Japan Automotive Testing Market Segmentation by Testing Type (Mechanical, Emission, Component, Dynamic Stress, Material, Surface, Electrical Components & Electronics, Environmental, Vehicle Safety, and Noise Testing); by Sourcing Type (In-House, and Outsourced); by Vehicle Type (Passenger Vehicles, Trucks, and Buses); and by Propulsion Type (Internal Combustion Engine, and Electric Vehicles)-Demand Analysis & Opportunity Outlook 2018-2028
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Product Code:
RP-ID-10352287 -
Published Date:
21 Oct 2022 -
Region:
Country
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Pages:
123 -
Category:
Automotive & Transportation -
Publisher:
Pub-ID-54
Impact Analysis on the Growth of Market
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Market Overview:
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Japan Automotive Testing Market Highlights Over 2018 - 2028
The Japan automotive testing market is estimated to garner a revenue of USD 2072.1 Million by the end of 2028 by growing at a CAGR of 5.5% over the forecast period, i.e., 2021 – 2028. Moreover, in the year 2018, the market in the country generated a revenue of USD 1519.2 Million. The growth of the market can primarily be attributed to the presence of some of the global vehicle manufacturing brands in the country, including brands such as Toyota, Honda, Suzuki, Isuzu, Mazda, Nissan, Subaru, and others, and therefore the rising need amongst these vehicle manufacturers to test their vehicles. Vehicle manufacturers, before launching any product in to the market, often test their vehicles so as to ensure the quality of the vehicle is rightly delivered to its customers. Additionally, with the presence of a prominent automotive industry in the nation, there is a rise in focus on operational excellence of the vehicles. Moreover, growing awareness for vehicle safety and strict regulatory standards for manufacturing of vehicles are some of the factors anticipated to drive the need for automotive testing, and in turn, contribute to the market growth.
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Besides this, the growth of the market can also be attributed to the growing production of vehicles in the nation. According to the statistics by the International Organization of Motor Vehicle Manufacturers (OICA), production of cars in Japan increased from 7830722 units in the year 2015 to 8328756 units in the year 2019. Additionally, the increasing sales of electric vehicles in the nation, backed by supporting government policies to promote the adoption of these vehicles, are also anticipated to drive the need for automotive testing amongst the vehicle manufacturers, and in turn contribute to the market growth. According to the statistics by the International Energy Agency (IEA), Japan registered a share of 14% of the global share of fuel cell electric vehicles in the year 2019. Additionally, the statistics also stated that the country has set a target for “next-generation vehicles” to account for 50-70% of new car sales by the end of 2030.
Growth Drivers and Challenges Impacting the Growth of the Japan Automotive Testing Market
Growth Drivers
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Increasing Production of Vehicles
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Rising Awareness for Vehicle Safety
Challenges
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High Cost Associated with Testing of Cars Equipped with Advanced Technology
Japan Automotive Testing Market Segmentation Synopsis
The Japan automotive testing market is segmented by testing type into mechanical testing, emission testing, component testing, dynamic stress testing, material testing, surface testing, electrical components & electronics testing, environmental testing, vehicle safety testing, and noise testing. Out of these, the mechanical testing segment is anticipated to garner the largest revenue of USD 418.0 Million by the end of 2028, up from a revenue of USD 319.0 Million in the year 2018. By sourcing type, the market is segmented into in-house and outsourced, out of which, the outsourced segment is anticipated to grow with the highest CAGR of 5.8% during the forecast period. By vehicle type, the market is segmented into passenger vehicles, trucks, and buses. Out of these, the passenger vehicles segment is anticipated to garner the largest revenue of USD 1470.5 Million by the end of 2028, up from a revenue of USD 1095.3 Million in the year 2018. By propulsion type, the market is segmented into internal combustion engine vehicles and electric vehicle, out of which, the electric vehicles segment is anticipated to grow with the highest CAGR of 6.2% during the forecast period.
Key Companies Dominating the Market
Our report has covered detailed company profiling comprising company overview, business strategies, key product offerings, financial performance, key performance indicators, risk analysis, recent developments, regional presence, and SWOT analysis among other notable indicators for competitive positioning. Some of the prominent industry leaders in the Japan automotive testing market that are included in our report are Applus Servicios Tecnologicos, S.L, SGS SA, SINFONIA TECHNOLOGY CO., LTD., HORIBA, Ltd., MEIDENSHA CORPORATION, DEKRA SE, AVL List GmbH, ESPEC CORP., TUV SUD, Intertek Group plc, TUV Rheinland Group, and others.
Latest Developments in the Japan Automotive Testing Market:
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December 10th, 2021: TUV Rheinland Group announced that it has entered into an innovation partnership with ControlExpert for the digital assessment of vehicle damage by using AI-based mobile applications. The collaboration is also aimed at detecting, classifying, and assessing the damage to motor vehicles.
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June 9th, 2021: TUV SUD announced that it has collaborated with SAE International over cybersecurity training for the automotive industry.
Key Reasons to Buy Our Report
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The report covers detailed analysis comprising market share attained by each market segment and its sub-segments.
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It covers market dynamics including growth drivers, trends, potential opportunities, price trend analysis and challenges that impact the market growth.
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The report includes detailed company profiles of the major players dominating the market.
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We use effective research methodologies to calculate the market numbers and provide value-added assessment for overall growth.
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We provide customized reports as per the clients’ requirement helping them to see possible and unexpected challenges and unforeseen opportunities in order to help them reach their goal.
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FREQUENTLY ASKED QUESTIONS
The increasing production of vehicles, along with the rising awareness for vehicle safety are some of the major factors anticipated to drive the market growth.
The market is anticipated to attain a CAGR of 5.5% over the forecast period, i.e., 2021 – 2028.
The high cost associated with testing of cars equipped with advanced technology is one of the major factors estimated to hamper the market growth.
The major players in the market are Applus Servicios Tecnologicos, S.L, SGS SA, SINFONIA TECHNOLOGY CO., LTD., HORIBA, Ltd., MEIDENSHA CORPORATION, DEKRA SE, AVL List GmbH, and others.
The company profiles are selected based on the revenues generated from the product segment, geographical presence of the company which determine the revenue generating capacity as well as the new products being launched into the market by the company.
The market is segmented by testing type, sourcing type, vehicle type, and by propulsion type.
The mechanical testing segment is anticipated to garner the largest revenue of USD 418.0 Million by the end of 2028 and display significant growth opportunities.
1.
Market Definition and
Research Methodology
1.1.
Market Definition and
Segmentation
1.2.Assumptions & Acronyms
1.3.Research Objective
1.4.Research Methodology
2.
Executive Summary
3.
Market Dynamics
3.1.Drivers
3.2.
Challenges
3.3.
Trends
3.4.
Opportunities
4.
Industry Analysis
4.1.Regulatory & Standard Landscape
4.2.
Industry Risk Analysis
5.
Impact of COVID-19 on
Japan Automotive Testing Services
6.
Pricing and Annual
Demand Analysis
7.
Competitive
Positioning
8.
Competitive Landscape
8.1.Applus
Servicios Tecnologicos, S.L
8.2.
SGS SA
8.3.
SINFONIA TECHNOLOGY CO., LTD.
8.4.
HORIBA, Ltd.
8.5.
MEIDENSHA CORPORATION
8.6.
DEKRA SE
8.7.
AVL List GmbH
8.8.
ESPEC CORP.
8.9.
TUV SUD
8.10.
Intertek Group plc
8.11.
TUV Rheinland Group
9.
Japan Automotive
Testing Market
9.1.Market Overview – Value Market Size (2018–2028) (USD
Million)
9.2.
Market Overview –
Volume Market Size (2018–2028) (Number of Tests)
9.3.
Market segmentation
by:
9.3.1.
Testing Type
9.3.1.1.
Mechanical Testing,
2018-2028 (in USD Million) (Number of Test)
9.3.1.1.1.
Tensile Testing,
2018-2028 (in USD Million)
9.3.1.1.2.
Impact Testing,
2018-2028 (in USD Million)
9.3.1.1.3.
Hardness Testing,
2018-2028 (in USD Million)
9.3.1.1.4.
Load Control Fatigue
Testing, 2018-2028 (in USD Million)
9.3.1.1.5.
Bend Testing,
2018-2028 (in USD Million)
9.3.1.1.6.
Drop-Weight Testing,
2018-2028 (in USD Million)
9.3.1.2.
Emission Testing,
2018-2028 (in USD Million) (Number of Test)
9.3.1.2.1.
Engines Emissions
Testing, 2018-2028 (in USD Million)
9.3.1.2.2.
Heavy Duty (HDDE)
In-Use Emissions Testing, 2018-2028 (in USD Million)
9.3.1.2.3.
Small Engine Emissions
Testing, 2018-2028 (in USD Million)
9.3.1.2.4.
Evaporative Emission
Testing, 2018-2028 (in USD Million)
9.3.1.3.
Component Testing,
2018-2028 (in USD Million) (Number of Test)
9.3.1.3.1.
Fuel Tank and
Component Testing, 2018-2028 (in USD Million)
9.3.1.3.2.
Cooling Systems &
Component Testing, 2018-2028 (in USD Million)
9.3.1.3.3.
Interior &
Exterior Component Testing, 2018-2028 (in USD Million)
9.3.1.3.4.
Tyre Testing,
2018-2028 (in USD Million)
9.3.1.3.5.
Wheel Testing,
2018-2028 (in USD Million)
9.3.1.4.
Dynamic Stress
Testing, 2018-2028 (in USD Million) (Number of Test)
9.3.1.4.1.
Brake Systems Testing,
2018-2028 (in USD Million)
9.3.1.4.2.
Maximum Inclination
Angle Test, 2018-2028 (in USD Million)
9.3.1.4.3.
Dynamic Tear Testing,
2018-2028 (in USD Million)
9.3.1.4.4.
Shock Vibration
Testing, 2018-2028 (in USD Million)
9.3.1.4.5.
Strain Control Fatigue
Testing, 2018-2028 (in USD Million)
9.3.1.5.
Material Testing,
2018-2028 (in USD Million) (Number of Test)
9.3.1.5.1.
UV Testing, 2018-2028
(in USD Million)
9.3.1.5.2.
Solar Testing,
2018-2028 (in USD Million)
9.3.1.5.3.
Adhesion Testing,
2018-2028 (in USD Million)
9.3.1.5.4.
Chemical Loads
Testing, 2018-2028 (in USD Million)
9.3.1.5.5.
Flammability Testing,
2018-2028 (in USD Million)
9.3.1.5.6.
Ozone Testing,
2018-2028 (in USD Million)
9.3.1.6.
Surface Testing,
2018-2028 (in USD Million) (Number of Test)
9.3.1.6.1.
Surface Scratch
Testing, 2018-2028 (in USD Million)
9.3.1.6.2.
Optical assessment,
2018-2028 (in USD Million)
9.3.1.6.3.
Metallic coating
thickness, 2018-2028 (in USD Million)
9.3.1.7.
Electrical Components
and Electronics Testing, 2018-2028 (in USD Million) (Number of Test)
9.3.1.7.1.
Accredited EMC test,
2018-2028 (in USD Million)
9.3.1.7.2.
Automotive Electrical
Testing, 2018-2028 (in USD Million)
9.3.1.7.3.
Battery Test,
2018-2028 (in USD Million)
9.3.1.7.4.
EMC Testing for
Automotive Components
9.3.1.7.5.
Automotive Headlamps
& Luminaire Testing, 2018-2028 (in USD Million)
9.3.1.7.6.
Telematics &
Wireless Testing, 2018-2028 (in USD Million)
9.3.1.8.
Environmental Testing,
2018-2028 (in USD Million) (Number of Test)
9.3.1.8.1.
Climate Change
Testing, 2018-2028 (in USD Million)
9.3.1.8.2.
Thermal Ageing,
2018-2028 (in USD Million)
9.3.1.8.3.
Artificial Weathering
Testing, 2018-2028 (in USD Million)
9.3.1.9.
Vehicle Safety
Testing, 2018-2028 (in USD Million) (Number of Test)
9.3.1.9.1.
High-speed running
performance test, 2018-2028 (in USD Million)
9.3.1.9.2.
Maximum speed test,
2018-2028 (in USD Million)
9.3.1.9.3.
High-speed durability
test, 2018-2028 (in USD Million)
9.3.1.9.4.
High-speed
road-holding ability test, 2018-2028 (in USD Million)
9.3.1.10.
Noise Testing,
2018-2028 (in USD Million) (Number of Test)
9.3.2.
Sourcing Type, 2018-2028
(in USD Million) (Number of Test)
9.3.2.1.
In-House, 2018-2028
(in USD Million) (Number of Test)
9.3.2.2.
Outsourced, 2018-2028
(in USD Million) (Number of Test)
9.3.3.
Vehicle Type,
2018-2028 (in USD Million)
9.3.3.1.
Passenger Vehicle,
2018-2028 (in USD Million)
9.3.3.1.1.
Standard (Over
2,000cc), 2018-2028 (in USD Million)
9.3.3.1.2.
Small (661cc to
2,000cc), 2018-2028F (USD Million)
9.3.3.1.3.
Mini (Below 660cc),
2018-2028F (USD Million)
9.3.3.2.
Trucks, 2018-2028 (in
USD Million)
9.3.3.2.1.
Standard (Over
2,000cc), 2018-2028F (USD Million)
9.3.3.2.2.
Small (661cc to
2,000cc), 2018-2028F (USD Million)
9.3.3.2.3.
Mini (Below 660cc),
2018-2028F (USD Million)
9.3.3.3.
Buses, 2018-2028F (USD
Million)
9.3.4.
Propulsion Type,
2018-2028 (in USD Million)
9.3.4.1.
Internal Combustion
Engine Vehicles, 2018-2028F (USD Million)
9.3.4.2.
Electric Vehicles,
2018-2028F (USD Million)
9.3.4.2.1.
Battery Electric
Vehicles, 2018-2028F (USD Million)
9.3.4.2.2.
Hybrid Electric
Vehicles, 2018-2028F (USD Million)
9.3.4.2.3.
Plug-In Hybrid
Electric Vehicles, 2018-2028F (USD Million)
9.3.4.2.4.
Others, 2018-2028F
(USD Million)
Please enter your personal details below
- Applus Servicios Tecnologicos, S.L
- SGS SA
- SINFONIA TECHNOLOGY CO., LTD.
- HORIBA, Ltd.
- MEIDENSHA CORPORATION
- DEKRA SE
- AVL List GmbH
- ESPEC CORP.
- TUV SUD
- Intertek Group plc
- TUV Rheinland Group
