Status : Published | Published On : Dec, 2023 | Report Code : VRAT9614 | Industry : Automotive & Transportation | Available Format : | Page : 200 |
The Global Test Automation Systems For Powertrain Dynamometer Market is anticipated to grow from USD 0.639 billion in 2023 to USD 1.07 billion by 2030, registering a CAGR of 5.78% during the forecast period by 2030.
Powertrain dynamometer test automation systems are integrated interfaces for performing, manipulating, recording, and analyzing various tests in test rigs. These technologies help technicians, engineers, and scientists run various experiments with more precision and in less time and offer safety, durability, long life, and high performance. Continuous technical improvements in the automotive sector, which have resulted in the advent of new-age vehicles, along with constantly changing transportation rules have raised the necessity for rigorous testing. As a result, the volume of testing operations, workload, and complexity are growing, propelling the global test automation systems for the powertrain dynamometer market forward.
The COVID-19 pandemic has hindered the growth of various industry verticals globally and has posed various challenges to sustaining the market. Vehicle production has been temporarily halted owing to stringent lockdowns by the government to stop the spread of infectious coronavirus, resulting in a loss of revenue to the businesses. As a result, there is a decrease in demand and usage of test automation systems for dynamometers.
Market Segmentation
Insight by Communication
Based on communication, the global test automation systems for the powertrain dynamometer market are divided into Mobile, FlexRay, Web, Embedded Software, CAN Bus, and Others. The embedded software is subdivided into Modbus, Profibus, EtherCAT, and Others. The CAN bus is subdivided into a Digital IO Module, Analog IO Module, Remote IO Module, ECU Connection (J1939), and TCU Connection (Linux). The CAN Bus contributes to the largest share in the market owing to its lower cost, robustness, speed, and flexibility and defines the frame structure involving multiple protocol layers. Moreover, CAN (controlled area network) involves standards that specify how communication occurs, how the wiring is built, and how messages are created. Thus, the whole system is called the CAN bus. The mobile and web communication category is anticipated to grow at a high CAGR due to remote working capabilities. Moreover, the installation and commission of electric powertrain test systems and training and technical support are offered to customers remotely to achieve high test demands.
Insight by Propulsion
Based on propulsion, the test automation system for the powertrain dynamometer market is bifurcated into internal combustion engine (IC) and electric. The electricity is further divided into battery electric, hybrid electric, and plug-in hybrid electric. The electric dominates the test automation system for the powertrain dynamometer market as it tests break-in, durability, high load, transient, and steady-state temperature, and noise, vibration, and harshness. For instance, SAKOR technologies Hybrid/Electric Vehicle Powertrain Dynamometer Test System (HEViDyne) offers a complete solution for performance, efficiency, and durability testing on all-electric vehicles. Moreover, HEViDyne is power efficient and saves thousands of dollars in operating costs per year for the customers.
Insight by Testing Type
Based on testing type, the test automation systems for the powertrain dynamometer market are divided into durability tests, performance tests, vehicle simulations, and others. Performance testing contributes to a significant proportion of the global test automation systems for the powertrain dynamometer market owing to the increasing severity of vehicle regulations. For instance, the Horiba FQ series (Fuel Flow Measurement Systems) measures a vehicle’s fuel flow via a precise system that can conduct stationary and transient tests. High reproducibility and run cycle measurements in real-world settings, including WLTP, are also possible. The systems are suitable for a wide range of applications that include durability, mapping, performance testing, and climate and emissions tests and can use either the positive displacement principle or the Coriolis measurement concept.
Insight by Vehicle Type
Based on vehicle type, the test automation systems for the powertrain dynamometer market are divided into passenger vehicles, light commercial vehicles, heavy-duty trucks, buses & coaches, motorcycles, power generation sets, motorsports, Powersports, and agricultural vehicles. The motorsports are subdivided into autocross, hill climbing, karting, circuit racing, rallycross, and others. The Powersports are subdivided into a snowmobiles, trikes, ATVs, UTVs, jet skis, and others. The agriculture vehicle is subdivided into less than 30 HP, 30-100 HP, 101-200 HP, and more than 200 HP. The passenger vehicle dominates the global test automation systems for the powertrain dynamometer market owing to the increased production, continuous development of next-generation vehicles, and R&D activities on passenger vehicles. Furthermore, there will be significant growth in the sale of agricultural vehicles owing to the surging demand for food and a relative decrease in agricultural land, resulting in the mechanization of the agricultural sector and propelling the sale of tractors, harvesters, and other farm machinery.
Report Metric |
Details |
Historical Period |
2018 - 2023 |
Base Year Considered |
2024 |
Forecast Period |
2025 - 2030 |
Market Size in 2023 |
U.S.D. 0.639 Billion |
Revenue Forecast in 2030 |
U.S.D. 1.07 Billion |
Growth Rate |
5.78% |
Segments Covered in the Report |
By Communication, By Propulsion, By Testing Type, and By Vehicle Type |
Report Scope |
Market Trends, Drivers, and Restraints; Revenue Estimation and Forecast; Segmentation Analysis; Impact of COVID-19; Companies’ Strategic Developments; Market Share Analysis of Key Players; Company Profiling |
Regions Covered in the Report |
North America, Europe, Asia-Pacific, Middle East, and Rest of the World |
Industry Dynamics
Industry Trends
The mounting regulations and stringent guidelines by transport regulation agencies have propelled the performance and emission testing level of vehicles. For example, in 2021, China and India introduced new emission standards, China 6 and BS-VI, respectively, the US Environmental Protection Agency has recommended strengthening federal greenhouse gas (GHG) emissions regulations for passenger cars.
Growth Drivers
Due to continued technological breakthroughs, an increase in the frequency of accidents, and rising emission levels, the global automobile industry is undergoing significant legislative alterations. Agencies like the U.S. NHTSA, and the Indian Ministry of Road Transport and Highways have set up new guidelines for vehicle safety. This has resulted in the rising demand for sophisticated powertrain variants by automotive companies. Also, the test volumes that include extensive and complex test cycles have increased owing to the stringent global legislation. This resulted in the adoption of automated test systems to perform repetitive and complex tests. Several powertrain dynamometer manufacturers, like Horiba and AVL, are equipping their test cells with cutting-edge automation systems that give operators real-time data and test control. As a result, the requirement for testing infrastructure optimization to comply with changing laws is propelling the global test automation systems for the powertrain dynamometer market forward. Furthermore, automakers are constantly updating their vehicle models by incorporating cutting-edge technologies. The continuing development of new-generation automobiles with innovative powertrains adds to the testing demand and increases the test complexity. As a result, automotive firms, as well as regulatory agencies, research institutes, and service stations, are implementing test automation systems to keep up with the increase in the number and complexity of vehicle tests.
Challenges
The increasing cost and complexity of maintaining extra components will add to the cost of test rigs and hamper the growth of the global test automation systems for the powertrain dynamometer market.
The electronic chip shortage amid the COVID-19 outbreak has affected the vehicle's production and test automation systems, thus hurting the global test automation systems for the powertrain dynamometer market.
Opportunities
The continuous novelties in sensor systems cohesive of high-frequency telemetry technology that aids remote monitoring, recording, or controlling of dynamometer test cells and sophisticated computing technologies like artificial intelligence, Big Data, and cloud improve the analytical performance of automation systems will provide significant growth and investment opportunities for auto manufacturers to develop automation testing for powertrain dynamometers.
Geographic Overview
Europe holds the largest share in the global test automation systems for powertrain dynamometer market owing to the rising presence of industry automakers, rigorous emission & safety regulations for vehicles, and their research and development laboratories in the region. Moreover, the development of the motorsports industry and motorsports events like rallycross and circuit racing will fuel the growth in the region. These motorsports events have led to increasing testing on vehicles by the teams, resulting in increased demand for test automation systems for powertrain dynamometers
Competitive Insight
The industry players are making innovations to perform rapid, flexible, customizing, and tailoring according to the needs of testing applications. They are evolving platforms that aid operational personnel in recording data, analyzing and compiling the test programs, and automatically protecting the test facility against out-of-limit operations.
HORIBA has experience in offering automotive test system solutions. They are evaluating vehicle powertrain components such as the engine, transmission, clutch, torque converter, axles, and brakes and include the entire vehicle. Actuators, sensors, controllers, and simulation and automation software make up these systems.
Some of the key players operating in the global test automation systems for the powertrain dynamometer market: SAKOR Technologies, Rototest, Horiba Automotive, Power Test, Inc., FEV Europe GmbH, Sierra Instruments, Inc., A&D Technology, Dyne Systems, Integral Powertrain Ltd, and AIP GmbH & Co. KG.
Recent Developments by Key Players
SAKOR Technologies (a provider of high-performance dynamometer systems) has provided its Electric Motor Efficiency Testing Dynamometer system to TÜV SÜD for testing and verifying the level of efficiency of electric motors in accordance with a variety of national and international standards, including IEC 60034-2-1; IEEE 112B; Canadian standard C390-93; and IS 12615.
Rototest has set a new standard for Powertrain Dynamometers. The business has offered time-saving and cost-effective solutions without compromising quality and measurement accuracy and is providing R&D to offer unprecedented flexibility to handle tomorrow's challenges. They are offering solutions in various applications including driveability, ADAS, EV/PHEV/HEV, RDE (Real Driving Emission), Road-to-lab, Intelligent Vehicle, HiL/ViL, and Powertrain Functional Testing.
The Test Automation Systems for Powertrain Dynamometer Market report offers a comprehensive market segmentation analysis along with an estimation for the forecast period 2025–2030.
Segments Covered in the Report
Region Covered in the Report
1. Research Overview
1.1. The Report Offers
1.2. Market Coverage
1.2.1. By Communication
1.2.2. By Propulsion
1.2.3. By Testing Type
1.2.4. By Vehicle Type
1.2.5. By Region
1.3. Research Phases
1.4. Limitations
1.5. Market Methodology
1.5.1. Data Sources
1.5.1.1. Primary Research
1.5.1.2. Secondary Research
1.5.2. Methodology
1.5.2.1. Data Exploration
1.5.2.2. Forecast Parameters
1.5.2.3. Data Validation
1.5.2.4. Assumptions
1.5.3. Study Period & Data Reporting Unit
2. Executive Summary
3. Industry Overview
3.1. Industry Dynamics
3.1.1. Market Growth Drivers
3.1.2. Market Restraints
3.1.3. Key Market Trends
3.1.4. Major Opportunities
3.2. Industry Ecosystem
3.2.1. Porter’s Five Forces Analysis
3.2.2. Recent Development Analysis
3.2.3. Value Chain Analysis
3.3. Competitive Insight
3.3.1. Competitive Position of Industry Players
3.3.2. Market Attractive Analysis
3.3.3. Market Share Analysis
4. Global Market Estimate and Forecast
4.1. Global Market Overview
4.2. Global Market Estimate and Forecast to 2030
5. Market Segmentation Estimate and Forecast
5.1. By Communication
5.1.1. Mobile
5.1.1.1. Market Definition
5.1.1.2. Market Estimation and Forecast to 2030
5.1.2. FlexRay
5.1.2.1. Market Definition
5.1.2.2. Market Estimation and Forecast to 2030
5.1.3. Web
5.1.3.1. Market Definition
5.1.3.2. Market Estimation and Forecast to 2030
5.1.4. Embedded Software
5.1.4.1. Market Definition
5.1.4.2. Market Estimation and Forecast to 2030
5.1.5. CAN Bus
5.1.5.1. Market Definition
5.1.5.2. Market Estimation and Forecast to 2030
5.1.6. Others
5.1.6.1. Market Definition
5.1.6.2. Market Estimation and Forecast to 2030
5.2. By Propulsion
5.2.1. Internal Combustion Engine
5.2.1.1. Market Definition
5.2.1.2. Market Estimation and Forecast to 2030
5.2.2. Electric
5.2.2.1. Market Definition
5.2.2.2. Market Estimation and Forecast to 2030
5.3. By Testing Type
5.3.1. Durability Test
5.3.1.1. Market Definition
5.3.1.2. Market Estimation and Forecast to 2030
5.3.2. Performance Test
5.3.2.1. Market Definition
5.3.2.2. Market Estimation and Forecast to 2030
5.3.3. Vehicle Simulation
5.3.3.1. Market Definition
5.3.3.2. Market Estimation and Forecast to 2030
5.3.4. Others
5.3.4.1. Market Definition
5.3.4.2. Market Estimation and Forecast to 2030
5.4. By Vehicle Type
5.4.1. Passenger Vehicle
5.4.1.1. Market Definition
5.4.1.2. Market Estimation and Forecast to 2030
5.4.2. Light Commercial Vehicle
5.4.2.1. Market Definition
5.4.2.2. Market Estimation and Forecast to 2030
5.4.3. Heavy Duty Truck
5.4.3.1. Market Definition
5.4.3.2. Market Estimation and Forecast to 2030
5.4.4. Bus & Coach
5.4.4.1. Market Definition
5.4.4.2. Market Estimation and Forecast to 2030
5.4.5. Motorcycle
5.4.5.1. Market Definition
5.4.5.2. Market Estimation and Forecast to 2030
5.4.6. Power Generation Set
5.4.6.1. Market Definition
5.4.6.2. Market Estimation and Forecast to 2030
5.4.7. Motorsports
5.4.7.1. Market Definition
5.4.7.2. Market Estimation and Forecast to 2030
5.4.8. Powersports
5.4.8.1. Market Definition
5.4.8.2. Market Estimation and Forecast to 2030
5.4.9. Agricultural Vehicle
5.4.9.1. Market Definition
5.4.9.2. Market Estimation and Forecast to 2030
6. North America Market Estimate and Forecast
6.1. By Communication
6.2. By Propulsion
6.3. By Testing Type
6.4. By Vehicle Type
6.5. By Country – U.S., Canada, and Mexico
6.5.1. U.S. Market Estimate and Forecast
6.5.2. Canada Market Estimate and Forecast
6.5.3. Mexico Market Estimate and Forecast
7. Europe Market Estimate and Forecast
7.1. By Communication
7.2. By Propulsion
7.3. By Testing Type
7.4. By Vehicle Type
7.5. By Country – Germany, U.K., France, Italy, Spain, Russia, and Rest of Europe
7.5.1. Germany Market Estimate and Forecast
7.5.2. France Market Estimate and Forecast
7.5.3. U.K. Market Estimate and Forecast
7.5.4. Italy Market Estimate and Forecast
7.5.5. Spain Market Estimate and Forecast
7.5.6. Rest of Europe Market Estimate and Forecast
8. Asia-Pacific Market Estimate and Forecast
8.1. By Communication
8.2. By Propulsion
8.3. By Testing Type
8.4. By Vehicle Type
8.5. By Country – China, Japan, India, South Korea, and Rest of Asia-Pacific
8.5.1. China Market Estimate and Forecast
8.5.2. Japan Market Estimate and Forecast
8.5.3. India Market Estimate and Forecast
8.5.4. South Korea Market Estimate and Forecast
8.5.5. Singapore Market Estimate and Forecast
8.5.6. Rest of Asia-Pacific Market Estimate and Forecast
9. Rest of the World (RoW) Market Estimate and Forecast
9.1. By Communication
9.2. By Propulsion
9.3. By Testing Type
9.4. By Vehicle Type
9.5. By Country – Brazil, Saudi Arabia, South Africa, U.A.E., and Other Countries
9.5.1. Brazil Market Estimate and Forecast
9.5.2. Saudi Arabia Market Estimate and Forecast
9.5.3. South Africa Market Estimate and Forecast
9.5.4. Other Countries Market Estimate and Forecast
10. Company Profiles
10.1. SAKOR Technologies
10.1.1. Snapshot
10.1.2. Overview
10.1.3. Offerings
10.1.4. Financial Insight
10.1.5. Recent Developments
10.2. Rototest
10.2.1. Snapshot
10.2.2. Overview
10.2.3. Offerings
10.2.4. Financial Insight
10.2.5. Recent Developments
10.3. Horiba Automotive
10.3.1. Snapshot
10.3.2. Overview
10.3.3. Offerings
10.3.4. Financial Insight
10.3.5. Recent Developments
10.4. Power Test, Inc.
10.4.1. Snapshot
10.4.2. Overview
10.4.3. Offerings
10.4.4. Financial Insight
10.4.5. Recent Developments
10.5. FEV Europe GmbH
10.5.1. Snapshot
10.5.2. Overview
10.5.3. Offerings
10.5.4. Financial Insight
10.5.5. Recent Developments
10.6. Sierra Instruments, Inc
10.6.1. Snapshot
10.6.2. Overview
10.6.3. Offerings
10.6.4. Financial Insight
10.6.5. Recent Developments
10.7. A&D Technology
10.7.1. Snapshot
10.7.2. Overview
10.7.3. Offerings
10.7.4. Financial Insight
10.7.5. Recent Developments
10.8. Dyne Systems
10.8.1. Snapshot
10.8.2. Overview
10.8.3. Offerings
10.8.4. Financial Insight
10.8.5. Recent Developments
10.9. Integral Powertrain Ltd
10.9.1. Snapshot
10.9.2. Overview
10.9.3. Offerings
10.9.4. Financial Insight
10.9.5. Recent Developments
10.10. Integral Powertrain Ltd
10.10.1. Snapshot
10.10.2. Overview
10.10.3. Offerings
10.10.4. Financial Insight
10.10.5. Recent Developments
11. Appendix
11.1. Exchange Rates
11.2. Abbreviations
Note: Financial insight and recent developments of different companies are subject to the availability of information in the secondary domain.
List of Tables
Table 1 Sources
Table 2 Study Periods
Table 3 Data Reporting Unit
Table 4 Global Automation Systems for Powertrain Dynamometer Market, By Communication, 2018–2023 (USD Billion)
Table 5 Global Automation Systems for Powertrain Dynamometer Market, By Communication, 2025–2030 (USD Billion)
Table 6 Global Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018–2023 (USD Billion)
Table 7 Global Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2025–2030 (USD Billion)
Table 8 Global Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018–2023 (USD Billion)
Table 9 Global Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2025–2030 (USD Billion)
Table 10 Global Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018–2023 (USD Billion)
Table 11 Global Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2025–2030 (USD Billion)
Table 12 Global Automation Systems for Powertrain Dynamometer Market, By Region, 2018–2023 (USD Billion)
Table 13 Global Automation Systems for Powertrain Dynamometer Market, By Region, 2025–2030 (USD Billion)
Table 14 North America Automation Systems for Powertrain Dynamometer Market, By Communication, 2018–2023 (USD Billion)
Table 15 North America Automation Systems for Powertrain Dynamometer Market, By Communication, 2025–2030 (USD Billion)
Table 16 North America Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018–2023 (USD Billion)
Table 17 North America Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2025–2030 (USD Billion)
Table 18 North America Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018–2023 (USD Billion)
Table 19 North America Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2025–2030 (USD Billion)
Table 20 North America Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018–2023 (USD Billion)
Table 21 North America Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2025–2030 (USD Billion)
Table 22 North America Automation Systems for Powertrain Dynamometer Market, By Region, 2018–2023 (USD Billion)
Table 23 North America Automation Systems for Powertrain Dynamometer Market, By Region, 2025–2030 (USD Billion)
Table 24 Europe Automation Systems for Powertrain Dynamometer Market, By Communication, 2018–2023 (USD Billion)
Table 25 Europe Automation Systems for Powertrain Dynamometer Market, By Communication, 2025–2030 (USD Billion)
Table 26 Europe Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018–2023 (USD Billion)
Table 27 Europe Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2025–2030 (USD Billion)
Table 28 Europe Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018–2023 (USD Billion)
Table 29 Europe Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2025–2030 (USD Billion)
Table 30 Europe Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018–2023 (USD Billion)
Table 31 Europe Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2025–2030 (USD Billion)
Table 32 Europe Automation Systems for Powertrain Dynamometer Market, By Region, 2018–2023 (USD Billion)
Table 33 Europe Automation Systems for Powertrain Dynamometer Market, By Region, 2025–2030 (USD Billion)
Table 34 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Communication, 2018–2023 (USD Billion)
Table 35 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Communication, 2025–2030 (USD Billion)
Table 36 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018–2023 (USD Billion)
Table 37 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2025–2030 (USD Billion)
Table 38 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018–2023 (USD Billion)
Table 39 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2025–2030 (USD Billion)
Table 40 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018–2023 (USD Billion)
Table 41 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2025–2030 (USD Billion)
Table 42 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Region, 2018–2023 (USD Billion)
Table 43 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Region, 2025–2030 (USD Billion)
Table 44 RoW Automation Systems for Powertrain Dynamometer Market, By Communication, 2018–2023 (USD Billion)
Table 45 RoW Automation Systems for Powertrain Dynamometer Market, By Communication, 2025–2030 (USD Billion)
Table 46 RoW Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018–2023 (USD Billion)
Table 47 RoW Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2025–2030 (USD Billion)
Table 48 RoW Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018–2023 (USD Billion)
Table 49 RoW Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2025–2030 (USD Billion)
Table 50 RoW Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018–2023 (USD Billion)
Table 51 RoW Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2025–2030 (USD Billion)
Table 52 RoW Automation Systems for Powertrain Dynamometer Market, By Region, 2018–2023 (USD Billion)
Table 53 RoW Automation Systems for Powertrain Dynamometer Market, By Region, 2025–2030 (USD Billion)
Table 54 Snapshot – SAKOR Technologies
Table 55 Snapshot – Rototest
Table 56 Snapshot – Horiba Automotive
Table 57 Snapshot – Power Test, Inc.
Table 58 Snapshot – FEV Europe GmbH
Table 59 Snapshot – Sierra Instruments, Inc
Table 60 Snapshot – A&D Technology
Table 61 Snapshot – Dyne Systems
Table 62 Snapshot – Integral Powertrain Ltd
Table 63 Snapshot – AIP GmbH & Co. KG
List of Figures
Figure 1 Market Coverage
Figure 2 Research Phases
Figure 3 Secondary Sources for Different Parameters
Figure 4 Methodology
Figure 5 Data Mining & Exploration
Figure 6 Data Triangulation
Figure 7 Assumptions for Market Estimation and Forecast
Figure 8 Market Synopsis
Figure 9 Global Automation Systems for Powertrain Dynamometer Market- Growth Drivers and Restraints
Figure 10 Competitive Benchmark
Figure 11 Global Automation Systems for Powertrain Dynamometer Market, Highlight
Figure 12 Global Automation Systems for Powertrain Dynamometer Market, By Communication, 2018 - 2030 (USD Billion)
Figure 13 Global Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018 - 2030 (USD Billion)
Figure 14 Global Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018 - 2030 (USD Billion)
Figure 15 Global Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018 - 2030 (USD Billion)
Figure 16 Global Automation Systems for Powertrain Dynamometer Market, By Region, 2018 - 2030 (USD Billion)
Figure 17 North America Automation Systems for Powertrain Dynamometer Market Highlight
Figure 18 North America Automation Systems for Powertrain Dynamometer Market, By Communication, 2018 - 2030 (USD Billion)
Figure 19 North America Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018 - 2030 (USD Billion)
Figure 20 North America Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018 - 2030 (USD Billion)
Figure 21 North America Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018 - 2030 (USD Billion)
Figure 22 North America Automation Systems for Powertrain Dynamometer Market, By Region, 2018 - 2030 (USD Billion)
Figure 23 Europe Automation Systems for Powertrain Dynamometer Market Highlight
Figure 24 Europe Automation Systems for Powertrain Dynamometer Market, By Communication, 2018 - 2030 (USD Billion)
Figure 25 Europe Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018 - 2030 (USD Billion)
Figure 26 Europe Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018 - 2030 (USD Billion)
Figure 27 Europe Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018 - 2030 (USD Billion)
Figure 28 Europe Automation Systems for Powertrain Dynamometer Market, By Region, 2018 - 2030 (USD Billion)
Figure 29 Asia-Pacific Automation Systems for Powertrain Dynamometer Market Highlight
Figure 30 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Communication, 2018 - 2030 (USD Billion)
Figure 31 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018 - 2030 (USD Billion)
Figure 32 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018 - 2030 (USD Billion)
Figure 33 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018 - 2030 (USD Billion)
Figure 34 Asia-Pacific Automation Systems for Powertrain Dynamometer Market, By Region, 2018 - 2030 (USD Billion)
Figure 35 RoW Automation Systems for Powertrain Dynamometer Market Highlight
Figure 36 RoW Automation Systems for Powertrain Dynamometer Market, By Communication, 2018 - 2030 (USD Billion)
Figure 37 RoW Automation Systems for Powertrain Dynamometer Market, By Propulsion, 2018 - 2030 (USD Billion)
Figure 38 RoW Automation Systems for Powertrain Dynamometer Market, By Testing Type, 2018 - 2030 (USD Billion)
Figure 39 RoW Automation Systems for Powertrain Dynamometer Market, By Vehicle Type, 2018 - 2030 (USD Billion)
Figure 40 RoW Automation Systems for Powertrain Dynamometer Market, By Region, 2018 - 2030 (USD Billion)
Global Test Automation Systems for Powertrain Dynamometer Market Coverage
Communication Insight and Forecast 2025-2030
Propulsion Insight and Forecast 2025-2030
Testing Type Insight and Forecast 2025-2030
Vehicle Type Insight and Forecast 2025-2030
Geographical Segmentation
Test Automation Systems for Powertrain Dynamometer Market by Region
North America
Europe
Asia-Pacific (APAC)
Rest of the World (RoW)
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