Driverless trains unlike the traditional trains do not require any on board driver to monitor, and operate the train functions. The operations are automated with the help highly powered sensors, enhanced camera systems, and GPS. The working of all of the components is controlled with the help of a highly efficient computer system with machine learning (ML) capabilities.
The growth of the autonomous train technology market is driven by factors such as increase in allocation of budget for development of railways; rise in demand for secure, safer, and efficient transport; and reduction in pollution & accidents. However, rise in possibilities of hacking the system and high cost of train automation restrict the market growth. On the contrary, improvement in railway infrastructure, particularly in developing countries, and increase in freight transport through train are anticipated to offer lucrative opportunities for the market expansion.
The report segments the autonomous train technology market on the basis of grade of automation (GoA), type, technology, component, and region. Grade of Automation includes GoA 1, GoA 2, GoA 3, GoA 4. Based on type, the market is bifurcated into passenger train and freight train. Depending on component, it is categorized into camera, accelerometer, odometer, tachometer, radio set, and others. By technology, it is fragmented into CBTC, ERTMS, ATC, and PTC.
Region wise, it is analyzed across North America, Europe, Asia-Pacific, and LAMEA.
Key players operating in the market include Alstom S.A., ABB, Bombardier Transportation, CRRC Transportation, General Electric, Hitachi Ltd., Kawasaki Heavy Industries, Mitsubishi Heavy Industries, Siemens AG., and Thales Group.
KEY BENEFITS FOR STAKEHOLDERS
• This study comprises analytical depiction of the autonomous train technology market with current trends and future estimations to portray the imminent investment pockets.
• The overall market potential is determined to understand the profitable trends to gain a stronger coverage in the market.
• The report presents information related to key drivers, restraints, and opportunities with a detailed impact analysis.
• The current market is quantitatively analyzed from 2018 to 2026 to highlight the financial competency of the market.
• Porter’s five forces analysis illustrates the potency of the buyers and suppliers.
KEY MARKET SEGMENTS
By Grade of Automation
• GoA 1
• GoA 2
• GoA 3
• GoA 4
By Application
• Passenger Train
• Freight Train
By Technology
• CBTC
• ETRMS
• ATC
• PTC
By Component
• Camera
• Accelerometer
• Odometer
• Tachometer
• Radio set
• Others
BY REGION
• North America
o U.S.
o Canada
o Mexico
• Europe
o UK
o Germany
o France
o Russia
o Italy
o Rest of Europe
• Asia-Pacific
o China
o India
o Japan
o South Korea
o Singapore
o Rest of Asia-Pacific
• LAMEA
o Latin America
o Middle East
o Africa
KEY MARKET PLAYERS PRofILED
• Alstom S.A.
• ABB
• Bombardier Transportation
• CRRC Transportation
• General Electric
• Hitachi Ltd.
• Kawasaki Heavy Industries
• Mitsubishi Heavy Industries
• Siemens AG
• Thales Group
Chapter 1: Introduction
1.1. Report Description
1.2. Key Benefits For Stakeholders
1.3. Key Market Segments
1.4. Research Methodology
1.4.1. Primary Research
1.4.2. Secondary Research
1.4.3. Analyst Tools And Models
Chapter 2: Executive Summary
2.1. Cxo Perspective
Chapter 3: Market Overview
3.1. Market Definition And Scope
3.2. Key Findings
3.2.1. Top Impacting Factors
3.2.2. Top Investment Pockets
3.2.3. Top Winning Strategies
3.3. Porter’S Five Forces Analysis
3.4. Market Share Analysis (2018)
3.5. Market Dynamics
3.5.1. Drivers
3.5.1.1. Increase In The Allocation of Budget For Development of Railways
3.5.1.2. Rise In Demand For Secure, Safer And Efficient Transport System.
3.5.1.3. Reduction In Pollution And Accident
3.5.1.4. Increased Capacity And Reliability
3.5.2. Restraint
3.5.2.1. High Possibilities of Hacking The System
3.5.2.2. High Cost Incurred In Train Automation
3.5.3. Opportunities
3.5.3.1. Improvement In Railway Infrastructure, Particularly In Developing Countries
3.5.3.2. Increase In Freight Transport Through Train
Chapter 4: Global Autonomous Train Technology Market, Grade of Automation
4.1. Overview
4.2. Grade of Automation 1 (Goa 1)
4.2.1. Key Market Trends, Growth Factors And Opportunities
4.2.2. Market Size And Forecast, By Region
4.2.3. Market Analysis By Country
4.3. Grade of Automation 2 (Goa 2)
4.3.1. Key Market Trends, Growth Factors And Opportunities
4.3.2. Market Size And Forecast, By Region
4.3.3. Market Analysis By Country
4.4. Grade of Automation 3 (Goa 3)
4.4.1. Key Market Trends, Growth Factors, And Opportunities
4.4.2. Market Size And Forecast, By Region
4.4.3. Market Analysis By Country
4.5. Grade of Automation 4 (Goa 4)
4.5.1. Key Market Trends, Growth Factors, And Opportunities
4.5.2. Market Size And Forecast, By Region
4.5.3. Market Analysis By Country
Chapter 5: Global Autonomous Train Technology Market, By Type of Train
5.1. Overview
5.2. Passenger Train
5.2.1. Key Market Trends, Growth Factors And Opportunities
5.2.2. Market Size And Forecast, By Region
5.2.3. Market Analysis By Country
5.3. Freight Train
5.3.1. Key Market Trends, Growth Factors, And Opportunities
5.3.2. Market Size And Forecast, By Region
5.3.3. Market Analysis By Country
Chapter 6: Global Autonomous Train Technology Market, By Technology
6.1. Overview
6.2. Communication Based Train Control (Cbtc)
6.2.1. Key Market Trends, Growth Factors And Opportunities
6.2.2. Market Size And Forecast, By Region
6.2.3. Market Analysis By Country
6.3. European Railway Traffic Management System (Ertms)
6.3.1. Key Market Trends, Growth Factors And Opportunities
6.3.2. Market Size And Forecast, By Region
6.3.3. Market Analysis By Country
6.4. Automatic Train Control (Atc)
6.4.1. Key Market Trends, Growth Factors, And Opportunities
6.4.2. Market Size And Forecast, By Region
6.4.3. Market Analysis By Country
6.5. Positive Train Control (Ptc)
6.5.1. Key Market Trends, Growth Factors, And Opportunities
6.5.2. Market Size And Forecast, By Region
6.5.3. Market Analysis By Country
Chapter 7: Autonomous Train Technology Market, By Component
7.1. Overview
7.2. Camera
7.2.1. Key Market Trends, Growth Factors And Opportunities
7.2.2. Market Size And Forecast, By Region
7.2.3. Market Analysis By Country
7.3. Accelerometer
7.3.1. Key Market Trends, Growth Factors And Opportunities
7.3.2. Market Size And Forecast, By Region
7.3.3. Market Analysis By Country
7.4. Odometer
7.4.1. Key Market Trends, Growth Factors And Opportunities
7.4.2. Market Size And Forecast, By Region
7.4.3. Market Analysis By Country
7.5. Tachometer
7.5.1. Key Market Trends, Growth Factors And Opportunities
7.5.2. Market Size And Forecast, By Region
7.5.3. Market Analysis By Country
7.6. Radio Set
7.6.1. Key Market Trends, Growth Factors And Opportunities
7.6.2. Market Size And Forecast, By Region
7.6.3. Market Analysis By Country
7.7. Others
7.7.1. Key Market Trends, Growth Factors And Opportunities
7.7.2. Market Size And Forecast, By Region
7.7.3. Market Analysis By Country
Chapter 8: Global Autonomous Train Technology Market, By Region
8.1. Overview
8.2. North America.
8.2.1. Market Size And Forecast, By Grade of Automation
8.2.2. Market Size And Forecast, By Train Type
8.2.3. Market Size And Forecast, By Technology
8.2.4. Market Size And Forecast, By Component
8.2.4.1. U.S.
8.2.4.1.1. Market Size And Forecast, By Grade of Automation
8.2.4.1.2. Market Size And Forecast, By Train Type
8.2.4.1.3. Market Size And Forecast, By Technology
8.2.4.1.4. Market Size And Forecast, By Component
8.2.4.2. Canada
8.2.4.2.1. Market Size And Forecast, By Grade of Automation
8.2.4.2.2. Market Size And Forecast, By Train Type
8.2.4.2.3. Market Size And Forecast, By Technology
8.2.4.2.4. Market Size And Forecast, By Component
8.2.4.3. Mexico
8.2.4.3.1. Market Size And Forecast, By Grade of Automation
8.2.4.3.2. Market Size And Forecast, By Train Type
8.2.4.3.3. Market Size And Forecast, By Technology
8.2.4.3.4. Market Size And Forecast, By Component
8.3. Europe
8.3.1. Market Size And Forecast, By Grade of Automation
8.3.2. Market Size And Forecast, By Train Type
8.3.3. Market Size And Forecast, By Technology
8.3.4. Market Size And Forecast, By Component
8.3.4.1. U.K.
8.3.4.1.1. Market Size And Forecast, By Grade of Automation
8.3.4.1.2. Market Size And Forecast, By Train Type
8.3.4.1.3. Market Size And Forecast, By Technology
8.3.4.1.4. Market Size And Forecast, By Component
8.3.4.2. France
8.3.4.2.1. Market Size And Forecast, By Grade of Automation
8.3.4.2.2. Market Size And Forecast, By Train Type
8.3.4.2.3. Market Size And Forecast, By Technology
8.3.4.2.4. Market Size And Forecast, By Component
8.3.4.3. Germany
8.3.4.3.1. Market Size And Forecast, By Grade of Automation
8.3.4.3.2. Market Size And Forecast, By Train Type
8.3.4.3.3. Market Size And Forecast, By Technology
8.3.4.3.4. Market Size And Forecast, By Component
8.3.4.4. Russia
8.3.4.4.1. Market Size And Forecast, By Grade of Automation
8.3.4.4.2. Market Size And Forecast, By Train Type
8.3.4.4.3. Market Size And Forecast, By Technology
8.3.4.4.4. Market Size And Forecast, By Component
8.3.4.5. Italy
8.3.4.5.1. Market Size And Forecast, By Grade of Automation
8.3.4.5.2. Market Size And Forecast, By Train Type
8.3.4.5.3. Market Size And Forecast, By Technology
8.3.4.5.4. Market Size And Forecast, By Component
8.3.4.6. Rest of Europe
8.3.4.6.1. Market Size And Forecast, By Grade of Automation
8.3.4.6.2. Market Size And Forecast, By Train Type
8.3.4.6.3. Market Size And Forecast, By Technology
8.3.4.6.4. Market Size And Forecast, By Component
8.4. Asia-Pacific
8.4.1. Market Size And Forecast, By Grade of Automation
8.4.2. Market Size And Forecast, By Train Type
8.4.3. Market Size And Forecast, By Technology
8.4.4. Market Size And Forecast, By Component
8.4.4.1. China
8.4.4.1.1. Market Size And Forecast, By Grade of Automation
8.4.4.1.2. Market Size And Forecast, By Train Type
8.4.4.1.3. Market Size And Forecast, By Technology
8.4.4.1.4. Market Size And Forecast, By Component
8.4.4.2. India
8.4.4.2.1. Market Size And Forecast, By Grade of Automation
8.4.4.2.2. Market Size And Forecast, By Train Type
8.4.4.2.3. Market Size And Forecast, By Technology
8.4.4.2.4. Market Size And Forecast, By Component
8.4.4.3. Japan
8.4.4.3.1. Market Size And Forecast, By Grade of Automation
8.4.4.3.2. Market Size And Forecast, By Train Type
8.4.4.3.3. Market Size And Forecast, By Technology
8.4.4.3.4. Market Size And Forecast, By Component
8.4.4.4. South Korea
8.4.4.4.1. Market Size And Forecast, By Grade of Automation
8.4.4.4.2. Market Size And Forecast, By Train Type
8.4.4.4.3. Market Size And Forecast, By Technology
8.4.4.4.4. Market Size And Forecast, By Component
8.4.4.5. Singapore
8.4.4.5.1. Market Size And Forecast, By Grade of Automation
8.4.4.5.2. Market Size And Forecast, By Train Type
8.4.4.5.3. Market Size And Forecast, By Technology
8.4.4.5.4. Market Size And Forecast, By Component
8.4.4.6. Rest of Asia-Pacific
8.4.4.6.1. Market Size And Forecast, By Grade of Automation
8.4.4.6.2. Market Size And Forecast, By Train Type
8.4.4.6.3. Market Size And Forecast, By Technology
8.4.4.6.4. Market Size And Forecast, By Component
8.5. Lamea
8.5.1. Market Size And Forecast, By Grade of Automation
8.5.2. Market Size And Forecast, By Train Type
8.5.3. Market Size And Forecast, By Technology
8.5.4. Market Size And Forecast, By Component
8.5.4.1. Latin America
8.5.4.1.1. Market Size And Forecast, By Grade of Automation
8.5.4.1.2. Market Size And Forecast, By Train Type
8.5.4.1.3. Market Size And Forecast, By Technology
8.5.4.1.4. Market Size And Forecast, By Component
8.5.4.2. Middle East
8.5.4.2.1. Market Size And Forecast, By Grade of Automation
8.5.4.2.2. Market Size And Forecast, By Train Type
8.5.4.2.3. Market Size And Forecast, By Technology
8.5.4.2.4. Market Size And Forecast, By Component
8.5.4.3. Africa
8.5.4.3.1. Market Size And Forecast, By Grade of Automation
8.5.4.3.2. Market Size And Forecast, By Train Type
8.5.4.3.3. Market Size And Forecast, By Technology
8.5.4.3.4. Market Size And Forecast, By Component
