Global Automotive Driving Simulator Market 2017-2021
出 版 商:Technavio
出版日期:2017/03/08
頁 數:70頁
文件格式:PDF
價 格:
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USD 4,500 (Multi-User License)
USD 5,000 (Global-User License)
ABSTRACT
About Automotive Driving Simulator
Driving simulators, also called as sims, are a class of human-machine interfaces (HMIs), which are used to imitate the exact or near-exact conditions prevalent during driving, with respect to the driver's perspective, motion and physics perspective, as well as the vehicle interior and exterior perspective.
Technavio’s analysts forecast the global automotive driving simulator market to grow at a CAGR of -2.64% during the period 2017-2021.
Covered in this report
The report covers the present scenario and the growth prospects of the global automotive driving simulator market for 2017-2021. To calculate the market size, the report presents a detailed picture of the market by way of study, synthesis, and summation of data from multiple sources.
The market is divided into the following segments based on geography:
‧ Americas
‧ APAC
‧ EMEA
Technavio's report, Global Automotive Driving Simulator 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 discussion of the key vendors operating in this market.
Key vendors
‧ Ansible Motion
‧ Cruden
‧ DALLARA
‧ Mechanical Simulation
‧ Moog
‧ OKTAL (Sogeclair Group)
Market driver
‧ High cost of validating simulation resulting in increased TCO of simulators.
‧ For a full, detailed list, view our report
Market challenge
‧ Use of AR HUDs and HMDs to introduce inexpensive driving simulation solutions.
‧ For a full, detailed list, view our report
Market trend
‧ Development of autonomous vehicles based on automotive driving simulation algorithms.
‧ For a full, detailed list, view our 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?
You can request one free hour of our analyst’s time when you purchase this market report. Details are provided within the report.
About Automotive Driving Simulator
Driving simulators, also called as sims, are a class of human-machine interfaces (HMIs), which are used to imitate the exact or near-exact conditions prevalent during driving, with respect to the driver's perspective, motion and physics perspective, as well as the vehicle interior and exterior perspective.
Technavio’s analysts forecast the global automotive driving simulator market to grow at a CAGR of -2.64% during the period 2017-2021.
Covered in this report
The report covers the present scenario and the growth prospects of the global automotive driving simulator market for 2017-2021. To calculate the market size, the report presents a detailed picture of the market by way of study, synthesis, and summation of data from multiple sources.
The market is divided into the following segments based on geography:
‧ Americas
‧ APAC
‧ EMEA
Technavio's report, Global Automotive Driving Simulator 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 discussion of the key vendors operating in this market.
Key vendors
‧ Ansible Motion
‧ Cruden
‧ DALLARA
‧ Mechanical Simulation
‧ Moog
‧ OKTAL (Sogeclair Group)
Market driver
‧ High cost of validating simulation resulting in increased TCO of simulators.
‧ For a full, detailed list, view our report
Market challenge
‧ Use of AR HUDs and HMDs to introduce inexpensive driving simulation solutions.
‧ For a full, detailed list, view our report
Market trend
‧ Development of autonomous vehicles based on automotive driving simulation algorithms.
‧ For a full, detailed list, view our 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?
You can request one free hour of our analyst’s time when you purchase this market report. Details are provided within the report.
Table of Contents
PART 01: Executive summary
PART 02: Scope of the report
PART 03: Research Methodology
PART 04: Introduction
‧ Key market highlights
‧ Driving simulators
PART 05: Market landscape
‧ Market overview
‧ Market size and forecast
‧ Five forces analysis
PART 06: Market segmentation by end-user
‧ Market overview
‧ Market size and forecast
PART 07: Market segmentation by geography
‧ Market overview
‧ Market size and forecast
PART 08: Decision framework
PART 09: Drivers and challenges
‧ Market drivers
‧ Market challenges
PART 10: Market trends
‧ Development of stratiform machines to supplant hexapod machines in automotive DIL simulation applications
‧ Development of autonomous vehicles based on automotive driving simulation algorithms
‧ Creation of low-cost simulators for testing and evaluating in-vehicle technologies
‧ Increased use of driving simulators for mainstream automotive design
‧ Advent of reconfigurable driving simulation in automotive space
PART 11: Vendor landscape
‧ Qualitative ranking analysis of key vendors
‧ Micro-analysis of automotive driving simulator space
PART 12: Key vendor analysis
‧ Ansible Motion
‧ Cruden
‧ DALLARA
‧ Mechanical Simulation
‧ Moog
‧ OKTAL (Sogeclair Group)
PART 13: Appendix
‧ List of abbreviations
List of Exhibits
Exhibit 01: Primary stages of development of modern-day simulation
Exhibit 02: Types of cues used in DIL simulators
Exhibit 03: Segmentation criteria for global automotive driving simulator market
Exhibit 04: Global automotive driving simulator market 2016-2021 ($ millions)
Exhibit 05: Simulator pricing based on end-users 2016-2021 ($)
Exhibit 06: Five forces analysis
Exhibit 07: Classification of driving simulators based on end-user
Exhibit 08: Global automotive driving simulator market by end-user 2016-2021 ($ millions)
Exhibit 09: Information for calculation of driving simulator requirement in schools in top five countries
Exhibit 10: Information for calculation of simulator requirement for industry and academia
Exhibit 11: Information for calculation of simulator requirement for transport authorities
Exhibit 12: Demand flows of simulator end-user mega-segments
Exhibit 13: Global automotive driving simulator market by geography 2016-2021 ($ millions)
Exhibit 14: Growth of key geographic regions 2016-2021
Exhibit 15: Comparison of conventional and AR HUDs
Exhibit 16: Generations of automotive infotainment system
Exhibit 17: ADAS development timeline
Exhibit 18: Autonomy timeline projection 2010-2080
Exhibit 19: Levels of autonomy in automotive industry - Society of Automotive Engineers (SAE) / NHTSA
Exhibit 20: Global causes of motor vehicle fatalities 2015
Exhibit 21: Global causes of pedestrian deaths 2014-2015
Exhibit 22: Hexapods and stratiform machinery
Exhibit 23: Simple algorithmic decision tree for driverless cars
Exhibit 24: Sample driverless car decision tree for PPS
Exhibit 25: PPS and connected car technologies: A tie-up for higher validity
Exhibit 26: Rankings of key vendors
Exhibit 27: Some commercial and non-commercial players in driving simulator space
PART 01: Executive summary
PART 02: Scope of the report
PART 03: Research Methodology
PART 04: Introduction
‧ Key market highlights
‧ Driving simulators
PART 05: Market landscape
‧ Market overview
‧ Market size and forecast
‧ Five forces analysis
PART 06: Market segmentation by end-user
‧ Market overview
‧ Market size and forecast
PART 07: Market segmentation by geography
‧ Market overview
‧ Market size and forecast
PART 08: Decision framework
PART 09: Drivers and challenges
‧ Market drivers
‧ Market challenges
PART 10: Market trends
‧ Development of stratiform machines to supplant hexapod machines in automotive DIL simulation applications
‧ Development of autonomous vehicles based on automotive driving simulation algorithms
‧ Creation of low-cost simulators for testing and evaluating in-vehicle technologies
‧ Increased use of driving simulators for mainstream automotive design
‧ Advent of reconfigurable driving simulation in automotive space
PART 11: Vendor landscape
‧ Qualitative ranking analysis of key vendors
‧ Micro-analysis of automotive driving simulator space
PART 12: Key vendor analysis
‧ Ansible Motion
‧ Cruden
‧ DALLARA
‧ Mechanical Simulation
‧ Moog
‧ OKTAL (Sogeclair Group)
PART 13: Appendix
‧ List of abbreviations
List of Exhibits
Exhibit 01: Primary stages of development of modern-day simulation
Exhibit 02: Types of cues used in DIL simulators
Exhibit 03: Segmentation criteria for global automotive driving simulator market
Exhibit 04: Global automotive driving simulator market 2016-2021 ($ millions)
Exhibit 05: Simulator pricing based on end-users 2016-2021 ($)
Exhibit 06: Five forces analysis
Exhibit 07: Classification of driving simulators based on end-user
Exhibit 08: Global automotive driving simulator market by end-user 2016-2021 ($ millions)
Exhibit 09: Information for calculation of driving simulator requirement in schools in top five countries
Exhibit 10: Information for calculation of simulator requirement for industry and academia
Exhibit 11: Information for calculation of simulator requirement for transport authorities
Exhibit 12: Demand flows of simulator end-user mega-segments
Exhibit 13: Global automotive driving simulator market by geography 2016-2021 ($ millions)
Exhibit 14: Growth of key geographic regions 2016-2021
Exhibit 15: Comparison of conventional and AR HUDs
Exhibit 16: Generations of automotive infotainment system
Exhibit 17: ADAS development timeline
Exhibit 18: Autonomy timeline projection 2010-2080
Exhibit 19: Levels of autonomy in automotive industry - Society of Automotive Engineers (SAE) / NHTSA
Exhibit 20: Global causes of motor vehicle fatalities 2015
Exhibit 21: Global causes of pedestrian deaths 2014-2015
Exhibit 22: Hexapods and stratiform machinery
Exhibit 23: Simple algorithmic decision tree for driverless cars
Exhibit 24: Sample driverless car decision tree for PPS
Exhibit 25: PPS and connected car technologies: A tie-up for higher validity
Exhibit 26: Rankings of key vendors
Exhibit 27: Some commercial and non-commercial players in driving simulator space
