Asia-Pacific Two-Wheeler Instrument Cluster Market By Vehicle Type (Motorcycles; Scooters/Mopeds; Electric Two-Wheelers), By Instrument Cluster Type (Analog; Digital; Hybrid), By Display Screen (Normal; TFT/LCD), By Display Color (Monochrome; Colored), By Country, By Company, Competition, Forecast & Opportunities, 2028
Published Date: April - 2025 | Publisher: MIR | No of Pages: 320 | Industry: Automotive | Format: Report available in PDF / Excel Format
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Asia-Pacific Two-Wheeler Instrument Cluster Market was worth USD 2.9 Billion in 2023 and is projected to reach USD 4.4 Billion by 2029 with a CAGR of 7.28% over the forecast period.
The Asia-Pacific two-wheeler instrument cluster market has been witnessing strong growth, led by the growth in automotive technology and an increasing demand for improved rider experiences. The growing demand for digital instrument clusters instead of conventional analog displays is one of the major drivers of market growth. Motorcyclists are looking for more intuitive, feature-packed dashboards that provide real-time information like speed, fuel efficiency, navigation, and connectivity features. As the adoption of electric two-wheelers is increasing in the region, the demand for sophisticated instrument clusters with accurate battery indicators and performance data is also on an upswing. This change in consumer attitudes toward technically more advanced solutions is encouraging growth and innovation in the industry.
Some trends are influencing the growth of the two-wheeler instrument cluster market. The merging of interrelated technologies, including Bluetooth, GPS, and smartphone integration, is revolutionizing the riding experience. Riders are now able to access real-time information, interact with other devices, and even manipulate different functions through the instrument cluster. Additionally, the emphasis on safety features, such as alert systems for speed, fuel levels, and maintenance, is taking hold. Manufacturers are also adding adaptive displays that adjust to varying light conditions, enhancing visibility and ease of use. As technology continues to advance, instrument clusters are transforming into smart systems that offer a variety of functionalities, enhancing the riding experience further.
Market Drivers
Growth in Consumer Demand for Advanced Features
The need for high-end features in two-wheeler instrument clusters is growing very fast as the consumers are looking for more convenience and control of their riding experience. The current riders are expecting digital dashboards that not only display basic data such as speed and fuel but also GPS directions, real-time traffic information, and connectivity with smartphones. These innovative features are intended for technologically advanced consumers who want multifunctional products that improve both the performance and safety of their cars. Producers are reacting to this trend by adding smarter, more adjustable displays that provide several functionalities within one small system. The incorporation of digital interfaces enables riders to customize the dashboard to make it easier to use and more attractive to look at. With increasing disposable incomes and a transition toward premium motorbikes and electric cars, demand for these feature-packed instrument clusters will increase during the forecast period.
Shift Toward Electric Vehicles
The increasing use of electric two-wheelers is highly impacting the market for instrument clusters. Electric scooters and motorcycles need specialized instrument clusters to provide real-time information like battery life, charging status, power consumption, and regenerative braking effectiveness. These special demands create the need for more sophisticated and precise instrumentation in electric vehicles, which have varying powertrain designs compared to conventional gasoline-powered vehicles. As electric cars gain momentum in the Asia-Pacific region, producers are also shifting focus to develop clusters that will address these special needs, adding to the growth of the market as a whole. The drive for cleaner modes of transport also helps this trend, propelling electric two-wheelers to be the face of the automobile industry.
Focus on Safety Features
The increasing focus on the safety of riders is yet another important impetus in the growth of the two-wheeler instrument cluster market. With tightening safety standards across the region, motorcycle makers are adding more safety features to their vehicles. Instrument clusters today provide alerts concerning tire pressure, engine health, and maintenance intervals so that riders remain aware of any issues that could compromise their safety. Advanced clusters in some instances have weather warning systems, fatigue tracking, and collision warnings, combining features found in high-end vehicles. The increase in consumers' concerns regarding road safety is encouraging manufacturers to invest in innovative technologies that will help prevent accidents and safeguard riders, propelling the demand for next-generation instrument clusters.
Advancement in Connectivity Technology
The ongoing development of connectivity technologies in the automotive sector is another key factor driving the growth of the two-wheeler instrument cluster market. With the increasing number of smartphones and IoT devices in use, riders now expect their two-wheelers to integrate seamlessly with other technologies. Instrument clusters with Bluetooth connectivity, mobile app synchronization, and real-time diagnostics are becoming more common in motorcycles and scooters. Riders can now access various apps, receive incoming calls or messages, and even control music directly through their instrument clusters. As the demand for connected vehicles grows, instrument clusters are evolving into hubs of information that extend beyond vehicle metrics, offering an integrated and personalized riding experience.
Government Regulations and Emphasis on Emissions Control
Stricter government regulations around emissions and fuel efficiency are contributing to the growth of the two-wheeler instrument cluster market. Governments in many regions are imposing regulations that require motorcycle manufacturers to enhance the fuel efficiency of their vehicles, and instrument clusters play a crucial role in monitoring and displaying this data. By providing real-time information on fuel consumption, engine performance, and emissions, the clusters help riders optimize their driving habits for better environmental compliance. As these regulations become more stringent, manufacturers are increasingly focusing on incorporating instrumentation that helps both riders and manufacturers meet new environmental standards, driving demand for more advanced and precise instrument clusters.
Key Market Challenges
High Cost of Advanced Instrumentation
A major challenge in the two-wheeler instrument cluster market is the high cost associated with developing and integrating advanced features. Digital and connected instrument clusters are significantly more expensive to produce compared to traditional analog systems. The complexity of integrating multiple functions like GPS, Bluetooth, and real-time diagnostics into one system drives up production costs. For manufacturers, offering these high-tech features at competitive prices while maintaining quality and functionality can be a difficult balancing act. This cost barrier can deter some price-sensitive consumers, especially in developing markets where affordability is a key consideration. The high upfront costs for advanced instrument clusters can thus limit their widespread adoption in certain segments of the market.
Technical Challenges in Integration
The integration of various advanced technologies into a single instrument cluster presents a significant technical challenge for manufacturers. As consumer demand for multifunctional displays grows, manufacturers must ensure that the clusters are capable of seamlessly handling complex systems like Bluetooth connectivity, navigation, and ride diagnostics. The integration of all these technologies in a compact and durable unit that can withstand harsh riding conditions without compromising performance is no easy task. Issues like power consumption, system responsiveness, and the robustness of the display in various weather conditions must be carefully addressed. Overcoming these challenges requires constant innovation and research, which can strain the resources of manufacturers, especially smaller firms.
Market Fragmentation
The two-wheeler instrument cluster market is highly fragmented, with various manufacturers competing for market share. This fragmentation presents challenges for companies in terms of maintaining consistent product quality, meeting diverse consumer needs, and navigating complex supply chains. Different market segments require different instrument cluster solutions, from entry-level motorcycles to premium electric bikes. As each segment demands specific features and designs, manufacturers need to invest in a broad range of products to cater to varied customer preferences. This diversity of consumer needs creates complexity in production, marketing, and distribution, making it harder for companies to scale and achieve economies of scale.
Consumer Resistance to Change
Many traditional two-wheeler riders are hesitant to adopt digital and connected instrument clusters, preferring the simplicity and familiarity of analog displays. This resistance to change poses a challenge to the growth of the market, especially in markets with a long-standing preference for conventional motorcycle designs. Some riders are concerned that digital displays could be too complicated to operate, or that they may increase the risk of malfunctions, leading to a reluctance to embrace new technologies. Convincing this segment of the market to switch to more advanced systems require addressing concerns about reliability, ease of use, and the actual benefits of upgrading. Overcoming this consumer resistance is a key hurdle for manufacturers.
Supply Chain Disruptions
Disruptions in the global supply chain can impact the availability of key components needed to manufacture two-wheeler instrument clusters. As the market becomes more reliant on advanced electronic components and digital technologies, any shortage or delay in the supply of critical parts such as semiconductors, sensors, and display units can severely affect production timelines. Given the highly competitive nature of the automotive industry, any delays or shortages can result in missed opportunities, increased costs, and reduced market share. Manufacturers must work on strengthening their supply chain resilience and diversifying their sources of key components to mitigate the risks associated with these disruptions.
Key Market Trends
Integration of Smart Features
The integration of smart technologies into two-wheeler instrument clusters is a growing trend that is reshaping the market. Consumers are increasingly expecting their vehicles to offer features like voice recognition, artificial intelligence-based systems, and personalized settings, which are already commonplace in other sectors like automotive and consumer electronics. Instrument clusters that can integrate with smart home devices, adjust based on weather conditions, and even provide real-time traffic information are becoming more popular. This trend is leading to the development of smarter clusters that use data analytics to optimize the riding experience. As riders embrace the convenience and functionality of these smart systems, the demand for such advanced clusters is expected to rise.
Focus on User Experience and Customization
The emphasis on enhancing user experience is evident in the growing demand for customizable instrument clusters. Riders no longer want a one-size-fits-all dashboard but instead expect the ability to personalize their displays according to their preferences. This trend is pushing manufacturers to create more flexible systems that allow users to change display themes, rearrange widgets, and select which data points they want to see. Furthermore, touchscreens, haptic feedback, and improved interfaces are being incorporated to enhance interaction. As customization options become more advanced, manufacturers can attract a broader customer base, from everyday commuters to professional riders who require specific data for their unique needs.
Sustainability in Design and Materials
As environmental concerns continue to rise, the use of sustainable materials in the production of two-wheeler instrument clusters has become a key trend. Consumers and manufacturers alike are becoming more conscious of the environmental impact of manufacturing processes. The push for eco-friendly designs has led to the adoption of recyclable materials, energy-efficient displays, and low-impact production methods in the creation of instrument clusters. Furthermore, there is a growing emphasis on reducing the carbon footprint of the entire vehicle, with many electric two-wheelers and hybrid models relying on instrument clusters to monitor and optimize energy consumption. This trend aligns with global sustainability initiatives and is expected to gain further momentum in the coming years.
Adoption of Augmented Reality (AR) and Virtual Displays
The rise of augmented reality (AR) technology is becoming an exciting trend in the two-wheeler instrument cluster market. AR systems can overlay important data onto a rider's field of vision, allowing them to access crucial information like speed, navigation, and road alerts without taking their eyes off the road. Virtual displays that project key metrics onto the helmet visor or windshield are also becoming more popular, enhancing the rider’s focus and safety. This technology takes the user experience to the next level, providing more immersive and intuitive interfaces. As AR technology matures, its integration into two-wheeler clusters is expected to become more widespread, particularly in high-end motorcycles.
Rising Popularity of Connected Motorcycles
The trend toward connected motorcycles is significantly transforming the two-wheeler instrument cluster landscape. With more motorcycles becoming internet-enabled, riders can now access real-time data, connect with other vehicles, and even use cloud-based services for ride tracking and vehicle diagnostics. Instrument clusters are evolving into central hubs that offer a seamless integration of various connected devices, such as smartphones, wearables, and helmets.
Segmental Insights
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Vehicle Type Insights
The two-wheeler instrument cluster market is segmented by vehicle type, with distinct needs and functionalities for each category. Motorcycles, which remain a popular choice among consumers, require instrument clusters that can display performance-related metrics like speed, fuel efficiency, engine health, and temperature. In the case of motorcycles, riders demand more robust, weather-resistant, and highly visible displays to ensure performance is easily tracked during various road conditions. With advancements in digital technology, motorcycle instrument clusters are evolving, offering riders more intuitive displays that include GPS navigation, smartphone connectivity, and real-time diagnostics. These motorcycles often appeal to both urban commuters and long-distance riders, each seeking improved convenience and safety.
Scooters and mopeds, while similar to motorcycles in some respects, cater to a different demographic with distinct preferences for their instrument clusters. These vehicles are typically used for short-distance urban commuting, and as a result, the focus for their instrument clusters tends to be on simplicity and ease of use. While traditional analog displays are still common, there is an increasing shift towards digital displays that provide essential information such as speed, fuel levels, and maintenance alerts. The growing popularity of scooters, especially in congested urban areas, is prompting the development of lighter and more cost-effective instrument clusters. These displays are designed to offer critical data at a glance, ensuring ease of use and promoting a streamlined riding experience.
Electric two-wheelers represent a rapidly growing segment with unique requirements for instrument clusters. These vehicles require specialized displays to monitor battery life, energy consumption, and regenerative braking performance. Since electric two-wheelers lack the traditional engine systems found in motorcycles and scooters, their instrument clusters must provide real-time insights into battery health, remaining range, and charging status. In addition to the basic performance metrics, riders also seek enhanced connectivity, including mobile app integration, to track the health and performance of the electric vehicle. As electric vehicle adoption continues to increase, the need for advanced, accurate, and user-friendly instrument clusters becomes more pronounced in this segment. Riders of electric two-wheelers are looking for features that provide convenience, sustainability, and efficiency, all of which are addressed by evolving instrument cluster technologies. Each vehicle type demands unique design and technological considerations, driving manufacturers to innovate and cater to the specific needs of each group of riders.
Country Insights
India emerged as the dominant market for two-wheeler instrument clusters in 2023, driven by its large two-wheeler population, rapid urbanization, and increasing adoption of digital and connected technologies. The country has one of the largest markets for motorcycles and scooters, with millions of units sold annually across urban and rural areas. As the primary mode of transportation for a significant portion of the population, motorcycles and scooters play a crucial role in daily commuting. With rising disposable incomes, a growing middle class, and the expanding youth demographic, the demand for more advanced, feature-rich two-wheeler instrument clusters has surged. The shift toward digital and connected instrument clusters is particularly noticeable as Indian consumers seek more functionality in their vehicles. Riders are increasingly looking for features such as GPS navigation, real-time diagnostics, Bluetooth connectivity, and smartphone integration. The convenience offered by digital displays, which provide easy access to essential information like fuel levels, speed, engine health, and maintenance alerts, is appealing to a broad consumer base. The motorcycle and scooter segments in India, once dominated by basic analog displays, are now transitioning to more advanced digital systems to cater to the growing consumer demand for tech-savvy solutions.
Electric two-wheelers are also playing an increasingly significant role in India's two-wheeler market, further driving the demand for specialized instrument clusters. As India pushes toward more sustainable transportation options, electric scooters have gained popularity in urban areas due to their cost-efficiency and environmentally friendly attributes. Instrument clusters for electric two-wheelers are designed to monitor key metrics such as battery life, energy consumption, and charging status, which are essential for electric vehicle users. With government incentives and policies aimed at promoting electric mobility, the demand for these advanced instrument clusters is set to grow in the coming years.
In rural areas, where motorcycles are often the preferred mode of transport, the focus is more on affordability, durability, and simplicity in instrument clusters. However, even in these regions, there is a noticeable shift toward digital displays, driven by the desire for more accurate and easy-to-read information. As Indian consumers become more accustomed to digital technologies and smartphones, the appeal of advanced instrument clusters with integrated features continues to grow, making India a key market for innovation in two-wheeler instrumentation. The dominance of India in the two-wheeler instrument cluster market in 2023 can be attributed to its vast two-wheeler consumer base, the rise of electric vehicles, and the increasing demand for more advanced, connected, and user-friendly features. These factors combine to create a dynamic market environment where technology and innovation are driving the adoption of next-generation instrument clusters.
Recent Developments
- In July 2024, MediaTek and JioThings recently introduced a "Made in India" smart digital cluster and smart module tailored for the two-wheeler market. This collaboration combines advanced chipsets with IoT solutions to improve digital experiences and accelerate market entry for OEMs. The focus is on supporting the growing electric vehicle (EV) segment, highlighting India's growing influence in global tech innovation. The partnership is expected to play a key role in transforming mobility in the country.
- In November 2024, Royal Enfield’s Flying Flea C6, the company’s first-ever electric motorcycle, gained attention at EICMA 2024. Alongside the bike’s debut, the motorcycle introduced a new instrument cluster that enhances the rider’s experience with advanced features tailored to electric vehicles (EVs). This instrument cluster, a key component of the Flying Flea C6, offers critical information such as battery status, range, and performance metrics, all in a modern, easy-to-read interface. Eicher Motors' MD and CEO, Siddhartha Lal, revealed that the Flying Flea C6 would first launch in Europe and the US, where the market for premium EVs is growing. While India may not be a priority market for the launch, Lal remains confident the bike and its advanced features, including the innovative instrument cluster, will be well-received.
- In October 2023, NXP launched its connected digital cluster reference platform for two-wheelers, enabling OEMs to integrate essential instrument cluster features while supporting a wide range of connectivity options to enhance the rider experience. Key features included three-way Bluetooth pairing between a smartphone, the digital cluster, and headphones. This allowed for functions such as rider and passenger music sharing, location features like "find my bike" in a parking lot, phone-based navigation, and EV charging statistics.
Key Market Players
- DENSO Corporation
- Triumph Motorcycles Ltd.
- Koito Manufacturing Co., Ltd.
- Robert Bosch GmbH
- Kawasaki Heavy Industries, Ltd.
- Valeo S.A.
- Hero MotoCorp Ltd.
- Nisshinbo Holdings Inc.
- Continental AG
Attribute |
Details |
Base Year |
2022 |
Historic Data |
2018 – 2021 |
Estimated Year |
2023 |
Forecast Period |
2024 – 2028 |
Quantitative Units |
Revenue in USD Million, Volume in Units, and CAGR for 2018-2022 and 2023-2028 |
Report coverage |
Revenue forecast, volume forecast, company share, competitive landscape, growth factors, and trends |
Segments covered |
· Vehicle Type · Instrument Cluster Type · Screen · Color |
Country scope |
India, China, Japan, Taiwan, Indonesia & Vietnam |
Key companies profiled |
JNS Instruments Limited, Pricol Limited, Minda Stoneridge Instruments Limited, Magneti Marelli India Private Limited, Nippon Seiki, Daytona, Calsonic Kansei, Suprajit Engineering Limited, Sunrise Automotive Instruments, Galaxy Indicators |
Customization scope |
10% free report customization with purchase. Addition or alteration to country, & segment scope. |
Pricing and purchase options |
Avail customized purchase options to meet your exact research needs. Explore purchase options |
Delivery Format |
PDF and Excel through Email (We can also provide the editable version of the report in PPT/Word format on special request) |
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Table of Content
Sure! Here's a professional Table of Contents (TOC) for a market research report titled "Asia-Pacific Two-Wheeler Instrument Cluster Market":
Table of Contents
-
Executive Summary
1.1. Market Overview
1.2. Key Findings
1.3. Analyst Recommendations -
Introduction
2.1. Research Objectives
2.2. Assumptions and Limitations
2.3. Scope of the Study
2.4. Methodology -
Market Overview
3.1. Definition and Overview of Instrument Clusters
3.2. Evolution of Two-Wheeler Instrument Clusters
3.3. Industry Value Chain Analysis
3.4. Porter’s Five Forces Analysis -
Market Dynamics
4.1. Market Drivers
4.2. Market Restraints
4.3. Market Opportunities
4.4. Market Challenges -
Asia-Pacific Two-Wheeler Instrument Cluster Market Analysis
5.1. Market Size and Forecast (2024–2030)
5.2. Market Share Analysis
5.3. Pricing Analysis
5.4. Emerging Technologies and Innovations -
Segmentation Analysis
6.1. By Type
- Analog
- Digital
- Hybrid
6.2. By Vehicle Type
- Motorcycles
- Scooters/Mopeds
6.3. By Technology
- Conventional
- TFT Display
- OLED Display
6.4. By Country
- China
- India
- Japan
- South Korea
- Australia
- ASEAN Countries
- Rest of Asia-Pacific -
Competitive Landscape
7.1. Market Share of Key Players
7.2. Company Profiles
- Continental AG
- Visteon Corporation
- Pricol Limited
- Nippon Seiki Co., Ltd.
- Calsonic Kansei Corporation
- Others
7.3. Competitive Strategies and Developments
7.4. SWOT Analysis of Key Players -
Regulatory and Environmental Analysis
8.1. Regional Regulations Impacting the Market
8.2. Environmental Standards and Compliance -
Investment Analysis
9.1. Mergers and Acquisitions
9.2. Partnerships and Collaborations
9.3. Investment Opportunities by Segment -
Future Outlook and Market Trends
10.1. Adoption of Smart Displays and Connected Clusters
10.2. Impact of Electric Two-Wheelers on Instrument Cluster Demand
10.3. Role of Artificial Intelligence and IoT in Instrument Clusters -
Appendix
11.1. Glossary of Terms
11.2. References
11.3. List of Figures and Tables
List Tables Figures
To get a detailed Table of content/ Table of Figures/ Methodology Please contact our sales person at ( chris@marketinsightsresearch.com )
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