Description
Urbanization Expansion Drives the Development of the Market
Urbanization is largely propelling the growth of the autonomous train industry, as urban populations grow the demand increases for effective and efficient means of transportation to ease congestion and enhance public transportation systems. Autonomous trains provide a quicker, secure, and cleaner mode of transport, overcoming the issues presented by high-density urban regions. According to the statistics released by the Our World in Data, 4.61 billion of world population were living in urban communities during 2023. As the cities grow, autonomous trains offer a sustainable option to upgrade public transportation systems, increase safety, and lower operation costs, ultimately leading to more environmentally friendly urban transportation.
Rising Government Investment in Development of Railway Infrastructure Propels Market Growth
The increased government investment in railway infrastructure by various nations globally further drives the market growth by offering the proper funding to implement and develop autonomous train technology on existing tracks, contributing a supportive atmosphere for innovation of these advanced trains technologies. For instance, the U.S. Department of Transportation revealed over USD 2.4 billion in funding for 122 rail projects across 41 states. Likewise, in India the Union Budget 2023-24 had allocated a capital outlay of approximately USD 29 billion to the Ministry of Railways, a record high level of investment and nearly nine times that granted in 2013-14. With governments investment to modernize rail networks, the inclusion of autonomous technologies remains central, thereby driving market expansion.
Innovative Initiatives Adopted by Primary Companies Drives Market Expansion
The rise in innovative strategies adopted by primary companies involved in this industry expands the market growth by bringing up latest advanced technologies that demonstrates a concrete step towards wider adoption of automated train technology on existing rail networks. For example, in September 2024, Alstom developed the ARTE (Autonomous Regional Train Evolution) project that is set to support the digitalization of the Canadian rail network through implementing automated train operations without the need for additional trackside equipment. Similarly, in January 2024, Siemens Mobility completed transitioning Paris Metro to fully driverless operation under Grade of Automation 4 (GoA4). The automation process started with four trains operating in driverless mode alongside manually-driven trains. This initiative advances the technologies involved in it, thereby driving the autonomous train market growth.
High Initial Investment Hinders the Growth of the Market
High upfront investment is a major hindrance to the expansion of the autonomous train market. The investment needed in refurbishing current railway networks with more sophisticated automation technologies is high, thus serving as an entry barrier for developing countries.
Integration of Smart Rail Networks Provides Future Opportunities
The integration of intelligent rail networks offers a major market opportunity by allowing for greater operational efficiency, ultimately resulting in improved connectivity and more sustainable transportation systems in urban and intercity regions.
Market Segmentations and Scope of the Study
The autonomous train market report is segmented on the basis of train type, automation grade, technology, infrastructure type, application, and region. Based on application the market is divided into suburban trains, monorail, subway/metro, and long-distance trains. On the basis of automation grade the industry is divided into GoA 1, GoA 2, GoA 3, and GoA 4. Based on technology the market is segmented into, automatic train control (ATC), communication-based train control (CBTC), European railway traffic management system (ERTMS), and positive train control (PTC). Based on infrastructure type the market is divided into, dedicated tracks, shared tracks, hybrid tracks, and virtual tracks. By application the market is divided into, passenger train, freight train, mining train. The regional breakdown includes region such as North America, Europe, Asia-Pacific, and Rest of the world.
Geographical Analysis
Asia-Pacific region leads the autonomous train market share and is projected to continue doing so throughout the forecast period. The developmental strategies adopted by the market players present in the region drives the expansion of the industry by adding up latest technologies into the autonomous rail systems. For example, in January 2025, Titagarh Rail introduced India’s first driverless Make-in-India trainset to Bengaluru Metro. Such advancement highlights the regions progress in urban mobility thereby driving market growth.
Additionally, increase in urbanization across the region also drives the growth of the market further as more efficient, high-capacity public transport systems such as self-driving trains in densely populated metropolitan areas are in demand. According to the most recent statistics released by the Central Intelligence Agency, 64.6% of the entire population of China lived in cities in 2023. With growing cities and greater population densities, the autonomous train market demand for effective, high-density public transport networks grows significantly.
Conversely, North America is demonstrating a consistent expansion in the market and is anticipated to continue doing the same in the forecast period. This is attributed to the adoption of development strategies by government of the region that signify a major step towards the extensive application of automated train systems in existing railway networks. In January 2025, The Federal Railroad Administration (FRA) of the U.S. authorized the Parallel Systems autonomous train test program. Such surge in innovative initiatives drive market expansion by advancing various technologies into the rail systems.
In addition, the increased government investment in railway infrastructure is also boosting the market growth in the region by investing in efficient of rail networks. For example, the Canadian government spent USD 22.1 million on different railway infrastructure developments during 2025. The spending not only helps in the upgrading of current rail networks but also facilitates the integration of innovative technologies including autonomous train systems.
Competitive Landscape
The autonomous train industry comprises of various key players such as Siemens Mobility, Alstom, Hitachi Rail, Thales Group, Mitsubishi Heavy Industries, Hyundai Rotem, Kawasaki Heavy Industries, Wabtec Corporation, CAF, China Railway Rolling Stock Corporation, Stadler Rail, OTIV, Infotrans, DB Cargo AG, INGETEAM, and others. These companies are adopting various strategies including partnership and business expansion to stay competitive and maintain their market positions.
For example, Alstom secured a contract to supply fifteen additional automated metro trainsets in January 2025, enhancing the fleet to a total of 42 trains. These trains will feature the Urbalis Fluence signaling system, improving efficiency and passenger experience.
Further, in August 2023, Siemens Mobility collaborated with OBB to advance the digitization of the rail network of Austria by adopting the European Train Control System Level 2. The purpose of this program is to double the capacity of the rail network by 2040, and increasing the foundation for autonomous driving at optimal speed.
Key Benefits
• The autonomous train market report provides the quantitative analysis of the current market and estimations from 2025 to 2030. This analysis assists in identifying the prevailing market opportunities to capitalize on.
• The study comprises of a detailed analysis of the current and future autonomous train market trends for depicting the prevalent investment pockets in the industry.
• The information related to key drivers, restraints, and opportunities and their impact on the autonomous train market is provided in the report.
• The competitive analysis of the market players along with their market share in the autonomous train market is mentioned.
• The SWOT analysis and Porter’s Five Forces model are elaborated in the study.
• The value chain analysis in the market study provides a clear picture of the stakeholders’ roles.
Autonomous Train Market Key Segments
By Train Type
• Suburban Trains
• Monorail
• Subway/Metro
• Long-Distance Trains
By Automation Grade
• GoA 1
• GoA 2
• GoA 3
• GoA 4
By Technology
• Automatic Train Control (ATC)
• Communication-Based Train Control (CBTC)
• European Railway Traffic Management System (ERTMS)
• Positive Train Control (PTC)
By Infrastructure Type
• Dedicated Tracks
• Shared Tracks
• Hybrid Tracks
• Virtual Tracks
By Application
• Passenger Train
• Freight Train
• Mining Train
Key Players
• Siemens Mobility
• Alstom
• Hitachi Rail
• Thales Group
• Mitsubishi Heavy Industries
• Hyundai Rotem
• Kawasaki Heavy Industries
• Wabtec Corporation
• CAF
• China Railway Rolling Stock Corporation
• Stadler Rail
• OTIV
• Infotrans
• DB Cargo AG
• INGETEAM
Table of Contents
1 INTRODUCTION
1.1 REPORT DESCRIPTION
1.2 RESEARCH METHODOLOGY
1.2.1 SECONDARY RESEARCH
1.2.2 DATA ANALYSIS FRAMEWORK
1.2.3 MARKET SIZE ESTIMATION
1.2.4 FORECASTING
1.2.5 PRIMARY RESEARCH AND DATA VALIDATION
2 GLOBAL AUTONOMOUS TRAIN COMPONENTS MARKET BY COMPONENT
2.1 OVERVIEW
2.2 SENSORS
2.2.1 SENSORS MARKET, BY REGION
2.2.1.1 NORTH AMERICA SENSORS MARKET, BY COUNTRY
2.2.1.2 EUROPE SENSORS MARKET, BY COUNTRY
2.2.1.3 ASIA-PACIFIC SENSORS MARKET, BY COUNTRY
2.2.1.4 REST OF THE WORLD SENSORS MARKET, BY COUNTRY
2.3 COMMUNICATION SYSTEMS
2.3.1 COMMUNICATION SYSTEMS MARKET, BY REGION
2.3.1.1 NORTH AMERICA COMMUNICATION SYSTEMS MARKET, BY COUNTRY
2.3.1.2 EUROPE COMMUNICATION SYSTEMS MARKET, BY COUNTRY
2.3.1.3 ASIA-PACIFIC COMMUNICATION SYSTEMS MARKET, BY COUNTRY
2.3.1.4 REST OF THE WORLD COMMUNICATION SYSTEMS MARKET, BY COUNTRY
2.4 CONTROL AND AUTOMATION SYSTEMS
2.4.1 CONTROL AND AUTOMATION SYSTEMS MARKET, BY REGION
2.4.1.1 NORTH AMERICA CONTROL AND AUTOMATION SYSTEMS MARKET, BY COUNTRY
2.4.1.2 EUROPE CONTROL AND AUTOMATION SYSTEMS MARKET, BY COUNTRY
2.4.1.3 ASIA-PACIFIC CONTROL AND AUTOMATION SYSTEMS MARKET, BY COUNTRY
2.4.1.4 REST OF THE WORLD CONTROL AND AUTOMATION SYSTEMS MARKET, BY COUNTRY
2.5 POWER SUPPLY SYSTEMS
2.5.1 POWER SUPPLY SYSTEMS MARKET, BY REGION
2.5.1.1 NORTH AMERICA POWER SUPPLY SYSTEMS MARKET, BY COUNTRY
2.5.1.2 EUROPE POWER SUPPLY SYSTEMS MARKET, BY COUNTRY
2.5.1.3 ASIA-PACIFIC POWER SUPPLY SYSTEMS MARKET, BY COUNTRY
2.5.1.4 REST OF THE WORLD POWER SUPPLY SYSTEMS MARKET, BY COUNTRY
2.6 SAFETY COMPONENTS
2.6.1 SAFETY COMPONENTS MARKET, BY REGION
2.6.1.1 NORTH AMERICA SAFETY COMPONENTS MARKET, BY COUNTRY
2.6.1.2 EUROPE SAFETY COMPONENTS MARKET, BY COUNTRY
2.6.1.3 ASIA-PACIFIC SAFETY COMPONENTS MARKET, BY COUNTRY
2.6.1.4 REST OF THE WORLD SAFETY COMPONENTS MARKET, BY COUNTRY
2.7 SIGNALING SYSTEMS
2.7.1 SIGNALING SYSTEMS MARKET, BY REGION
2.7.1.1 NORTH AMERICA SIGNALING SYSTEMS MARKET, BY COUNTRY
2.7.1.2 EUROPE SIGNALING SYSTEMS MARKET, BY COUNTRY
2.7.1.3 ASIA-PACIFIC SIGNALING SYSTEMS MARKET, BY COUNTRY
2.7.1.4 REST OF THE WORLD SIGNALING SYSTEMS MARKET, BY COUNTRY
3 GLOBAL AUTONOMOUS TRAIN COMPONENTS MARKET BY TECHNOLOGY
3.1 OVERVIEW
3.2 COMMUNICATION-BASED TRAIN CONTROL (CBTC)
3.2.1 COMMUNICATION-BASED TRAIN CONTROL (CBTC) MARKET, BY REGION
3.2.1.1 NORTH AMERICA COMMUNICATION-BASED TRAIN CONTROL (CBTC) MARKET, BY COUNTRY
3.2.1.2 EUROPE COMMUNICATION-BASED TRAIN CONTROL (CBTC) MARKET, BY COUNTRY
3.2.1.3 ASIA-PACIFIC COMMUNICATION-BASED TRAIN CONTROL (CBTC) MARKET, BY COUNTRY
3.2.1.4 REST OF THE WORLD COMMUNICATION-BASED TRAIN CONTROL (CBTC) MARKET, BY COUNTRY
3.3 POSITIVE TRAIN CONTROL (PTC)
3.3.1 POSITIVE TRAIN CONTROL (PTC) MARKET, BY REGION
3.3.1.1 NORTH AMERICA POSITIVE TRAIN CONTROL (PTC) MARKET, BY COUNTRY
3.3.1.2 EUROPE POSITIVE TRAIN CONTROL (PTC) MARKET, BY COUNTRY
3.3.1.3 ASIA-PACIFIC POSITIVE TRAIN CONTROL (PTC) MARKET, BY COUNTRY
3.3.1.4 REST OF THE WORLD POSITIVE TRAIN CONTROL (PTC) MARKET, BY COUNTRY
3.4 AUTOMATIC TRAIN CONTROL (ATC)
3.4.1 AUTOMATIC TRAIN CONTROL (ATC) MARKET, BY REGION
3.4.1.1 NORTH AMERICA AUTOMATIC TRAIN CONTROL (ATC) MARKET, BY COUNTRY
3.4.1.2 EUROPE AUTOMATIC TRAIN CONTROL (ATC) MARKET, BY COUNTRY
3.4.1.3 ASIA-PACIFIC AUTOMATIC TRAIN CONTROL (ATC) MARKET, BY COUNTRY
3.4.1.4 REST OF THE WORLD AUTOMATIC TRAIN CONTROL (ATC) MARKET, BY COUNTRY
4 GLOBAL AUTONOMOUS TRAIN COMPONENTS MARKET BY GRADE OF AUTOMATION
4.1 OVERVIEW
4.2 GOA 1: ASSISTED DRIVING
4.2.1 GOA 1: ASSISTED DRIVING MARKET, BY REGION
4.2.1.1 NORTH AMERICA GOA 1: ASSISTED DRIVING MARKET, BY COUNTRY
4.2.1.2 EUROPE GOA 1: ASSISTED DRIVING MARKET, BY COUNTRY
4.2.1.3 ASIA-PACIFIC GOA 1: ASSISTED DRIVING MARKET, BY COUNTRY
4.2.1.4 REST OF THE WORLD GOA 1: ASSISTED DRIVING MARKET, BY COUNTRY
4.3 GOA 2: PARTIAL AUTOMATION
4.3.1 GOA 2: PARTIAL AUTOMATION MARKET, BY REGION
4.3.1.1 NORTH AMERICA GOA 2: PARTIAL AUTOMATION MARKET, BY COUNTRY
4.3.1.2 EUROPE GOA 2: PARTIAL AUTOMATION MARKET, BY COUNTRY
4.3.1.3 ASIA-PACIFIC GOA 2: PARTIAL AUTOMATION MARKET, BY COUNTRY
4.3.1.4 REST OF THE WORLD GOA 2: PARTIAL AUTOMATION MARKET, BY COUNTRY
4.4 GOA 3: CONDITIONAL AUTOMATION
4.4.1 GOA 3: CONDITIONAL AUTOMATION MARKET, BY REGION
4.4.1.1 NORTH AMERICA GOA 3: CONDITIONAL AUTOMATION MARKET, BY COUNTRY
4.4.1.2 EUROPE GOA 3: CONDITIONAL AUTOMATION MARKET, BY COUNTRY
4.4.1.3 ASIA-PACIFIC GOA 3: CONDITIONAL AUTOMATION MARKET, BY COUNTRY
4.4.1.4 REST OF THE WORLD GOA 3: CONDITIONAL AUTOMATION MARKET, BY COUNTRY
4.5 GOA 4: HIGH AUTOMATION
4.5.1 GOA 4: HIGH AUTOMATION MARKET, BY REGION
4.5.1.1 NORTH AMERICA GOA 4: HIGH AUTOMATION MARKET, BY COUNTRY
4.5.1.2 EUROPE GOA 4: HIGH AUTOMATION MARKET, BY COUNTRY
4.5.1.3 ASIA-PACIFIC GOA 4: HIGH AUTOMATION MARKET, BY COUNTRY
4.5.1.4 REST OF THE WORLD GOA 4: HIGH AUTOMATION MARKET, BY COUNTRY
5 GLOBAL AUTONOMOUS TRAIN COMPONENTS MARKET BY TRAIN TYPE
5.1 OVERVIEW
5.2 PASSENGER TRAINS
5.2.1 PASSENGER TRAINS MARKET, BY REGION
5.2.1.1 NORTH AMERICA PASSENGER TRAINS MARKET, BY COUNTRY
5.2.1.2 EUROPE PASSENGER TRAINS MARKET, BY COUNTRY
5.2.1.3 ASIA-PACIFIC PASSENGER TRAINS MARKET, BY COUNTRY
5.2.1.4 REST OF THE WORLD PASSENGER TRAINS MARKET, BY COUNTRY
5.3 FREIGHT TRAINS
5.3.1 FREIGHT TRAINS MARKET, BY REGION
5.3.1.1 NORTH AMERICA FREIGHT TRAINS MARKET, BY COUNTRY
5.3.1.2 EUROPE FREIGHT TRAINS MARKET, BY COUNTRY
5.3.1.3 ASIA-PACIFIC FREIGHT TRAINS MARKET, BY COUNTRY
5.3.1.4 REST OF THE WORLD FREIGHT TRAINS MARKET, BY COUNTRY
6 GLOBAL AUTONOMOUS TRAIN COMPONENTS MARKET, BY REGION
6.1 OVERVIEW
6.2 NORTH AMERICA
6.2.1 NORTH AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.2.2 NORTH AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.2.3 NORTH AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.2.4 NORTH AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.2.5 NORTH AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COUNTRY
6.2.5.1 UNITED STATES
6.2.5.1.1 UNITED STATES AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.2.5.1.2 UNITED STATES AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.2.5.1.3 UNITED STATES AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.2.5.1.4 UNITED STATES AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.2.5.2 CANADA
6.2.5.2.1 CANADA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.2.5.2.2 CANADA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.2.5.2.3 CANADA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.2.5.2.4 CANADA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.2.5.3 MEXICO
6.2.5.3.1 MEXICO AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.2.5.3.2 MEXICO AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.2.5.3.3 MEXICO AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.2.5.3.4 MEXICO AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3 EUROPE
6.3.1 EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.2 EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.3 EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.4 EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5 EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY COUNTRY
6.3.5.1 GERMANY
6.3.5.1.1 GERMANY AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.1.2 GERMANY AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.1.3 GERMANY AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.1.4 GERMANY AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.2 FRANCE
6.3.5.2.1 FRANCE AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.2.2 FRANCE AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.2.3 FRANCE AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.2.4 FRANCE AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.3 ITALY
6.3.5.3.1 ITALY AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.3.2 ITALY AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.3.3 ITALY AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.3.4 ITALY AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.4 SPAIN
6.3.5.4.1 SPAIN AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.4.2 SPAIN AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.4.3 SPAIN AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.4.4 SPAIN AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.5 UNITED KINGDOM
6.3.5.5.1 UNITED KINGDOM AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.5.2 UNITED KINGDOM AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.5.3 UNITED KINGDOM AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.5.4 UNITED KINGDOM AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.6 RUSSIA
6.3.5.6.1 RUSSIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.6.2 RUSSIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.6.3 RUSSIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.6.4 RUSSIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.7 SWEDEN
6.3.5.7.1 SWEDEN AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.7.2 SWEDEN AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.7.3 SWEDEN AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.7.4 SWEDEN AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.8 NORWAY
6.3.5.8.1 NORWAY AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.8.2 NORWAY AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.8.3 NORWAY AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.8.4 NORWAY AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.9 DENMARK
6.3.5.9.1 DENMARK AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.9.2 DENMARK AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.9.3 DENMARK AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.9.4 DENMARK AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.10 NETHERLANDS
6.3.5.10.1 NETHERLANDS AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.10.2 NETHERLANDS AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.10.3 NETHERLANDS AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.10.4 NETHERLANDS AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.11 FINLAND
6.3.5.11.1 FINLAND AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.11.2 FINLAND AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.11.3 FINLAND AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.11.4 FINLAND AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.3.5.12 REST OF EUROPE
6.3.5.12.1 REST OF EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.3.5.12.2 REST OF EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.3.5.12.3 REST OF EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.3.5.12.4 REST OF EUROPE AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4 ASIA-PACIFIC
6.4.1 ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.2 ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.3 ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.4 ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5 ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY COUNTRY
6.4.5.1 AUSTRALIA
6.4.5.1.1 AUSTRALIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.1.2 AUSTRALIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.1.3 AUSTRALIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.1.4 AUSTRALIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.2 CHINA
6.4.5.2.1 CHINA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.2.2 CHINA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.2.3 CHINA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.2.4 CHINA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.3 INDIA
6.4.5.3.1 INDIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.3.2 INDIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.3.3 INDIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.3.4 INDIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.4 JAPAN
6.4.5.4.1 JAPAN AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.4.2 JAPAN AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.4.3 JAPAN AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.4.4 JAPAN AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.5 SOUTH KOREA
6.4.5.5.1 SOUTH KOREA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.5.2 SOUTH KOREA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.5.3 SOUTH KOREA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.5.4 SOUTH KOREA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.6 INDONESIA
6.4.5.6.1 INDONESIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.6.2 INDONESIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.6.3 INDONESIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.6.4 INDONESIA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.7 SINGAPORE
6.4.5.7.1 SINGAPORE AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.7.2 SINGAPORE AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.7.3 SINGAPORE AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.7.4 SINGAPORE AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.8 TAIWAN
6.4.5.8.1 TAIWAN AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.8.2 TAIWAN AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.8.3 TAIWAN AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.8.4 TAIWAN AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.9 THAILAND
6.4.5.9.1 THAILAND AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.9.2 THAILAND AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.9.3 THAILAND AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.9.4 THAILAND AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.4.5.10 REST OF ASIA-PACIFIC
6.4.5.10.1 REST OF ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.4.5.10.2 REST OF ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.4.5.10.3 REST OF ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.4.5.10.4 REST OF ASIA-PACIFIC AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.5 REST OF THE WORLD
6.5.1 REST OF THE WORLD AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.5.2 REST OF THE WORLD AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.5.3 REST OF THE WORLD AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.5.4 REST OF THE WORLD AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.5.5 REST OF THE WORLD AUTONOMOUS TRAIN COMPONENTS MARKET, BY COUNTRY
6.5.5.1 LATIN AMERICA
6.5.5.1.1 LATIN AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.5.5.1.2 LATIN AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.5.5.1.3 LATIN AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.5.5.1.4 LATIN AMERICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.5.5.2 MIDDLE EAST
6.5.5.2.1 MIDDLE EAST AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.5.5.2.2 MIDDLE EAST AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.5.5.2.3 MIDDLE EAST AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.5.5.2.4 MIDDLE EAST AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
6.5.5.3 AFRICA
6.5.5.3.1 AFRICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY COMPONENT
6.5.5.3.2 AFRICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TECHNOLOGY
6.5.5.3.3 AFRICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY GRADE OF AUTOMATION
6.5.5.3.4 AFRICA AUTONOMOUS TRAIN COMPONENTS MARKET, BY TRAIN TYPE
7 COMPANY PROFILES
7.1 THALES GROUP
7.1.1 COMPANY OVERVIEW
7.1.2 COMPANY SNAPSHOT
7.1.3 OPERATING BUSINESS SEGMENTS
7.1.4 PRODUCT PORTFOLIO
7.1.5 BUSINESS PERFORMANCE
7.1.6 BUSINESS SEGMENTS
7.1.7 GEOGRAPHIC SEGMENTS
7.1.8 KEY STRATEGIC MOVES AND DEVELOPMENT
7.1.9 PRIMARY MARKET COMPETITORS
7.2 ALSTOM SA
7.2.1 COMPANY OVERVIEW
7.2.2 COMPANY SNAPSHOT
7.2.3 OPERATING BUSINESS SEGMENTS
7.2.4 PRODUCT PORTFOLIO
7.2.5 BUSINESS PERFORMANCE
7.2.6 BUSINESS SEGMENTS
7.2.7 GEOGRAPHIC SEGMENTS
7.2.8 KEY STRATEGIC MOVES AND DEVELOPMENT
7.2.9 PRIMARY MARKET COMPETITORS
7.3 HITACHI LTD.
7.3.1 COMPANY OVERVIEW
7.3.2 COMPANY SNAPSHOT
7.3.3 OPERATING BUSINESS SEGMENTS
7.3.4 PRODUCT PORTFOLIO
7.3.5 BUSINESS PERFORMANCE
7.3.6 BUSINESS SEGMENTS
7.3.7 GEOGRAPHIC SEGMENTS
7.3.8 KEY STRATEGIC MOVES AND DEVELOPMENT
7.3.9 PRIMARY MARKET COMPETITORS
7.4 WABTEC CORPORATION
7.4.1 COMPANY OVERVIEW
7.4.2 COMPANY SNAPSHOT
7.4.3 OPERATING BUSINESS SEGMENTS
7.4.4 PRODUCT PORTFOLIO
7.4.5 BUSINESS PERFORMANCE
7.4.6 BUSINESS SEGMENTS
7.4.7 GEOGRAPHIC SEGMENTS
7.4.8 KEY STRATEGIC MOVES AND DEVELOPMENT
7.4.9 PRIMARY MARKET COMPETITORS
7.5 SIEMENS AG
7.5.1 COMPANY OVERVIEW
7.5.2 COMPANY SNAPSHOT
7.5.3 OPERATING BUSINESS SEGMENTS
7.5.4 PRODUCT PORTFOLIO
7.5.5 BUSINESS PERFORMANCE
7.5.6 BUSINESS SEGMENTS
7.5.7 GEOGRAPHIC SEGMENTS
7.5.8 KEY STRATEGIC MOVES AND DEVELOPMENT
7.5.9 PRIMARY MARKET COMPETITORS
7.6 CRRC CORPORATION LIMITED
7.6.1 COMPANY OVERVIEW
7.6.2 COMPANY SNAPSHOT
7.6.3 OPERATING BUSINESS SEGMENTS
7.6.4 PRODUCT PORTFOLIO
7.6.5 BUSINESS PERFORMANCE
7.6.6 BUSINESS SEGMENTS
7.6.7 GEOGRAPHIC SEGMENTS
7.6.8 KEY STRATEGIC MOVES AND DEVELOPMENT
7.6.9 PRIMARY MARKET COMPETITORS
7.7 KNORR-BREMSE SYSTEME FÜR SCHIENENFAHRZEUGE GMBH
7.7.1 COMPANY OVERVIEW
7.7.2 COMPANY SNAPSHOT
7.7.3 OPERATING BUSINESS SEGMENTS
7.7.4 PRODUCT PORTFOLIO
7.7.5 BUSINESS PERFORMANCE
7.7.6 BUSINESS SEGMENTS
7.7.7 GEOGRAPHIC SEGMENTS
7.7.8 KEY STRATEGIC MOVES AND DEVELOPMENT
7.7.9 PRIMARY MARKET COMPETITORS
7.8 KAWASAKI HEAVY INDUSTRIES
7.8.1 COMPANY OVERVIEW
7.8.2 COMPANY SNAPSHOT
7.8.3 OPERATING BUSINESS SEGMENTS
7.8.4 PRODUCT PORTFOLIO
7.8.5 BUSINESS PERFORMANCE
7.8.6 BUSINESS SEGMENTS
7.8.7 GEOGRAPHIC SEGMENTS
7.8.8 KEY STRATEGIC MOVES AND DEVELOPMENT
7.8.9 PRIMARY MARKET COMPETITORS
7.9 MITSUBISHI ELECTRIC CORPORATION
7.9.1 COMPANY OVERVIEW
7.9.2 COMPANY SNAPSHOT
7.9.3 OPERATING BUSINESS SEGMENTS
7.9.4 PRODUCT PORTFOLIO
7.9.5 B
