3. Market Revenue and Forecast, by Components (2016-2027)
10.2.5. Germany
10.2.5.1. Market Revenue and Forecast, by Product (2016-2027)
10.2.5.2. Market Revenue and Forecast, by Application (2016-2027)
10.2.5.3. Market Revenue and Forecast, by Components (2016-2027)
10.2.6. France
10.2.6.1. Market Revenue and Forecast, by Product (2016-2027)
10.2.6.2. Market Revenue and Forecast, by Application (2016-2027)
10.2.6.3. Market Revenue and Forecast, by Components (2016-2027)
10.2.7. Rest of Europe
10.2.7.1. Market Revenue and Forecast, by Product (2016-2027)
10.2.7.2. Market Revenue and Forecast, by Application (2016-2027)
10.2.7.3. Market Revenue and Forecast, by Components (2016-2027)
10.3. APAC
10.3.1. Market Revenue and Forecast, by Product (2016-2027)
10.3.2. Market Revenue and Forecast, by Application (2016-2027)
10.3.3. Market Revenue and Forecast, by Components (2016-2027)
10.3.4. India
10.3.4.1. Market Revenue and Forecast, by Product (2016-2027)
10.3.4.2. Market Revenue and Forecast, by Application (2016-2027)
10.3.4.3. Market Revenue and Forecast, by Components (2016-2027)
10.3.5. China
10.3.5.1. Market Revenue and Forecast, by Product (2016-2027)
10.3.5.2. Market Revenue and Forecast, by Application (2016-2027)
10.3.5.3. Market Revenue and Forecast, by Components (2016-2027)
10.3.6. Japan
10.3.6.1. Market Revenue and Forecast, by Product (2016-2027)
10.3.6.2. Market Revenue and Forecast, by Application (2016-2027)
10.3.6.3. Market Revenue and Forecast, by Components (2016-2027)
10.3.7. Rest of APAC
10.3.7.1. Market Revenue and Forecast, by Product (2016-2027)
10.3.7.2. Market Revenue and Forecast, by Application (2016-2027)
10.3.7.3. Market Revenue and Forecast, by Components (2016-2027)
10.4. MEA
10.4.1. Market Revenue and Forecast, by Product (2016-2027)
10.4.2. Market Revenue and Forecast, by Application (2016-2027)
10.4.3. Market Revenue and Forecast, by Components (2016-2027)
10.4.4. GCC
10.4.4.1. Market Revenue and Forecast, by Product (2016-2027)
10.4.4.2. Market Revenue and Forecast, by Application (2016-2027)
10.4.4.3. Market Revenue and Forecast, by Components (2016-2027)
10.4.5. North Africa
10.4.5.1. Market Revenue and Forecast, by Product (2016-2027)
10.4.5.2. Market Revenue and Forecast, by Application (2016-2027)
10.4.5.3. Market Revenue and Forecast, by Components (2016-2027)
10.4.6. South Africa
10.4.6.1. Market Revenue and Forecast, by Product (2016-2027)
10.4.6.2. Market Revenue and Forecast, by Application (2016-2027)
10.4.6.3. Market Revenue and Forecast, by Components (2016-2027)
10.4.7. Rest of MEA
10.4.7.1. Market Revenue and Forecast, by Product (2016-2027)
10.4.7.2. Market Revenue and Forecast, by Application (2016-2027)
10.4.7.3. Market Revenue and Forecast, by Components (2016-2027)
10.5. Latin America
10.5.1. Market Revenue and Forecast, by Product (2016-2027)
10.5.2. Market Revenue and Forecast, by Application (2016-2027)
10.5.3. Market Revenue and Forecast, by Components (2016-2027)
10.5.4. Brazil
10.5.4.1. Market Revenue and Forecast, by Product (2016-2027)
10.5.4.2. Market Revenue and Forecast, by Application (2016-2027)
10.5.4.3. Market Revenue and Forecast, by Components (2016-2027)
10.5.5. Rest of LATAM
10.5.5.1. Market Revenue and Forecast, by Product (2016-2027)
10.5.5.2. Market Revenue and Forecast, by Application (2016-2027)
10.5.5.3. Market Revenue and Forecast, by Components (2016-2027)

Chapter 11. Company Profiles

11.1. LeosphereSaS
11.1.1. Company Overview
11.1.2. Product Offerings
11.1.3. Financial Performance
11.1.4. Recent Initiatives
11.2. Airborne Hydrography AB
11.2.1. Company Overview
11.2.2. Product Offerings
11.2.3. Financial Performance
11.2.4. Recent Initiatives
11.3. Faro Technologies Inc.
11.3.1. Company Overview
11.3.2. Product Offerings
11.3.3. Financial Performance
11.3.4. Recent Initiatives
11.4. Aerometric Inc.
11.4.1. Company Overview
11.4.2. Product Offerings
11.4.3. Financial Performance
11.4.4. Recent Initiatives
11.5. 3D Laser Mapping Inc.
11.5.1. Company Overview
11.5.2. Product Offerings
11.5.3. Financial Performance
11.5.4. Recent Initiatives
11.6. Mira Solutions Inc.
11.6.1. Company Overview
11.6.2. Product Offerings
11.6.3. Financial Performance
11.6.4. Recent Initiatives
11.7. Quanergy Systems, Inc.
11.7.1. Company Overview
11.7.2. Product Offerings
11.7.3. Financial Performance
11.7.4. Recent Initiatives
11.8. Optech Inc. (Teledyne Technologies)
11.8.1. Company Overview
11.8.2. Product Offerings
11.8.3. Financial Performance
11.8.4. Recent Initiatives
11.9. IBEO automotive systems GmbH
11.9.1. Company Overview
11.9.2. Product Offerings
11.9.3. Financial Performance
11.9.4. Recent Initiatives
11.10. Velodyne
11.10.1. Company Overview
11.10.2. Product Offerings
11.10.3. Financial Performance
11.10.4. Recent Initiatives
11.11. LeicGeosystems Inc.
11.11.1. Company Overview
11.11.2. Product Offerings
11.11.3. Financial Performance
11.11.4. Recent Initiatives

Chapter 12. Research Methodology

12.1. Primary Research
12.2. Secondary Research
12.3. Assumptions

Chapter 13. Appendix

13.1. About Us
13.2. Glossary of Terms

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