Product Code: A07164
The semi-autonomous and autonomous bus is a robotic vehicle designed to travel between destinations without or minimal human operator. These vehicles combine sensors and software to control, navigate, and drive the vehicle. Moreover, these vehicles use LiDAR and RADAR and several other sensors for its operations. The self-driving systems create and maintain an internal map of their surroundings, based on a wide array of sensors. Artificial Intelligence (AI) software controls all the functionalities related to sensor working and RADAR sensor is used to detect obstacles. Such advance technologies help control these vehicles. Self-driving bus provides advantages such as reduction in accidents caused by driver negligence or error.
The global automotive industry has experienced tremendous transformation in the past few years. The ever-growing demand for passenger safety and comfort is making the vehicle manufacturers focus incessantly on forming new design experiences by enabling efficient incorporation of new technologies and processes. The dramatic change from the usage of ADAS technology for driver convenience is anticipated to fortify the demand for semi-autonomous & autonomous bus market e during the forecast timeframe.
The semi-autonomous & autonomous bus market is segmented on the basis of level of automation, mode of operation, application, propulsion type, and region. By level of automation, it is divided into Level 1, Level 2, Level 3, Level 4, and Level 5. By mode of operation, it is segmented into semi-autonomous, and autonomous. By application, it is divided into shuttle, intracity, and intercity. By propulsion type, the market is divided into electric, and hybrid. By region, the market is analyzed across North America, Europe, Asia-Pacific and LAMEA.
The growth drivers, restraints, and opportunities are explained in the report to better understand the market dynamics. This report further highlights key areas of investments. In addition, it includes Porter's five forces analysis to understand competitive scenario of the industry and role of each stakeholder. The report features strategies adopted by key market players to maintain their foothold in the market. Furthermore, it highlights competitive landscape of key players to increase their market share and sustain intense competition in the industry.
The key players that operate in this market are AB Volvo, Aptiv, BMW, Continental Ag, Denso Corporation, EASYMILE, Intel Corporation, MERCEDES-BENZ GROUP AG, NAVYA Group, NVIDIA Corporation, NXP Semiconductors, PROTERRA, Qualcomm Technologies Inc., Robert Bosch GmbH, Scania, Teague, and ZF Friedrichshafen AG
Key Benefits For Stakeholders
- This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the semi-autonomous & autonomous bus market analysis from 2025 to 2035 to identify the prevailing semi-autonomous & autonomous bus market opportunities.
- The market research is offered along with information related to key drivers, restraints, and opportunities.
- Porter's five forces analysis highlights the potency of buyers and suppliers to enable stakeholders make profit-oriented business decisions and strengthen their supplier-buyer network.
- In-depth analysis of the semi-autonomous & autonomous bus market segmentation assists to determine the prevailing market opportunities.
- Major countries in each region are mapped according to their revenue contribution to the global market.
- Market player positioning facilitates benchmarking and provides a clear understanding of the present position of the market players.
- The report includes the analysis of the regional as well as global semi-autonomous & autonomous bus market trends, key players, market segments, application areas, and market growth strategies.
Key Market Segments
By Level of Automation
- Level 1
- Level 2
- Level 3
- Level 4
- Level 5
By Mode Of Operation
- Semi Autonomous
- Autonomous
By Application
- Shuttle
- Intracity
- Intercity
By Propulsion Type
By Region
- North America
- Europe
- Germany
- France
- Russia
- Netherlands
- United Kingdom
- Poland
- Spain
- Rest of Europe
- Asia-Pacific
- China
- India
- Japan
- South Korea
- Asean
- Rest of Asia-Pacific
- LAMEA
- Brazil
- UAE
- Saudi Arabia
- South Africa
- Rest of LAMEA
- Key Market Players
- AB VOLVO
- Bosch
- Continental
- Denso
- APTIV
- NVIDIA
- DAIMLER
- 2GETTHERE
- LOCAL MOTORS
- PROTERRA
- EASYMILE
- NAVYA
- Qualcomm
- Intel
- Scania
- NXP
- BMW
TABLE OF CONTENTS
CHAPTER 1:INTRODUCTION
- 1.1.Report description
- 1.2.Key market segments
- 1.3.Key benefits to the stakeholders
- 1.4.Research Methodology
- 1.4.1.Secondary research
- 1.4.2.Primary research
- 1.4.3.Analyst tools and models
CHAPTER 2:EXECUTIVE SUMMARY
- 2.1.Key findings of the study
- 2.2.CXO Perspective
CHAPTER 3:MARKET OVERVIEW
- 3.1.Market definition and scope
- 3.2.Key findings
- 3.2.1.Top investment pockets
- 3.3.Porter's five forces analysis
- 3.4.Top player positioning
- 3.5.Market dynamics
- 3.5.1.Drivers
- 3.5.2.Restraints
- 3.5.3.Opportunities
- 3.6.COVID-19 Impact Analysis on the market
CHAPTER 4: SEMI-AUTONOMOUS & AUTONOMOUS BUS MARKET, BY LEVEL OF AUTOMATION
- 4.1 Overview
- 4.1.1 Market size and forecast
- 4.2 Level 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 Level 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 Level 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 Level 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
- 4.6 Level 5
- 4.6.1 Key market trends, growth factors and opportunities
- 4.6.2 Market size and forecast, by region
- 4.6.3 Market analysis by country
CHAPTER 5: SEMI-AUTONOMOUS & AUTONOMOUS BUS MARKET, BY MODE OF OPERATION
- 5.1 Overview
- 5.1.1 Market size and forecast
- 5.2 Semi Autonomous
- 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 Autonomous
- 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: SEMI-AUTONOMOUS & AUTONOMOUS BUS MARKET, BY APPLICATION
- 6.1 Overview
- 6.1.1 Market size and forecast
- 6.2 Shuttle
- 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 Intracity
- 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 Intercity
- 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
CHAPTER 7: SEMI-AUTONOMOUS & AUTONOMOUS BUS MARKET, BY PROPULSION TYPE
- 7.1 Overview
- 7.1.1 Market size and forecast
- 7.2 Electric
- 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 Hybrid
- 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
CHAPTER 8: SEMI-AUTONOMOUS & AUTONOMOUS BUS MARKET, BY REGION
- 8.1 Overview
- 8.1.1 Market size and forecast
- 8.2 North America
- 8.2.1 Key trends and opportunities
- 8.2.2 North America Market size and forecast, by Level of Automation
- 8.2.3 North America Market size and forecast, by Mode Of Operation
- 8.2.4 North America Market size and forecast, by Application
- 8.2.5 North America Market size and forecast, by Propulsion Type
- 8.2.6 North America Market size and forecast, by country
- 8.2.6.1 U.S.
- 8.2.6.1.1 Market size and forecast, by Level of Automation
- 8.2.6.1.2 Market size and forecast, by Mode Of Operation
- 8.2.6.1.3 Market size and forecast, by Application
- 8.2.6.1.4 Market size and forecast, by Propulsion Type
- 8.2.6.2 Canada
- 8.2.6.2.1 Market size and forecast, by Level of Automation
- 8.2.6.2.2 Market size and forecast, by Mode Of Operation
- 8.2.6.2.3 Market size and forecast, by Application
- 8.2.6.2.4 Market size and forecast, by Propulsion Type
- 8.2.6.3 Mexico
- 8.2.6.3.1 Market size and forecast, by Level of Automation
- 8.2.6.3.2 Market size and forecast, by Mode Of Operation
- 8.2.6.3.3 Market size and forecast, by Application
- 8.2.6.3.4 Market size and forecast, by Propulsion Type
- 8.3 Europe
- 8.3.1 Key trends and opportunities
- 8.3.2 Europe Market size and forecast, by Level of Automation
- 8.3.3 Europe Market size and forecast, by Mode Of Operation
- 8.3.4 Europe Market size and forecast, by Application
- 8.3.5 Europe Market size and forecast, by Propulsion Type
- 8.3.6 Europe Market size and forecast, by country
- 8.3.6.1 Germany
- 8.3.6.1.1 Market size and forecast, by Level of Automation
- 8.3.6.1.2 Market size and forecast, by Mode Of Operation
- 8.3.6.1.3 Market size and forecast, by Application
- 8.3.6.1.4 Market size and forecast, by Propulsion Type
- 8.3.6.2 France
- 8.3.6.2.1 Market size and forecast, by Level of Automation
- 8.3.6.2.2 Market size and forecast, by Mode Of Operation
- 8.3.6.2.3 Market size and forecast, by Application
- 8.3.6.2.4 Market size and forecast, by Propulsion Type
- 8.3.6.3 Russia
- 8.3.6.3.1 Market size and forecast, by Level of Automation
- 8.3.6.3.2 Market size and forecast, by Mode Of Operation
- 8.3.6.3.3 Market size and forecast, by Application
- 8.3.6.3.4 Market size and forecast, by Propulsion Type
- 8.3.6.4 Netherlands
- 8.3.6.4.1 Market size and forecast, by Level of Automation
- 8.3.6.4.2 Market size and forecast, by Mode Of Operation
- 8.3.6.4.3 Market size and forecast, by Application
- 8.3.6.4.4 Market size and forecast, by Propulsion Type
- 8.3.6.5 United Kingdom
- 8.3.6.5.1 Market size and forecast, by Level of Automation
- 8.3.6.5.2 Market size and forecast, by Mode Of Operation
- 8.3.6.5.3 Market size and forecast, by Application
- 8.3.6.5.4 Market size and forecast, by Propulsion Type
- 8.3.6.6 Poland
- 8.3.6.6.1 Market size and forecast, by Level of Automation
- 8.3.6.6.2 Market size and forecast, by Mode Of Operation
- 8.3.6.6.3 Market size and forecast, by Application
- 8.3.6.6.4 Market size and forecast, by Propulsion Type
- 8.3.6.7 Spain
- 8.3.6.7.1 Market size and forecast, by Level of Automation
- 8.3.6.7.2 Market size and forecast, by Mode Of Operation
- 8.3.6.7.3 Market size and forecast, by Application
- 8.3.6.7.4 Market size and forecast, by Propulsion Type
- 8.3.6.8 Rest of Europe
- 8.3.6.8.1 Market size and forecast, by Level of Automation
- 8.3.6.8.2 Market size and forecast, by Mode Of Operation
- 8.3.6.8.3 Market size and forecast, by Application
- 8.3.6.8.4 Market size and forecast, by Propulsion Type
- 8.4 Asia-Pacific
- 8.4.1 Key trends and opportunities
- 8.4.2 Asia-Pacific Market size and forecast, by Level of Automation
- 8.4.3 Asia-Pacific Market size and forecast, by Mode Of Operation
- 8.4.4 Asia-Pacific Market size and forecast, by Application
- 8.4.5 Asia-Pacific Market size and forecast, by Propulsion Type
- 8.4.6 Asia-Pacific Market size and forecast, by country
- 8.4.6.1 China
- 8.4.6.1.1 Market size and forecast, by Level of Automation
- 8.4.6.1.2 Market size and forecast, by Mode Of Operation
- 8.4.6.1.3 Market size and forecast, by Application
- 8.4.6.1.4 Market size and forecast, by Propulsion Type
- 8.4.6.2 India
- 8.4.6.2.1 Market size and forecast, by Level of Automation
- 8.4.6.2.2 Market size and forecast, by Mode Of Operation
- 8.4.6.2.3 Market size and forecast, by Application
- 8.4.6.2.4 Market size and forecast, by Propulsion Type
- 8.4.6.3 Japan
- 8.4.6.3.1 Market size and forecast, by Level of Automation
- 8.4.6.3.2 Market size and forecast, by Mode Of Operation
- 8.4.6.3.3 Market size and forecast, by Application
- 8.4.6.3.4 Market size and forecast, by Propulsion Type
- 8.4.6.4 South Korea
- 8.4.6.4.1 Market size and forecast, by Level of Automation
- 8.4.6.4.2 Market size and forecast, by Mode Of Operation
- 8.4.6.4.3 Market size and forecast, by Application
- 8.4.6.4.4 Market size and forecast, by Propulsion Type
- 8.4.6.5 Asean
- 8.4.6.5.1 Market size and forecast, by Level of Automation
- 8.4.6.5.2 Market size and forecast, by Mode Of Operation
- 8.4.6.5.3 Market size and forecast, by Application
- 8.4.6.5.4 Market size and forecast, by Propulsion Type
- 8.4.6.6 Rest of Asia-Pacific
- 8.4.6.6.1 Market size and forecast, by Level of Automation
- 8.4.6.6.2 Market size and forecast, by Mode Of Operation
- 8.4.6.6.3 Market size and forecast, by Application
- 8.4.6.6.4 Market size and forecast, by Propulsion Type
- 8.5 LAMEA
- 8.5.1 Key trends and opportunities
- 8.5.2 LAMEA Market size and forecast, by Level of Automation
- 8.5.3 LAMEA Market size and forecast, by Mode Of Operation
- 8.5.4 LAMEA Market size and forecast, by Application
- 8.5.5 LAMEA Market size and forecast, by Propulsion Type
- 8.5.6 LAMEA Market size and forecast, by country
- 8.5.6.1 Brazil
- 8.5.6.1.1 Market size and forecast, by Level of Automation
- 8.5.6.1.2 Market size and forecast, by Mode Of Operation
- 8.5.6.1.3 Market size and forecast, by Application
- 8.5.6.1.4 Market size and forecast, by Propulsion Type
- 8.5.6.2 UAE
- 8.5.6.2.1 Market size and forecast, by Level of Automation
- 8.5.6.2.2 Market size and forecast, by Mode Of Operation
- 8.5.6.2.3 Market size and forecast, by Application
- 8.5.6.2.4 Market size and forecast, by Propulsion Type
- 8.5.6.3 Saudi Arabia
- 8.5.6.3.1 Market size and forecast, by Level of Automation
- 8.5.6.3.2 Market size and forecast, by Mode Of Operation
- 8.5.6.3.3 Market size and forecast, by Application
- 8.5.6.3.4 Market size and forecast, by Propulsion Type
- 8.5.6.4 South Africa
- 8.5.6.4.1 Market size and forecast, by Level of Automation
- 8.5.6.4.2 Market size and forecast, by Mode Of Operation
- 8.5.6.4.3 Market size and forecast, by Application
- 8.5.6.4.4 Market size and forecast, by Propulsion Type
- 8.5.6.5 Rest of LAMEA
- 8.5.6.5.1 Market size and forecast, by Level of Automation
- 8.5.6.5.2 Market size and forecast, by Mode Of Operation
- 8.5.6.5.3 Market size and forecast, by Application
- 8.5.6.5.4 Market size and forecast, by Propulsion Type
CHAPTER 9: COMPANY LANDSCAPE
- 9.1. Introduction
- 9.2. Top winning strategies
- 9.3. Product Mapping of Top 10 Player
- 9.4. Competitive Dashboard
- 9.5. Competitive Heatmap
- 9.6. Key developments
CHAPTER 10: COMPANY PROFILES
- 10.1 AB VOLVO
- 10.1.1 Company overview
- 10.1.2 Company snapshot
- 10.1.3 Operating business segments
- 10.1.4 Product portfolio
- 10.1.5 Business performance
- 10.1.6 Key strategic moves and developments
- 10.2 Bosch
- 10.2.1 Company overview
- 10.2.2 Company snapshot
- 10.2.3 Operating business segments
- 10.2.4 Product portfolio
- 10.2.5 Business performance
- 10.2.6 Key strategic moves and developments
- 10.3 Continental
- 10.3.1 Company overview
- 10.3.2 Company snapshot
- 10.3.3 Operating business segments
- 10.3.4 Product portfolio
- 10.3.5 Business performance
- 10.3.6 Key strategic moves and developments
- 10.4 Denso
- 10.4.1 Company overview
- 10.4.2 Company snapshot
- 10.4.3 Operating business segments
- 10.4.4 Product portfolio
- 10.4.5 Business performance
- 10.4.6 Key strategic moves and developments
- 10.5 APTIV
- 10.5.1 Company overview
- 10.5.2 Company snapshot
- 10.5.3 Operating business segments
- 10.5.4 Product portfolio
- 10.5.5 Business performance
- 10.5.6 Key strategic moves and developments
- 10.6 NVIDIA
- 10.6.1 Company overview
- 10.6.2 Company snapshot
- 10.6.3 Operating business segments
- 10.6.4 Product portfolio
- 10.6.5 Business performance
- 10.6.6 Key strategic moves and developments
- 10.7 DAIMLER
- 10.7.1 Company overview
- 10.7.2 Company snapshot
- 10.7.3 Operating business segments
- 10.7.4 Product portfolio
- 10.7.5 Business performance
- 10.7.6 Key strategic moves and developments
- 10.8 2GETTHERE
- 10.8.1 Company overview
- 10.8.2 Company snapshot
- 10.8.3 Operating business segments
- 10.8.4 Product portfolio
- 10.8.5 Business performance
- 10.8.6 Key strategic moves and developments
- 10.9 LOCAL MOTORS
- 10.9.1 Company overview
- 10.9.2 Company snapshot
- 10.9.3 Operating business segments
- 10.9.4 Product portfolio
- 10.9.5 Business performance
- 10.9.6 Key strategic moves and developments
- 10.10 PROTERRA
- 10.10.1 Company overview
- 10.10.2 Company snapshot
- 10.10.3 Operating business segments
- 10.10.4 Product portfolio
- 10.10.5 Business performance
- 10.10.6 Key strategic moves and developments
- 10.11 EASYMILE
- 10.11.1 Company overview
- 10.11.2 Company snapshot
- 10.11.3 Operating business segments
- 10.11.4 Product portfolio
- 10.11.5 Business performance
- 10.11.6 Key strategic moves and developments
- 10.12 NAVYA
- 10.12.1 Company overview
- 10.12.2 Company snapshot
- 10.12.3 Operating business segments
- 10.12.4 Product portfolio
- 10.12.5 Business performance
- 10.12.6 Key strategic moves and developments
- 10.13 Qualcomm
- 10.13.1 Company overview
- 10.13.2 Company snapshot
- 10.13.3 Operating business segments
- 10.13.4 Product portfolio
- 10.13.5 Business performance
- 10.13.6 Key strategic moves and developments
- 10.14 Intel
- 10.14.1 Company overview
- 10.14.2 Company snapshot
- 10.14.3 Operating business segments
- 10.14.4 Product portfolio
- 10.14.5 Business performance
- 10.14.6 Key strategic moves and developments
- 10.15 Scania
- 10.15.1 Company overview
- 10.15.2 Company snapshot
- 10.15.3 Operating business segments
- 10.15.4 Product portfolio
- 10.15.5 Business performance
- 10.15.6 Key strategic moves and developments
- 10.16 NXP
- 10.16.1 Company overview
- 10.16.2 Company snapshot
- 10.16.3 Operating business segments
- 10.16.4 Product portfolio
- 10.16.5 Business performance
- 10.16.6 Key strategic moves and developments
- 10.17 BMW
- 10.17.1 Company overview
- 10.17.2 Company snapshot
- 10.17.3 Operating business segments
- 10.17.4 Product portfolio
- 10.17.5 Business performance
- 10.17.6 Key strategic moves and developments