Description

According to the Market Statsville Group (MSG), the Global pass-by noise testing Market was valued at USD 1,401.99 million in 2023 and is expected to grow from USD 1,465.08 million in 2024 to USD 2,083.49 million by 2033, by exhibiting a CAGR of 4.5% during the forecast period (2024-2033)

Pass-by noise testing is the key procedure that is used for assessment of noise produced by the vehicles; it plays a significant role in compliance of regulatory standards and environmental legislation. Monitoring the effectiveness of a vehicle’s noise in consideration of ecological systems and the health of people, as well as checking conformity with the particular noise requirements and guidelines set by multiple governments and other bodies, is the major purpose of this process. Increasing pass-by noise regulation standards across the world continue to demand increased accuracy in pass-by noise testing. Some of the issues include increasing pollution marks to the environment and high-intensity in noise levels in cities and towns, which compel manufacturers and members of society to seek low-noise emission gadgets and standards. Technology developments in the automotive industry, including electric and hybrid vehicles that have dissimilar sound patterns from those of internal combustion engines, also affect the market. Development of more accurate and sensitive measurement instruments, including real-time noise monitoring systems. Combining physical tests with simulation software to predict noise levels in different scenarios and conditions. Automating the testing process to improve efficiency and reduce human error. 

Moreover, companies specializing in noise testing equipment, automotive manufacturers, and independent testing organizations. Concentration on new technologies, adherence to the international norms, and collaboration with the governing institutions and automotive industries. Cross-country noise regulation can present a and usually pose a great challenge to manufacturers. This means that if the advances in vehicle technology as well as testing standards associated with them are to be matched, there must always be investment in new testing methodology and apparatus. Some challenges influence the usage of advanced beneficial testing equipment and procedures due to high costs that are incurred. The pass-by noise testing market is anticipated to grow because of the growth in noise regulation standards, the evolution of auto technologies, and a growing demand for environmental policies. New technologies, such as enhanced testing automation and integration of testing technologies, are expected to improve the overall efficiency of tests and thus fuel market growth.

Definition of Pass-by-Noise Testing

In pass-by noise testing, the level of noise is measured when passing by the vehicle in front of a stationary point. The test is conducted at a standard speed and distance to ensure uniform results and comparability across tests.

Pass By Noise Testing Market Dynamics

Drivers: Increasingly stringent noise regulations worldwide drive the demand for accurate pass-by noise testing

The United Nations Economic Commission for Europe, or UN/ECE, provides specifications on which the requirements of the regulations on noise emission by vehicles should be based under its GTR No. 3. GTR No. 3 provides a standard procedure on how the noise emanating from a vehicle should be measured and is accepted by all countries as a basis for comparison. Other organizations provide other standards, such as ISO 362, which gives procedures for the measurement of road vehicle noise, while the Worldwide Harmonized Light Vehicle Test Procedure sets the criteria in terms of elements related to vehicle emissions and noise. The EU has included within those regulations, mainly EU Regulation 540/2014 and 2017/1575, directives about noise. Those lay down the limits for maximum legal emissions of noise from different categories of production vehicles. They are enforced through tests, along with the following a certification process for those particular vehicles.

However, the Environmental Protection Agency in the US sets some standards in the US on regulating noise from vehicles through standards contained in the CFR Title 40. Enforcements are at the federal as well as state levels, though some states, like California, have further more stringent requirements. Japan under the Road Vehicle Law has set its laws on the regulation of noise to vehicles and includes specific noise limits and testing procedures to vehicles. The implementation is overseen by the Ministry of Land, Infrastructure, Transport, and Tourism (MLIT). Regulations in certain cases require specific pass-by noise test procedures for certain vehicles, which may also involve vehicle speed, test distance, environmental conditions during testing, wind speed, and temperature. The application ensures that, on the whole, the assessment of noise is fairly consistent.

Challenges: Technological adaptation

New investments in new testing methods and equipment are required to cope with the latest developments in vehicle technology and their testing requirements. Modern pass-by noise testing relies on high-precision microphones with a minimal interference effect in sound-level recordings. They are used for handling wide-frequency and pressure-level sounds, thus providing detailed and reliable measurements of noise levels. Such an upsurge is triggered by the rising need for precision and sensitivity in measurement tools.

Furthermore, modern acquisition systems can collect and analyze noise data in real-time, thus enabling real-time testing parameter adjustment. These systems can easily integrate with software that provides instant feedback on compliance with regulatory standards. Moreover, to guarantee accurate measures of noise, the equipment used to make the measurements is often incorporated with sensors monitoring environmental conditions like wind speed, temperature, and humidity. These sensors help to mitigate the noise measurements by compensating for the conditions prevailing in the environment, which otherwise may render the results inaccurate. Moreover, simulation tools and noise prediction software are becoming increasingly popular to supplement physical testing. These can model several designs and configurations of a vehicle and predict its noise emissions under several conditions. In this way, manufacturers can detect noise problems much earlier in the design cycle.

Scope of the Pass By Noise Testing Market

The study categorizes the pass-by-noise testing market based on testing equipment, vehicle type, testing type, and end-user area at the regional and global levels.

By Testing Equipment Outlook (Sales, USD Million, 2019-2033)

• Microphone Systems
• Data Acquisition Systems
• Measurement Vehicles
• Test Benches and Acoustic Chambers

By Vehicle Type Outlook (Sales, USD Million, 2019-2033)

• Passenger Cars
• Commercial Vehicles
• Motorcycles
• Electric Vehicles

By Testing Type Outlook (Sales, USD Million, 2019-2033)

• On-road Testing 
• Laboratory Testing
• Static Testing
• Dynamic Testing

By End User Outlook (Sales, USD Million, 2019-2033)

• Automotive Manufacturers
• Regulatory Agencies
• Independent Testing Organizations

By Region Outlook (Sales, USD Million, 2019-2033)

• North America 
  • US
  • Canada
  • Mexico
• Europe 
  • Germany
  • Italy
  • France
  • UK
  • Spain
  • Poland
  • Russia
  • The Netherlands
  • Norway
  • Czech Republic
  • Rest of Europe
• Asia Pacific 
  • China
  • Japan
  • India
  • South Korea
  • Indonesia
  • Malaysia
  • Thailand
  • Singapore
  • Australia & New Zealand
  • Rest of Asia Pacific
• South America
  • Brazil
  • Argentina
  • Colombia
  • Rest of South America
• The Middle East & Africa
  • Saudi Arabia
  • UAE
  • South Africa
  • Northern Africa
  • Rest of MEA

Pass-by-Noise Testing segment accounts for the largest market share by Testing Type

Based on the application, In essence, application-based pass-by noise testing is part of the design and development of any vehicle. Manufacturers also use the findings from such testing to test and optimize the vehicle's components, such as an exhaust system, tires, and engine mounts, to adhere to the set noise regulations and for better overall performance of the vehicle. Automotive companies invest largely in noise testing technologies. Top car brands are likely to invest close to $450 million by 2023 on noise and vibration test equipment and systems, according to Tata Technologies' annual report. A few of these include high-precision microphones, real-time data acquisition systems, and environmental sensors. Industry leaders invest a huge pie of their R&D budget on noise reduction technologies.

For instance, it has been stated by Ministry of Heavy Industries that for the year 2023, some top automobile manufacturers have already allocated as much as 7-10% of their R&D fund for noise and vibration control, which as understood includes pass-by noise testing. Compliance of new models with noise standards. This ensures all new models satisfy noise standards before they are released for markets. It includes testing before production and checks during ongoing production. Ensuring Noise Compliance may prove to be highly costly. For example, to test whether an all-new model of a vehicle meets its regulatory requirements, such manufacturers may incur up to 100,000 dollars to 50,000 dollars from full-scale noise testing and certification procedures. The complexity of a vehicle, as well as how diverse the regulations are between markets, can add to this cost.

Thermal Validation System Market by Region

Based on the region, North America has stringent noise regulations by the Environmental Protection Agency (EPA), and state-specific regulations, especially in states like California, are major drivers. The presence of a large number of automotive manufacturers and R&D facilities also contributes to market growth. The U.S. has stringent regulations for vehicle noise emissions, leading to increased demand for accurate pass-by noise testing. There is a strong emphasis on integrating advanced noise measurement technologies and real-time data systems.

Competitive Landscape: Pass By Noise Testing Market

The pass-by noise testing market is a significant competitor and extremely cutthroat in the sector. It is using strategies including partnerships, product launches, acquisitions, agreements, and growth to enhance their positions in the market. Most divisions of businesses center on expanding their operations around the world and developing long-lasting partnerships.

Major players in the pass-by noise testing market are:

• NATIONAL INSTRUMENTS CORP
• Brüel & Kjær
• Siemens Industry Software Inc
• HEAD ACOUSTICS
• AVL List GmbH
• GRAS Sound & Vibration
• Prosig Ltd
• OROS
• MTS Systems Corporation
• DEWESoft GmbH
• Data Physics Corporation
• Honeywell International Inc
• ESI Group
• Thermotron Industries
• Kistler Group
• IMV Corporation
• Econ Technologies, Inc
• Polytec GmbH
• Benstone Instruments USA

Recent Development 

• In 2024, One of the most prominent auto testing equipment companies has recently released a new line of its next-generation advanced pass-by noise testing systems. This next line of products shall be distinctive through AI-based prediction and analysis of noise. Testing technologies for noise could prove to be one interesting area where improvements will bring in more accuracy and efficiency in the electric vehicles whose noise-emitting characteristics differ from those of classically more easily found internal combustion engines.
• In 2023, AVL launched its new noise testing platform, bringing together simulation tools, and real-time measurement capabilities to fit the concerns of the automotive world.