India Automotive Smart Antenna Market By Frequency (High Frequency, Very High Frequency, Ultra-High Frequency), By Component (Transceivers, Electronic control unit, Wiring harness, Others), By Vehicle Type (ICE Vehicle, Electric Vehicle), By Region, Competition Forecast & Opportunities, 2019-2029
Published Date: April - 2025 | Publisher: MIR | No of Pages: 320 | Industry: Automotive | Format: Report available in PDF / Excel Format
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The automotive smart antenna market in India is expected to reach a projected revenue of US$ 305.2 million by 2030. A compound annual growth rate of 15.9% is expected of India automotive smart antenna market from 2025 to 2030.
A sophisticated antenna system that is implemented in vehicles to enhance communication and wireless connectivity is referred to as an automotive smart antenna. For numerous wireless applications that are employed in the automotive sector, it is designed to boost reception, transmission, as well as general performance.
Smart antennas are integrated into the overall vehicle design, often operating in coordination with other vehicle systems. They may be connected to the telematics unit, navigation system, infotainment system, cellular modems, or other communication modules within the vehicle. Integration allows efficient resource sharing and data transfer, providing the vehicle's passengers with a connected and seamless experience. Smart antennas for cars have a number of advantages compared to traditional antennas. They provide improved data transmission rate, increased coverage area, improved signal reception quality, and reduced interference. Global wireless communication reliability is enhanced by signal source tracking capabilities and steering of the antenna beam in particular directions. Smart antennas can be designed into thinner, more aerodynamic shapes, and this contributes to the overall looks of modern cars. Multiple-Input Smart antenna systems often have multiple-output (MIMO) technology integrated. It utilizes a number of different antenna components for transmitting and receiving various data streams at the same time. Through spatial diversity and multipath propagation, MIMO enhances data throughput and reliability. It can be applied to cellular networks, Wi-Fi, Bluetooth, vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication, among other wireless applications.
Developing Services for Automotive Connectivity
In recent years, there have been a significant increase in the number of vehicle radio services for navigation, infotainment, ADAS, and other features. This trend is predicted to continue. The integrated antenna will be the solution to these new requirements as surface space in conventional antennas becomes a problem. Future mobility will be influenced by the automotive industry's transformation. Connectivity and automation have emerged as key drivers of the industry's evolution towards a greener, safer, and more efficient transportation as people become more conscious of their role in contributing to global pollution and efforts are made to reduce the still-high number of traffic accidents. Dealing with connectivity-related issues, such as ensuring a specific level of quality of service (QoS) based on dependable and quick wireless links, is made more challenging by the trend towards connected and automated mobility (CAM). Vehicles already come with a variety of sensors that help the driver make decisions.,. Similar to how some maneuvers are frequently taken over by so-called advanced driver assistance systems (ADAS). But from a safety perspective, automobiles only employ ADAS to lessen impending traffic hazards. Vehicles use back-end data in terms of connectivity to obtain helpful information while driving. Vehicle-to-everything (V2X) technologies are used in intelligent transportation to manage communications between the vehicle and the network, roadside infrastructure, pedestrians, and other vehicles.
Increasing Use of Wireless Technology
Future self-driving cars are anticipated to make significant use of wireless communication technologies. More and more vehicle sensors will need to communicate with one another as the world gets closer to total autonomy. Intelligent decisions are made in a dynamic environment (V2X) using vehicle-to-vehicle (V2V), vehicle-to-cloud (V2C), vehicle-to-infrastructure (V2I), and vehicle-to-everything (V2E) communications. This necessitates the use of wireless connectivity as well as the coordination of various protocols such as GNSS, cellular 5G/4G/LTE, WiFi, Bluetooth, and ultra-wideband (UWB). In the upcoming years, it's anticipated that positioning and wireless technology integration in vehicles will become more commonplace. These technologies include Wi-Fi, 3G/4 LTE, Bluetooth, vehicle-to-vehicle (V2V), and vehicle-to-anything (V2X). There is an increasing need for vehicle-to-vehicle or vehicle-to-infrastructure connectivity in today's technologically advanced era in order to keep up with real-time data generation and processing. Due to factors like an expanding automotive vehicle fleet, rising India auto production, and rising demand for luxury vehicles, the India market for automotive integrated antenna systems is anticipated to expand more quickly than other markets during the forecast period.
Increasing Focus on Vehicle Safety
The market for automotive smart antenna is seeing an increase in demand for ADAS features like adaptive cruise control, collision avoidance systems, 360-degree cameras, and autopilots. In passenger vehicles, the use of radio and satellite communications, vehicle tracking, and remote vehicle diagnostics is growing. The market for artificial intelligence is also seeing an increase in the integration of Level 3 and Level 4 automation. Since the vehicular communication channel exhibits time-frequency selective fading, multi-antenna techniques can enhance link conditions through diversity processing. The goal of these developments is to increase vehicle safety. Additionally, the market for automotive smart antenna is anticipated to see growth due to growing concerns over vehicle safety. Due to the auto industry's declining production rate, the growth of automotive smart antenna market has restricted. Additionally, some fleet operators are apprehensive about installing the automotive smart antenna system for fear of data breaches, which would be a setback for the market. The price of automotive antennas is increasing due to growing consumer concern over vehicle safety.
Vehicle Management
Future autonomous connected cars will enable new inside-and-outside-the-vehicle applications. Vehicles need state-of-the-art sensors and high-performance communication modules to be successful. Real-time data transmission, in-car streaming, quick over-the-air (OTA) software updates, and vehicle-to-everything (V2X) communication are all made possible by dependable and safe 5G technology. Connected cars need GNSS/GPS antennas' precise positioning and geolocation capabilities to operate autonomously. To satisfy the connectivity needs of each OEM, Mitsumi can incorporate 5G and GNSS/GPS technology into customized combination antennas. Companies can identify the ideal solution for each vehicle with the aid of local engineering support.
Lack of Standardization
The most challenging task still involves striking a balance between the requirements for larger antenna bandwidth and smaller device sizes. One efficient strategy to handle this escalating conflict is to design an active antenna system. The demand for compact and affordable components is being fueled by the widespread use of handheld communication devices and the rising demand for radar sensors. Including all required parts on a monolithic microwave integrated circuit (MMIC) is one way to create smaller and less expensive devices. Because of advancements in semiconductor technology, active components that can operate at millimeter (mm)-wave frequencies are now feasible. Passive components can be integrated onto chips at frequencies above 100 GHz. High data rates for communication devices or high resolution for remote sensing applications are made possible by the several gigahertz of bandwidth that is found at at mm-wave frequencies. By integrating the RF parts and antennas, it is possible to prevent lossy off-chip transitions and cut down on the number of connections needed for baseband signals and the power supply. Furthermore, the antenna can be implemented on a chip by being reduced in size to less than a millimeter at mm-wave frequencies.
Market Segmentation
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India automotive smart antenna market is segmented based on frequency, component, vehicle type, region and competitive landscape. Based on frequency the market is segmented into high frequency, very high frequency, ultra-high frequency. By component the market is segmented into transceivers, electronic control unit, wiring harness, and Based on region into Nort, South, West and East.
Key Companies in the Automotive Smart Antenna Market Include
- Laird Connectivity
- Broadcom
- Kymeta
- Continental
- Hirschmann Car Communication
- Robert Bosch
- Antenna Products
- Mitsubishi Electric
- NXP Semiconductors
- TE Connectivity
- Semtech
- Denso
- Molex
Company Profiles
The presence of multiple regional players has led to a highly fragmented market for automotive smart antennas in India. However, some of the top competitors, including Hella GmbH & Co. KGaA, Robert Bosch GmbH, Continental AG, TE Connectivity, Huf Huelsbeck & Fuerst GmbH & Co. KG, MD ELEKTRONIK GmbH, Ericsson Antenna Technology Germany GmbH, Ficosa Group, Harman International have seized sizeable market shares.
Attribute |
Details |
Base Year |
2023 |
Historical Years |
2019 – 2022 |
Estimated Year |
2024 |
Forecast Period |
2025 – 2029 |
Quantitative Units |
Revenue in USD Million and CAGR for 2019-2023 and 2024-2029 |
Report Coverage |
Revenue forecast, company share, competitive landscape, growth factors, and trends |
Segments Covered |
Frequency Component Vehicle Type Region |
Regional Scope |
North, South, East, West |
Key Companies Profiled |
Hella GmbH & Co. KGaA, Robert Bosch GmbH, Continental AG, TE Connectivity, Huf Huelsbeck & Fuerst GmbH & Co. KG, MD ELEKTRONIK GmbH, Ericsson Antenna Technology Germany GmbH, Ficosa Group, Harman International. |
Customization Scope |
10% free report customization with purchase. Addition or alteration to country, regional & 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/pdf format on special request) |
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Table of Content
Here's a sample Table of Contents (TOC) for a report on the India Automotive Smart Antenna Market. Let me know if you want this tailored for a business plan, market research report, or investment presentation.
Table of Contents
India Automotive Smart Antenna Market Report
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Executive Summary
1.1. Market Overview
1.2. Key Findings
1.3. Market Attractiveness Analysis
1.4. Competitive Landscape Snapshot -
Introduction
2.1. Report Scope and Objectives
2.2. Research Methodology
2.3. Assumptions and Limitations
2.4. Glossary of Terms -
Market Dynamics
3.1. Drivers
3.2. Restraints
3.3. Opportunities
3.4. Challenges
3.5. Market Trends -
India Automotive Smart Antenna Market Overview
4.1. Market Definition & Structure
4.2. Market Size and Forecast (2020–2030)
4.3. Market Share Analysis
4.4. Regulatory Landscape
4.5. Value Chain Analysis -
Market Segmentation
5.1. By Vehicle Type-
Passenger Cars
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Commercial Vehicles
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Electric Vehicles
5.2. By Frequency
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Ultra High Frequency (UHF)
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Very High Frequency (VHF)
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High Frequency (HF)
5.3. By Component
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Transceivers
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Electronic Control Units (ECU)
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Wiring Harness
5.4. By Technology
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SISO (Single Input Single Output)
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MIMO (Multiple Input Multiple Output)
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Regional Analysis
6.1. North India
6.2. South India
6.3. East India
6.4. West India -
Competitive Landscape
7.1. Market Share of Key Players
7.2. Company Profiles-
Company A
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Company B
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Company C
7.3. Recent Developments
7.4. Strategic Initiatives
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Impact of COVID-19 and Other Macroeconomic Factors
8.1. Pre and Post COVID-19 Scenario
8.2. Supply Chain Disruptions
8.3. Recovery Outlook -
Future Outlook & Investment Opportunities
9.1. Emerging Trends
9.2. Technological Innovations
9.3. Recommendations for Stakeholders -
Appendices
10.1. Data Sources
10.2. Acronyms
10.3. Contact Information
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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