Market Research Report

A quick peek into the report

1.1   Trends: Current and Future Impact Assessment
1.2   R&D Review
1.2.1   Patent Filing Trend by Country, by Company
1.3   Stakeholder Analysis
1.3.1   Use Case
1.3.2   End User and Buying Criteria
1.4   Market Dynamics Overview
1.4.1   Market Drivers
1.4.2   Market Restraints
1.4.3   Market Opportunities
1.5   Convergence of Cellular IOT and Non-terrestrial Networks
1.5.1   Emergence of GEOs, MEOs and LEOs Applications in IOT
1.5.2   IoT Use Cases in Remote Areas
1.5.3   Role of Satellite Operators
1.5.4   Standardization Efforts

2.1   Application Segmentation
2.2   Application Summary
2.3   Hybrid Cellular/Non-Terrestrial Network (NTN) IoT Market (by Application)
2.3.1   UAVs Tracking and Monitoring
2.3.2   Sea Asset Tracking
2.3.3   Infrastructure Monitoring
2.3.4   Agriculture
2.3.5   Others

3.1   Product Segmentation
3.2   Product Summary
3.3   Hybrid Cellular/Non-Terrestrial Network (NTN) IoT Market (by IOT Protocol)
3.3.1   NB-IOT
3.3.2   LTE-M
3.3.3   5G-NR and 5G mMTC
3.3.4   LoRaWAN and LPWAN
3.4   Hybrid Cellular/Non-Terrestrial Network (NTN) IoT Market (by Component)
3.4.1   By Device
3.4.1.1   Gateways
3.4.1.2   Terminals
3.4.1.3   Others
3.4.2   Network

4.1   Hybrid Cellular/Non-Terrestrial Network (NTN) IoT Market Center (by Region)
4.2   North America
4.2.1   Regional Overview
4.2.2   Driving Factors for Market Growth
4.2.3   Factors Challenging the Market
4.2.4   Application
4.2.5   Product
4.2.6   U.S.
4.2.6.1   Market by Application
4.2.6.2   Market by Product
4.2.7   Rest of North America
4.2.7.1   Market by Application
4.2.7.2   Market by Product
4.3   Europe
4.3.1   Regional Overview
4.3.2   Driving Factors for Market Growth
4.3.3   Factors Challenging the Market
4.3.4   Application
4.3.5   Product
4.3.6   Germany
4.3.6.1   Market by Application
4.3.6.2   Market by Product
4.3.7   France
4.3.7.1   Market by Application
4.3.7.2   Market by Product
4.3.8   U.K.
4.3.8.1   Market by Application
4.3.8.2   Market by Product
4.3.9   Netherlands
4.3.9.1   Market by Application
4.3.9.2   Market by Product
4.3.10   Rest-of-Europe
4.3.10.1   Market by Application
4.3.10.2   Market by Product
4.4   Asia-Pacific
4.4.1   Regional Overview
4.4.2   Driving Factors for Market Growth
4.4.3   Factors Challenging the Market
4.4.4   Application
4.4.5   Product
4.4.6   China (including Hong Kong)
4.4.6.1   Market by Application
4.4.6.2   Market by Product
4.4.7   Japan
4.4.7.1   Market by Application
4.4.7.2   Market by Product
4.4.8   South Korea
4.4.8.1   Market by Application
4.4.8.2   Market by Product
4.4.9   Rest-of-Asia-Pacific
4.4.9.1   Market by Application
4.4.9.2   Market by Product
4.5   Rest-of-the-World
4.5.1   Regional Overview
4.5.2   Driving Factors for Market Growth
4.5.3   Factors Challenging the Market
4.5.4   Application
4.5.5   Product
4.5.6   South America
4.5.6.1   Market by Application
4.5.6.2   Market by Product
4.5.7   Middle East and Africa
4.5.7.1   Market by Application
4.5.7.2   Market by Product

5.1   Next Frontiers
5.2   Geographic Assessment
5.3   Company Profiles
5.3.1   Thales Group
5.3.1.1   Overview
5.3.1.2   Top Products/Product Portfolio
5.3.1.3   Top Competitors
5.3.1.4   Target Customers
5.3.1.5   Key Personnel
5.3.1.6   Analyst View
5.3.1.7   Market Share
5.3.2   Sateliot
5.3.2.1   Overview
5.3.2.2   Top Products/Product Portfolio
5.3.2.3   Top Competitors
5.3.2.4   Target Customers
5.3.2.5   Key Personnel
5.3.2.6   Analyst View
5.3.2.7   Market Share
5.3.3   Skylo
5.3.3.1   Overview
5.3.3.2   Top Products/Product Portfolio
5.3.3.3   Top Competitors
5.3.3.4   Target Customers
5.3.3.5   Key Personnel
5.3.3.6   Analyst View
5.3.3.7   Market Share
5.3.4   Inmarsat
5.3.4.1   Overview
5.3.4.2   Top Products/Product Portfolio
5.3.4.3   Top Competitors
5.3.4.4   Target Customers
5.3.4.5   Key Personnel
5.3.4.6   Analyst View
5.3.4.7   Market Share
5.3.5   Hiber
5.3.5.1   Overview
5.3.5.2   Top Products/Product Portfolio
5.3.5.3   Top Competitors
5.3.5.4   Target Customers
5.3.5.5   Key Personnel
5.3.5.6   Analyst View
5.3.5.7   Market Share
5.3.6   Globalstar
5.3.6.1   Overview
5.3.6.2   Top Products/Product Portfolio
5.3.6.3   Top Competitors
5.3.6.4   Target Customers
5.3.6.5   Key Personnel
5.3.6.6   Analyst View
5.3.6.7   Market Share
5.3.7   Sony Altair
5.3.7.1   Overview
5.3.7.2   Top Products/Product Portfolio
5.3.7.3   Top Competitors
5.3.7.4   Target Customers
5.3.7.5   Key Personnel
5.3.7.6   Analyst View
5.3.7.7   Market Share
5.3.8   INELTEK LTD.
5.3.8.1   Overview
5.3.8.2   Top Products/Product Portfolio
5.3.8.3   Top Competitors
5.3.8.4   Target Customers
5.3.8.5   Key Personnel
5.3.8.6   Analyst View
5.3.8.7   Market Share
5.3.9   Murata
5.3.9.1   Overview
5.3.9.2   Top Products/Product Portfolio
5.3.9.3   Top Competitors
5.3.9.4   Target Customers
5.3.9.5   Key Personnel
5.3.9.6   Analyst View
5.3.9.7   Market Share
5.3.10   Semtech
5.3.10.1   Overview
5.3.10.2   Top Products/Product Portfolio
5.3.10.3   Top Competitors
5.3.10.4   Target Customers
5.3.10.5   Key Personnel
5.3.10.6   Analyst View
5.3.10.7   Market Share
5.3.11   Orbcomm
5.3.11.1   Overview
5.3.11.2   Top Products/Product Portfolio
5.3.11.3   Top Competitors
5.3.11.4   Target Customers
5.3.11.5   Key Personnel
5.3.11.6   Analyst View
5.3.11.7   Market Share
5.3.12   Astrocast
5.3.12.1   Overview
5.3.12.2   Top Products/Product Portfolio
5.3.12.3   Top Competitors
5.3.12.4   Target Customers
5.3.12.5   Key Personnel
5.3.12.6   Analyst View
5.3.12.7   Market Share

Research Methodology

Hybrid Cellular/Non-Terrestrial Network (NTN) IoT Market Report Coverage

Hybrid Cellular/Non-Terrestrial Network (NTN) IoT Market
Base Year	2024	Market Size in 2025	$XX Billion
Forecast Period	2025-2035	Value Projection and Estimation by 2035	$XX Billion
CAGR During Forecast Period	XX%

Some of the prominent names in this market are:

•   Thales Group
•   Sateliot
•   Skylo
•   Inmarsat
•   Hiber
•   Globalstar
•   Sony Altair
•   INELTEK LTD.
•   Murata
•   Semtech
•   Orbcomm
•   Astrocast

How can this report add value to an organization?

Product/Innovation Strategy: This report provides a comprehensive product/innovation strategy for the hybrid cellular (NTN) IoT market, identifying opportunities for market entry, technology adoption, and sustainable growth. It offers actionable insights, helping organizations to meet environmental standards, gain a competitive edge, and capitalize on the increasing demand for eco-friendly solutions in various industries.

Growth/Marketing Strategy: This report offers a comprehensive growth and marketing strategy designed specifically for the hybrid cellular (NTN) IoT market. It presents a targeted approach to identifying specialized market segments, establishing a competitive advantage, and implementing creative marketing initiatives aimed at optimizing market share and financial performance. By harnessing these strategic recommendations, organizations can elevate their market presence, seize emerging prospects, and efficiently propel revenue expansion.

Competitive Strategy: This report crafts a strong competitive strategy tailored to the hybrid cellular (NTN) IoT market. It evaluates market rivals, suggests methods to stand out, and offers guidance for maintaining a competitive edge. By adhering to these strategic directives, companies can position themselves effectively in the face of market competition, ensuring sustained prosperity and profitability.

Introduction to the Global Hybrid Cellular (NTN) IoT Market (Including Market in 2024 and 2035)

The Global Hybrid Cellular (NTN) IoT Market is on an accelerated growth trajectory as businesses and governments look to extend reliable connectivity beyond traditional terrestrial infrastructures. In 2024, market interest is primarily fueled by the expansion of remote monitoring applications, where standard cellular coverage is limited or nonexistent. By integrating non-terrestrial networks such as low Earth orbit (LEO) or geostationary orbit (GEO) satellites organizations can ensure seamless IoT data transmission over great distances, including maritime regions and rural sites lacking robust terrestrial coverage.

By 2035, the confluence of 5G deployments and large-scale satellite constellations is poised to reshape connectivity paradigms. With enhanced bandwidth, lower latency, and more affordable satellite access, previously inaccessible IoT use cases ranging from agricultural sensor networks to oceanic asset tracking will become viable. Moreover, ongoing standardization efforts by international bodies (e.g., 3GPP) and hardware cost reductions should further catalyze mass adoption of hybrid connectivity solutions. The result is expected to be a more globally interconnected IoT ecosystem, reaching underserved markets and revolutionizing data-driven operations on land, sea, and air.

Regional Analysis

North America currently leads in hybrid cellular/NTN IoT implementation, driven by strong satellite infrastructure, early 5G rollouts, and advanced IoT ecosystems. Telecommunications providers in the U.S. and Canada partner with satellite operators to deliver end-to-end coverage, particularly for energy, agriculture, and UAV-based applications.

In Europe, robust regulatory support and significant R&D investments spur rapid adoption of combined satellite-cellular solutions. Operators in France, the U.K., and Germany leverage existing high-tech industries and a tech-savvy market to deploy IoT platforms for logistics, maritime navigation, and precision farming.

Meanwhile, Asia-Pacific displays high growth potential, with countries like China, Japan, and South Korea heavily funding satellite constellations and 5G. Rural connectivity and infrastructure projects also drive interest in hybrid solutions for large-scale agricultural monitoring and industrial operations.

Emerging markets in the Rest-of-the-World (particularly parts of Africa and Latin America) benefit from satellite IoT to overcome gaps in terrestrial coverage. Government-backed digitalization initiatives enhance the demand for reliable, wide-area connectivity, making hybrid cellular/NTN networks integral to bridging the digital divide.

Segments in the Global Hybrid Cellular/Non-Terrestrial Network (NTN) IoT Market

•   By Application
o   UAVs Tracking and Monitoring
o   Sea Asset Tracking
o   Infrastructure Monitoring
o   Agriculture
o   Others

•   By Product
o   By IoT Protocol
•   NB-IoT
•   LTE-M
•   5G-NR and 5G mMTC
•   LoRaWAN and LPWAN
o   By Component
•   Device
o Gateways
o Terminals
o Others
•   Network

•   By Region
o   North America
o   Europe
o   Asia-Pacific
o   Rest-of-the-World

Trend in the Market

An important trend is the standardization of satellite-based IoT protocols to interoperate seamlessly with terrestrial networks. Organizations like 3GPP are actively defining specifications (for example, 5G NR Release 17) that incorporate satellite links. This allows devices designed for LTE-M or NB-IoT to connect over non-terrestrial networks with minimal modifications, simplifying global deployments. Parallel to this, hardware vendors are rolling out multimode chipsets capable of automatically switching between satellite and terrestrial connections. This push toward unified standards expedites development cycles, reduces complexity, and accelerates market adoption by making hybrid connectivity more cost-effective and user-friendly.

Driver in the Market

A driving force behind this market’s growth is the demand for ubiquitous coverage to support remote or mission-critical IoT applications. Industries such as maritime shipping, oil and gas, and large-scale agriculture require reliable data communication in areas where terrestrial networks fail or are too expensive to build. By integrating satellite connectivity, organizations can track assets, monitor environmental conditions, and support automated systems in locations without conventional cellular service. As a result, enterprises seeking to safeguard operations and optimize supply chains increasingly embrace hybrid solutions that ensure non-stop, real-time data transfer worldwide.

Restraint in the Market

Despite the market’s expansion, high initial costs and complexity continue to hamper the full-scale deployment of hybrid cellular/NTN IoT systems. Satellite bandwidth, specialized hardware, and subscription fees can be prohibitively expensive for smaller businesses or cost-sensitive sectors. Additionally, configuring devices and gateways to handle different protocols and frequency bands may require specialized skills and extended testing periods. These factors can delay adoption, especially in regions or industries operating on tight margins, where a clear return on investment must be demonstrated before committing to new infrastructure.

Opportunity in the Market

Emerging use cases for UAVs, remote sensing, and disaster response offer a notable growth opportunity. Hybrid connectivity greatly enhances operations in areas prone to natural disasters satellite links remain operational even if ground-based networks are compromised. Drones equipped with satellite-based IoT modules can provide crucial real-time data for search and rescue, infrastructure assessments, and environmental monitoring. As governments and relief agencies recognize the value of such integrated solutions, funding and collaboration opportunities are expected to grow. Vendors capable of delivering rugged, scalable systems that support both terrestrial and satellite links will be well-positioned to capitalize on this rapidly developing segment.