Report Detail
Global (United States, European Union and China) Fatigue Sensing Wearables in Automotive Market Research Report 2019-2025
- RnM3685254 |
- 20 August, 2019 |
- Global |
- 118 Pages |
- QYResearch |
- Automobile & Transportation
Fatigue sensing wearables are devices that can sense and record different variables and parameters of an individual's body such as skin temperature and blood pressure, and pulse rate to detect drowsiness and exhaustive or fatigued state of the driver. Different types of sensors that monitor the person's condition to detect both physical and mental fatigue are available in the market.
The gadgets available for detecting fatigue in the automotive industry are based on monitoring the heart rate or pulse rate, skin conductivity, and sweating. The vendors in this market offer products based on the measurement of pulse rate to detect if the person is falling asleep. These wearables work on the principle of skin conductivity or skin temperature and sweating and are cost-effective. Analysts predict that the physiological measurement segment will account for the major shares of this global market throughout the forecast period.
In 2019, the market size of Fatigue Sensing Wearables in Automotive is xx million US$ and it will reach xx million US$ in 2025, growing at a CAGR of xx% from 2019; while in China, the market size is valued at xx million US$ and will increase to xx million US$ in 2025, with a CAGR of xx% during forecast period.
In this report, 2018 has been considered as the base year and 2019 to 2025 as the forecast period to estimate the market size for Fatigue Sensing Wearables in Automotive.
This report studies the global market size of Fatigue Sensing Wearables in Automotive, especially focuses on the key regions like United States, European Union, China, and other regions (Japan, Korea, India and Southeast Asia).
This study presents the Fatigue Sensing Wearables in Automotive production, revenue, market share and growth rate for each key company, and also covers the breakdown data (production, consumption, revenue and market share) by regions, type and applications. history breakdown data from 2014 to 2019, and forecast to 2025.
For top companies in United States, European Union and China, this report investigates and analyzes the production, value, price, market share and growth rate for the top manufacturers, key data from 2014 to 2019.
In global market, the following companies are covered:
Bosch
Delphi
Toyobo
SmartCap Tech
Analog Devices
Caterpillar
Omnitracs
Xilinx
Market Segment by Product Type
Physiological Measurement
Brainwave-Based Measurement
Market Segment by Application
18-45 Years Old
45-60 Years Old
Other
Key Regions split in this report: breakdown data for each region.
United States
China
European Union
Rest of World (Japan, Korea, India and Southeast Asia)
The study objectives are:
To analyze and research the Fatigue Sensing Wearables in Automotive status and future forecast in United States, European Union and China, involving sales, value (revenue), growth rate (CAGR), market share, historical and forecast.
To present the key Fatigue Sensing Wearables in Automotive manufacturers, presenting the sales, revenue, market share, and recent development for key players.
To split the breakdown data by regions, type, companies and applications
To analyze the global and key regions market potential and advantage, opportunity and challenge, restraints and risks.
To identify significant trends, drivers, influence factors in global and regions
To analyze competitive developments such as expansions, agreements, new product launches, and acquisitions in the market
In this study, the years considered to estimate the market size of Fatigue Sensing Wearables in Automotive are as follows:
History Year: 2014-2018
Base Year: 2018
Estimated Year: 2019
Forecast Year 2019 to 2025
Table of Contents
1 Report Overview
- 1.1 Research Scope
- 1.2 Major Manufacturers Covered in This Report
- 1.3 Market Segment by Type
- 1.3.1 Global Fatigue Sensing Wearables in Automotive Market Size Growth Rate by Type (2019-2025)
- 1.3.2 Physiological Measurement
- 1.3.3 Brainwave-Based Measurement
- 1.4 Market Segment by Application
- 1.4.1 Global Fatigue Sensing Wearables in Automotive Market Share by Application (2019-2025)
- 1.4.2 18-45 Years Old
- 1.4.3 45-60 Years Old
- 1.4.4 Other
- 1.5 Study Objectives
- 1.6 Years Considered
2 Global Growth Trends
- 2.1 Production and Capacity Analysis
- 2.1.1 Global Fatigue Sensing Wearables in Automotive Production Value 2014-2025
- 2.1.2 Global Fatigue Sensing Wearables in Automotive Production 2014-2025
- 2.1.3 Global Fatigue Sensing Wearables in Automotive Capacity 2014-2025
- 2.1.4 Global Fatigue Sensing Wearables in Automotive Marketing Pricing and Trends
- 2.2 Key Producers Growth Rate (CAGR) 2019-2025
- 2.2.1 Global Fatigue Sensing Wearables in Automotive Market Size CAGR of Key Regions
- 2.2.2 Global Fatigue Sensing Wearables in Automotive Market Share of Key Regions
- 2.3 Industry Trends
- 2.3.1 Market Top Trends
- 2.3.2 Market Drivers
3 Market Share by Manufacturers
- 3.1 Capacity and Production by Manufacturers
- 3.1.1 Global Fatigue Sensing Wearables in Automotive Capacity by Manufacturers
- 3.1.2 Global Fatigue Sensing Wearables in Automotive Production by Manufacturers
- 3.2 Revenue by Manufacturers
- 3.2.1 Fatigue Sensing Wearables in Automotive Revenue by Manufacturers (2014-2019)
- 3.2.2 Fatigue Sensing Wearables in Automotive Revenue Share by Manufacturers (2014-2019)
- 3.2.3 Global Fatigue Sensing Wearables in Automotive Market Concentration Ratio (CR5 and HHI)
- 3.3 Fatigue Sensing Wearables in Automotive Price by Manufacturers
- 3.4 Key Manufacturers Fatigue Sensing Wearables in Automotive Plants/Factories Distribution and Area Served
- 3.5 Date of Key Manufacturers Enter into Fatigue Sensing Wearables in Automotive Market
- 3.6 Key Manufacturers Fatigue Sensing Wearables in Automotive Product Offered
- 3.7 Mergers & Acquisitions, Expansion Plans
4 Market Size by Type
- 4.1 Production and Production Value for Each Type
- 4.1.1 Physiological Measurement Production and Production Value (2014-2019)
- 4.1.2 Brainwave-Based Measurement Production and Production Value (2014-2019)
- 4.2 Global Fatigue Sensing Wearables in Automotive Production Market Share by Type
- 4.3 Global Fatigue Sensing Wearables in Automotive Production Value Market Share by Type
- 4.4 Fatigue Sensing Wearables in Automotive Ex-factory Price by Type
5 Market Size by Application
- 5.1 Overview
- 5.2 Global Fatigue Sensing Wearables in Automotive Consumption by Application
6 Production by Regions
- 6.1 Global Fatigue Sensing Wearables in Automotive Production (History Data) by Regions 2014-2019
- 6.2 Global Fatigue Sensing Wearables in Automotive Production Value (History Data) by Regions
- 6.3 United States
- 6.3.1 United States Fatigue Sensing Wearables in Automotive Production Growth Rate 2014-2019
- 6.3.2 United States Fatigue Sensing Wearables in Automotive Production Value Growth Rate 2014-2019
- 6.3.3 Key Players in United States
- 6.3.4 United States Fatigue Sensing Wearables in Automotive Import & Export
- 6.4 European Union
- 6.4.1 European Union Fatigue Sensing Wearables in Automotive Production Growth Rate 2014-2019
- 6.4.2 European Union Fatigue Sensing Wearables in Automotive Production Value Growth Rate 2014-2019
- 6.4.3 Key Players in European Union
- 6.4.4 European Union Fatigue Sensing Wearables in Automotive Import & Export
- 6.5 China
- 6.5.1 China Fatigue Sensing Wearables in Automotive Production Growth Rate 2014-2019
- 6.5.2 China Fatigue Sensing Wearables in Automotive Production Value Growth Rate 2014-2019
- 6.5.3 Key Players in China
- 6.5.4 China Fatigue Sensing Wearables in Automotive Import & Export
- 6.6 Rest of World
- 6.6.1 Japan
- 6.6.2 Korea
- 6.6.3 India
- 6.6.4 Southeast Asia
7 Fatigue Sensing Wearables in Automotive Consumption by Regions
- 7.1 Global Fatigue Sensing Wearables in Automotive Consumption (History Data) by Regions
- 7.2 United States
- 7.2.1 United States Fatigue Sensing Wearables in Automotive Consumption by Type
- 7.2.2 United States Fatigue Sensing Wearables in Automotive Consumption by Application
- 7.3 European Union
- 7.3.1 European Union Fatigue Sensing Wearables in Automotive Consumption by Type
- 7.3.2 European Union Fatigue Sensing Wearables in Automotive Consumption by Application
- 7.4 China
- 7.4.1 China Fatigue Sensing Wearables in Automotive Consumption by Type
- 7.4.2 China Fatigue Sensing Wearables in Automotive Consumption by Application
- 7.5 Rest of World
- 7.5.1 Rest of World Fatigue Sensing Wearables in Automotive Consumption by Type
- 7.5.2 Rest of World Fatigue Sensing Wearables in Automotive Consumption by Application
- 7.5.1 Japan
- 7.5.2 Korea
- 7.5.3 India
- 7.5.4 Southeast Asia
8 Company Profiles
- 8.1 Bosch
- 8.1.1 Bosch Company Details
- 8.1.2 Company Description and Business Overview
- 8.1.3 Production and Revenue of Fatigue Sensing Wearables in Automotive
- 8.1.4 Fatigue Sensing Wearables in Automotive Product Introduction
- 8.1.5 Bosch Recent Development
- 8.2 Delphi
- 8.2.1 Delphi Company Details
- 8.2.2 Company Description and Business Overview
- 8.2.3 Production and Revenue of Fatigue Sensing Wearables in Automotive
- 8.2.4 Fatigue Sensing Wearables in Automotive Product Introduction
- 8.2.5 Delphi Recent Development
- 8.3 Toyobo
- 8.3.1 Toyobo Company Details
- 8.3.2 Company Description and Business Overview
- 8.3.3 Production and Revenue of Fatigue Sensing Wearables in Automotive
- 8.3.4 Fatigue Sensing Wearables in Automotive Product Introduction
- 8.3.5 Toyobo Recent Development
- 8.4 SmartCap Tech
- 8.4.1 SmartCap Tech Company Details
- 8.4.2 Company Description and Business Overview
- 8.4.3 Production and Revenue of Fatigue Sensing Wearables in Automotive
- 8.4.4 Fatigue Sensing Wearables in Automotive Product Introduction
- 8.4.5 SmartCap Tech Recent Development
- 8.5 Analog Devices
- 8.5.1 Analog Devices Company Details
- 8.5.2 Company Description and Business Overview
- 8.5.3 Production and Revenue of Fatigue Sensing Wearables in Automotive
- 8.5.4 Fatigue Sensing Wearables in Automotive Product Introduction
- 8.5.5 Analog Devices Recent Development
- 8.6 Caterpillar
- 8.6.1 Caterpillar Company Details
- 8.6.2 Company Description and Business Overview
- 8.6.3 Production and Revenue of Fatigue Sensing Wearables in Automotive
- 8.6.4 Fatigue Sensing Wearables in Automotive Product Introduction
- 8.6.5 Caterpillar Recent Development
- 8.7 Omnitracs
- 8.7.1 Omnitracs Company Details
- 8.7.2 Company Description and Business Overview
- 8.7.3 Production and Revenue of Fatigue Sensing Wearables in Automotive
- 8.7.4 Fatigue Sensing Wearables in Automotive Product Introduction
- 8.7.5 Omnitracs Recent Development
- 8.8 Xilinx
- 8.8.1 Xilinx Company Details
- 8.8.2 Company Description and Business Overview
- 8.8.3 Production and Revenue of Fatigue Sensing Wearables in Automotive
- 8.8.4 Fatigue Sensing Wearables in Automotive Product Introduction
- 8.8.5 Xilinx Recent Development
9 Market Forecast
- 9.1 Global Market Size Forecast
- 9.1.1 Global Fatigue Sensing Wearables in Automotive Capacity, Production Forecast 2019-2025
- 9.1.2 Global Fatigue Sensing Wearables in Automotive Production Value Forecast 2019-2025
- 9.2 Market Forecast by Regions
- 9.2.1 Global Fatigue Sensing Wearables in Automotive Production and Value Forecast by Regions 2019-2025
- 9.2.2 Global Fatigue Sensing Wearables in Automotive Consumption Forecast by Regions 2019-2025
- 9.3 United States
- 9.3.1 Production and Value Forecast in United States
- 9.3.2 Consumption Forecast in United States
- 9.4 European Union
- 9.4.1 Production and Value Forecast in European Union
- 9.4.2 Consumption Forecast in European Union
- 9.5 China
- 9.5.1 Production and Value Forecast in China
- 9.5.2 Consumption Forecast in China
- 9.6 Rest of World
- 9.6.1 Japan
- 9.6.2 Korea
- 9.6.3 India
- 9.6.4 Southeast Asia
- 9.7 Forecast by Type
- 9.7.1 Global Fatigue Sensing Wearables in Automotive Production Forecast by Type
- 9.7.2 Global Fatigue Sensing Wearables in Automotive Production Value Forecast by Type
- 9.8 Consumption Forecast by Application
10 Value Chain and Sales Channels Analysis
- 10.1 Value Chain Analysis
- 10.2 Sales Channels Analysis
- 10.2.1 Fatigue Sensing Wearables in Automotive Sales Channels
- 10.2.2 Fatigue Sensing Wearables in Automotive Distributors
- 10.3 Fatigue Sensing Wearables in Automotive Customers
11 Opportunities & Challenges, Threat and Affecting Factors
- 11.1 Market Opportunities
- 11.2 Market Challenges
- 11.3 Porter's Five Forces Analysis
12 Key Findings
13 Appendix
- 13.1 Research Methodology
- 13.1.1 Methodology/Research Approach
- 13.1.1.1 Research Programs/Design
- 13.1.1.2 Market Size Estimation
- 13.1.1.3 Market Breakdown and Data Triangulation
- 13.1.2 Data Source
- 13.1.2.1 Secondary Sources
- 13.1.2.2 Primary Sources
- 13.1.1 Methodology/Research Approach
- 13.2 Author Details
Summary:
Get latest Market Research Reports on Fatigue Sensing Wearables in Automotive. Industry analysis & Market Report on Fatigue Sensing Wearables in Automotive is a syndicated market report, published as Global (United States, European Union and China) Fatigue Sensing Wearables in Automotive Market Research Report 2019-2025. It is complete Research Study and Industry Analysis of Fatigue Sensing Wearables in Automotive market, to understand, Market Demand, Growth, trends analysis and Factor Influencing market.
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