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Khurram Shahzad Senior Director Analyst at Gartner
End-user spending on low Earth orbit (LEO) satellite communications services is expected to reach $14.8 billion globally in 2026, an increase of 24.5% from 2025, according to Gartner, Inc.
“LEO satellites have primarily delivered broadband connectivity to remote locations where traditional networks don’t reach,” said Khurram Shahzad, Senior Director Analyst at Gartner. “However, new consumer and business use cases are emerging, driving communications service providers (CSPs) to expand the market. This is enabling LEO satellites to become a mainstream enterprise broadband technology.”
LEO satellites orbit closer to the Earth than traditional satellite technology, providing faster connections and lower latency. This allows them to deliver high-speed broadband and complement traditional terrestrial networks. The market is entering a rapid expansion phase, with over 20 active LEO satellite service providers and more than 40,000 satellites expected in the next few years.
“As use cases continue to grow, companies and consumers can expect consistent internet access and Internet of things (IoT) sensing anywhere, without being limited by location,” Shahzad said. “Even airplanes, ships and sea platforms will benefit from new means of network resiliency and a ubiquitous internet.”
The largest growth in LEO satellite communications services in 2026 will come from businesses and consumers in remote areas with no other connectivity options, with spending expected to increase 40.2% and 36.4% respectively. This is followed by LEO services for IoT connectivity (32%), maritime and aviation (13.8%) and network resilience improvement (7.7%) (see Table 1).
Table 1. LEO Satellite Communications Services End-User Spending Worldwide, 2025-2026 (Millions of U.S. Dollars)
|
Segment |
2025 Spending |
2025 Growth (%) |
2026 Spending |
2026 Growth (%) |
|
No Connectivity Alternatives (Consumer) |
3,015 |
41.9 |
4,113 |
36.4 |
|
No Connectivity Alternatives (Business) |
1,864 |
46.6 |
2,612 |
40.2 |
|
Resilience Improvement |
2,367 |
9.5 |
2,550 |
7.7 |
|
Maritime and Aviation |
1,963 |
15.0 |
2,234 |
13.8 |
|
IoT Connectivity |
1,757 |
36.4 |
2,320 |
32.0 |
|
Other |
894 |
5.9 |
935 |
4.5 |
|
Total |
11,860 |
26.2 |
14,764 |
24.5 |
Note: Other includes emergency response, connectivity for temporary locations and poor wired broadband quality.
Source: Gartner (July 2025)
Emerging use cases for LEO satellite communications services can be categorized into four distinct areas:
1. Fixed and Mobile Broadband Service
The main early use of LEO satellite services is for fixed and mobile broadband connectivity, especially for remote sites and to augment existing broadband connections. These services support use cases such as connectivity in areas with no broadband service, temporary locations like construction sites, or on ships and airplanes. They are also used for communication during emergency responses, or to improve resilience as fallback or backup connectivity to traditional broadband.
For example, LEO-connected drones are used in Australia to deliver 4G/5G mobile connectivity during natural disasters, while some U.S. airlines are starting to offer free high-speed Wi-Fi to passengers using LEO satellite communications services.
2. Global IoT Connectivity
LEO IoT satellites complement or even replace traditional IoT networks for applications needing global coverage, with limited bandwidth and latency requirements. They can be used for global asset tracking, agriculture, oil and gas, natural resources, transportation and logistics, military sensing and security monitoring.
For example, global IoT connectivity is being deployed for land, sea and air using LEO satellites. In China, an automaker launched 20 LEO satellites to improve navigation for autonomous vehicles and plans to have a constellation of 240 satellites.
3. Supplementing Mobile Broadband Services
LEO satellite communications services can supplement mobile broadband by providing seamless coverage and enhancing the user experience through direct-to-device (D2D) connections and integration with 5G non-terrestrial networks.
For example, a New Zealand CSP launched a D2D LEO satellite service that lets customers send and receive texts in the 40% of the country not covered by mobile towers. Residents in the Cook Islands have been able to use text messaging services via satellite for almost two years.
4. Infrastructure Backhaul
Both CSPs and enterprises with geographically dispersed operations can leverage LEO satellites for reliable and high-bandwidth connectivity, supporting critical applications, data transfer and communication needs independent of traditional terrestrial limitations.
For example, LEO satellites can provide the necessary backhaul for the operations of government agencies and defense organizations, which often require secure and reliable communication links in remote or hostile environments.
“Despite these expanding use cases, the industry remains nascent with various limitations, including regulatory barriers in some countries and capacity constraints in certain areas,” said Shahzad. “LEO services can also encounter roaming restrictions, lack interoperability and aren’t certified for all mission-critical maritime needs. It’s important for CSPs to assess strategies on a use case basis.”