The United States distributed antenna system (DAS) industry size reached US$ 747.4 million in 2019. The industry is expected to be valued at US$ 1,004.4 million in 2024.
Over the projection period 2024 to 2034, distributed antenna system demand is likely to expand at a CAGR of 6.3%. It is anticipated to attain a valuation of around US$ 1,849.9 million by 2034. The industry is estimated to record a y-o-y growth of 5.7% in 2024.
| Attributes | Key Insights |
|---|---|
| Anticipated United States Distributed Antenna System Industry Size (2023A) | US$ 946.7 million |
| Estimated United States Distributed Antenna System Industry Size (2024E) | US$ 1,004.4 million |
| Projected United States Distributed Antenna System Industry Size (2034F) | US$ 1,849.9 million |
| Value-based CAGR (2024 to 2034) | 6.3% |
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The United States distributed antenna system industry is driven by growth in large metropolitan areas. Rising demographic trend is witnessing an increasing influx of individuals choosing leading metropolitan cities as their preferred residence.
Growing migration is attributed to the allure of expanded employment opportunities, elevated standard of living, improved public transportation, and access to a vast range of services. In recent years, there has been a discernible uptick in the proportion of individuals opting for densely populated metropolitan locales across the United States.
Rapid urbanization has further catalyzed a strategic shift toward advanced technological solutions to sustain reliable internet services within these densely populated urban areas. One of the most prominent solutions among these is DAS.
Bi-directional antenna system technology stands out as a key infrastructure investment for ensuring seamless and robust internet services in metropolitan areas. This is primarily due to their small size. They can be easily placed in dense metropolitan areas where it would be difficult to accommodate large cell phone towers.
DAS are set to work in conjunction with cell phone towers. These are anticipated to be used to distribute network traffic over a sub-region.
Growing adoption of distributed antenna systems in the United States represents a critical factor propelling the industry. It is also expected to be fueled by escalating preference of the population for metropolitan living. As the country strives to accommodate and enhance the connectivity needs of its increasing population, demand for DAS is expected to rise.
Manufacturers in the United States are looking to future proof their DAS offerings by supporting novel network technologies. DAS solutions are being integrated in new constructions during their planning stages.
Adoption of small cell technologies and DAS to provide coverage in denser parts of buildings is set to drive demand. Growing usage of multiband DAS systems to support multiple frequency bands is likely to support the industry. Lastly, increasing focus of vendors on upgrading their DAS systems to support 5G standards is likely to push demand.
Increasing cellular connections and smartphone penetration along with rising number of online services would drive demand for DAS in the United States. Growing integration of DAS with other network technologies such as small cells, 5G, and optical fiber is also expected to propel demand.
Increasing efforts to integrate DAS into the existing public transit infrastructure is likely to support the United States. The pre-planning of network infrastructure in new constructions is projected to lead to more deployments of DAS. Leading distributed antenna system companies in the country are offering DAS infrastructure as a service to mobile virtual network operators (MVNOs) to reduce deployment costs.
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Key players might face difficulties in testing and maintaining outdoor DAS due to complex components such as fiber optic cables. DAS deployment can be time-consuming as it requires companies to seek permission from land owners and builders.
Rising need to support a large number of frequencies is expected to lead to high cost of wireless DAS, which might hamper demand. Increasing demand for adaptable firmware to support latest network technologies is likely to hinder growth of the American distributed antenna system industry.
Increasing number of new urban development projects would require plans for starting internet services, which is estimated to create new growth opportunities. The proliferation of internet of things (IoT) is expected to surge with high demand for neutral host distributed antenna systems from factories and industrial areas.
Development of carrier neutral DAS is likely to expand to allow for new deployments to be leased and provide additional income. Ongoing development of smart cities in the United States is set to aid demand. Key companies are hence capitalizing on the need for DAS across smart cities
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| Historical CAGR (2019 to 2023) | 6.1% |
|---|---|
| Historical Value (2023) | US$ 946.7 million |
From 2019 to 2023, the United States distributed antenna system industry experienced a CAGR of 6.1%, reaching a size of US$ 946.7 million in 2023. The historical period had a mixed impact on DAS systems, with certain industries pushing demand. Supply chain disruptions and lockdown regulations had a negative impact on a few industries, which decreased demand for DAS.
Looking ahead, the United States distributed antenna system industry is expected to rise at a CAGR of 6.3% from 2024 to 2034. During the forecast period, the industry size is expected to reach US$ 1,849.9 million.
As several vendors embrace new trends, the Wi-Fi distributed antenna system industry is projected to expand at a fast pace. They are focusing on strategies like integration with small cell technology to address network capacity challenges in confined spaces. These mainly include high-traffic hotspots and critical zones, where focused improvements in network coverage and capacity are essential.
Semi-annual Industry Update
| Particular | Value CAGR |
|---|---|
| H1 | 5.9% (2019 to 2023) |
| H2 | 6.1% (2019 to 2023) |
| H1 | 6.2% (2024 to 2034) |
| H2 | 6.3% (2024 to 2034) |
The section below showcases the CAGRs of leading segments based on DAS type, application, product, and end-user. By DAS type, the active distributed antenna systems (DAS) segment is projected to lead by exhibiting a CAGR of 6.8% through 2034. Based on application, the indoor coverage category will likely expand at 7.1% CAGR in the same period.
In terms of product, the antennas segment is set to witness a CAGR of 6.4% through 2034. By end-user, the public venues segment is projected to showcase a 6.5% CAGR through 2034.
Industry Growth Outlook by DAS Type
| DAS Type | Value CAGR |
|---|---|
| Active Distributed Antenna Systems (DAS) | 6.8% |
| Passive Distributed Antenna Systems (DAS) | 4.8% |
| Hybrid Distributed Antenna Systems (DAS) | 7.9% |
Active DAS is relatively cost-effective to install as it does not use any passive components such as coaxial cables. It relies entirely on a full fiber-based installation, which is generally cheaper than using coaxial cables. This also gives it the advantage of range, as fiber optic cables can carry signals far longer than coaxial cables. The active DAS system segment is estimated to hold a dominant share of 61.3% in 2024 and reach a value of US$ 615.4 million.
Industry Growth Outlook by Application
| Application | Value CAGR |
|---|---|
| Indoor Coverage | 7.1% |
| Outdoor Coverage | 5.1% |
Indoor DAS (IDAS) extends wireless coverage so that wireless connectivity is strong and seamless throughout a property. The technology is powerful but discrete, enabling mobile devices to use it in a building.
A single IDAS infrastructure can serve multiple users in places like airports, train stations, stadiums, and convention centers that require connectivity to meet operational requirements. Due to this factor, the indoor DAS segment is expected to surge at a CAGR of 7.1% over the forecast period.
Industry Growth Outlook by Product
| Product | Value CAGR |
|---|---|
| Antennas | 6.4% |
| Bi-Directional Amplifiers (BDAs) | 5.1% |
| Remote Radio Heads (RRH) | 7.4% |
| Fiber Optic Cables | 8.4% |
| Splitters and Couplers | 3.8% |
| Other Devices | 2.4% |
Antennas form the backbone of every single DAS installation. DAS is used to distribute incoming signals from a cell tower into a particular area, which can be a stadium, an office, or an airport.
Generally, these are venues where large cellphone towers cannot be placed. In order to receive signal from cellphone towers, DAS makes use of an antenna. Due to this, the das digital antenna system segment is anticipated to hold a dominant share of 41.1% and a value of US$ 412.7 million in 2024.
Industry Growth Outlook by End-user
| End-user | Value CAGR |
|---|---|
| Commercial | 7.7% |
| Industrial | 5.0% |
| Public Venues | 6.5% |
| Residential | 3.5% |
The majority of the public venues that fall under the segment include stadiums and concert halls. These are really large and capable of holding a lot of people. This makes it essential to provide high-quality network services not only for those visiting the venue but also for other operations, such as broadcasting. Due to this, the public venue segment is anticipated to hold a dominant share of 39.4% and a value of US$ 395.4 million in 2024.
Key players are focusing on business expansion through collaboration. They are also investing in product development and building strategic partnerships to help with the deployment of DAS systems. These strategies would enable their products to be easily recommended to other companies.
Several renowned vendors and stakeholders, particularly the well-established ones, are focused on making strategic collaborations in order to deploy their products. These deployments are set to help them expand their reach to more companies.
Several key players in the United States DAS industry are focused on investing in improving their public safety DAS offerings. These refer to the use of DAS systems for communication during an emergency. As public safety DAS is not prioritized across small-scale firms, manufacturers are likely to start offering these systems to gain a competitive edge.
Some of the large-scale key players are looking to make strategic acquisitions with component manufacturers. These include companies that make DAS components, such as cables and antennas. This would allow them to work closely with component manufacturers and acquire components easily.
Key Developments in the United States Distributed Antenna System Industry:
The industry is expected to hit US$ 1,004.4 million in 2024.
The industry is predicted to reach US$ 1,849.9 million by 2034.
Hybrid DAS is estimated to show the most promising growth over the forecast period.
CommScope, Corning Incorporated, and JMA Wireless.
The global industry reached US$ 29.7 billion in 2032.
DAS is used where space is limited, and BDA is used in challenging locations.
It is used to offer wireless coverage to roadway tunnels, hospitals, airports, and subways.
CommScope, SOLiD Technologies, Boingo Wireless, and American Tower.
1. Executive Summary
1.1. Industry Outlook
1.2. Demand Side Trends
1.3. Supply Side Trends
1.4. Analysis and Recommendations
2. Industry Overview
2.1. Industry Coverage / Taxonomy
2.2. Industry Definition / Scope / Limitations
3. Key Industry Trends
3.1. Key Trends Impacting the Industry Growth
3.2. Product Innovation/Development Trends
4. Pricing Models
4.1. Pricing Analysis, By DAS Type
4.2. Average Pricing Analysis
5. Industry Background
5.1. Macro-Economic Factors
5.2. Forecast Factors - Relevance & Impact
5.3. Value Chain
5.4. COVID-19 Crisis – Impact Assessment
5.4.1. Current Statistics
5.4.2. Short-Mid-Long Term Outlook
5.4.3. Likely Rebound
5.5. Industry Dynamics
5.5.1. Drivers
5.5.2. Restraints
5.5.3. Opportunity Analysis
6. Industry Demand (in Value or Size in US$ million) Analysis 2019 to 2023 and Forecast, 2024 to 2034
6.1. Historical Industry Value (US$ million) Analysis, 2019 to 2023
6.2. Current and Future Industry Value (US$ million) Projections, 2024 to 2034
6.2.1. Y-o-Y Growth Trend Analysis
6.2.2. Absolute $ Opportunity Analysis
7. Industry Analysis 2019 to 2023 and Forecast 2024 to 2034, by DAS Type
7.1. Introduction / Key Findings
7.2. Historical Industry Size (US$ million) Analysis By DAS Type, 2019 to 2023
7.3. Current and Future Industry Size (US$ million) Analysis and Forecast By DAS Type, 2024 to 2034
7.3.1. Active
7.3.2. Passive
7.3.3. Hybrid
7.4. Industry Attractiveness Analysis By DAS Type
8. Industry Analysis 2019 to 2023 and Forecast 2024 to 2034, by Technology
8.1. Introduction / Key Findings
8.2. Historical Industry Size (US$ million) Analysis By DAS Type, 2019 to 2023
8.3. Current and Future Industry Size (US$ million) Analysis and Forecast By Technology, 2024 to 2034
8.3.1. Cellular/Commercial
8.3.2. Public Safety
8.4. Industry Attractiveness Analysis By Technology
9. Industry Analysis 2019 to 2023 and Forecast 2024 to 2034, by Product
9.1. Introduction / Key Findings
9.2. Historical Industry Size (US$ million) Analysis By Product, 2019 to 2023
9.3. Current and Future Industry Size (US$ million) Analysis and Forecast By Product, 2024 to 2034
9.3.1. Antennas
9.3.2. Bi-directional Amplifiers (BDAs)
9.3.3. Remote Radio Heads (RRH)
9.3.4. Fiber Optic Cables
9.3.5. Splitters and Couplers
9.3.6. Other Devices
9.4. Industry Attractiveness Analysis By Product
10. Industry Analysis 2019 to 2023 and Forecast 2024 to 2034, by Application
10.1. Introduction / Key Findings
10.2. Historical Industry Size (US$ million) Analysis By Application, 2019 to 2023
10.3. Current and Future Industry Size (US$ million) Analysis and Forecast By Application, 2024 to 2034
10.3.1. Indoor Coverage
10.3.2. Outdoor Coverage
10.4. Industry Attractiveness Analysis By Application
11. Industry Analysis 2019 to 2023 and Forecast 2024 to 2034, by End-user
11.1. Introduction / Key Findings
11.2. Historical Industry Size (US$ million) Analysis By End-user, 2019 to 2023
11.3. Current and Future Industry Size (US$ million) Analysis and Forecast By End-user, 2024 to 2034
11.3.1. Commercial
11.3.1.1. Hotels & Restaurants
11.3.1.2. Retail Complexes/Malls
11.3.1.3. Healthcare Facilities
11.3.1.4. Education Campuses
11.3.1.5. Other Commercial Structures
11.3.2. Industrial
11.3.2.1. Manufacturing Plants
11.3.2.2. Oil & Gas Plants
11.3.2.3. Mining Sites
11.3.2.4. Other Industrial Settings
11.3.3. Public Venues
11.3.3.1. Sport Stadium & Arenas
11.3.3.2. Concert Halls & Auditoriums
11.3.3.3. Public Transit Hubs (Airports, Subways, Train Stations, Bus Transits)
11.3.3.4. Government Buildings/Offices
11.3.3.5. Other Public Venues
11.3.4. Residential Building
11.4. Industry Attractiveness Analysis By End-user
12. Industry Structure Analysis
12.1. Industry Analysis by Tier of Companies
12.2. Industry Share Analysis of Key Players
13. Competition Analysis
13.1. Competition Dashboard
13.2. Competition Deep Dive
13.2.1. Business Overview
13.2.2. DAS Type Portfolio and Strengths
13.2.3. Key Clients Footprint
13.2.4. Go-to-Industry Approach & Strategies
13.2.5. Recent Developments (Partnerships, Mergers etc.)
13.3. Prominent Distributed Antenna Systems (DAS) Vendors
13.3.1. CommScope
13.3.2. Corning Incorporated
13.3.3. TE Connectivity
13.3.4. JMA Wireless
13.3.5. Boingo Wireless
13.3.6. Cobham Wireless
13.3.7. SOLiD
13.3.8. Axell Wireless (now part of Cobham Wireless)
13.3.9. Anixter Inc.
13.3.10. Bird Technologies
13.3.11. Galtronics
13.3.12. Westell Technologies
13.3.13. BTI Wireless
13.3.14. Advanced RF Technologies, Inc. (ADRF)
13.3.15. Dali Wireless
13.3.16. American Tower Corporation
13.3.17. HUBER+SUHNER
13.3.18. G-Wave Solutions
13.3.19. Crown Castle
13.3.20. Comba Telecom Systems Holdings Ltd
13.3.21. Comtech Technologies Inc.
14. Assumption and Acronyms Used
15. Research Methodology
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Distributed Antenna System (DAS) Industry Analysis in the United States
