LEO(Àú±Ëµµ) À§¼º IoT ½ÃÀå Àü¸Á : ±âȸ, ¼ºÀå ÃËÁø¿äÀÎ, »ê¾÷ µ¿Ç⠺м® ¹× ¿¹Ãø(2024-2032³â)
Low Earth Orbit (LEO) Satellite IoT Market Opportunity, Growth Drivers, Industry Trend Analysis, and Forecast 2024 - 2032
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8¾ï 4,960¸¸ ´Þ·¯ |
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47¾ï 9,000¸¸ ´Þ·¯ |
¿¬Æò±Õ ¼ºÀåÀ²(CAGR) |
22.1% |
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The Global Low Earth Orbit (LEO) Satellite IoT Market reached USD 849.6 million in 2023 and is projected to expand at a robust CAGR of over 22.1% from 2024 to 2032. This market is experiencing rapid growth, driven by technological advancements and a rising need for seamless global connectivity.
While LEO satellite IoT presents exciting prospects, it also brings unique challenges. Demand for reliable, low-latency IoT connectivity in remote areas has spurred adoption across industries like agriculture, maritime, and transportation, thanks to innovations in satellite technology. However, the high costs associated with launching and maintaining satellite networks can be a barrier for smaller players, and complex regulatory requirements across different regions further complicate global deployment efforts.
Segmented by service type, the LEO satellite IoT market includes satellite IoT backhaul and direct-to-satellite options. In 2023, direct-to-satellite services held the largest market share at over 55%. These services allow devices to connect directly to satellites without requiring ground-based infrastructure, which enhances connectivity in remote and underserved areas. This technology enables dependable communication for emergency services, remote work, and IoT applications.
Market Scope |
Start Year | 2023 |
Forecast Year | 2024-2032 |
Start Value | $849.6 Million |
Forecast Value | $4.79 Billion |
CAGR | 22.1% |
In terms of frequency band, the market includes L-band, Ku- and Ka-band, S-band, and others. The Ku- and Ka-band segment is anticipated to register a CAGR of over 23% during the forecast period. Known for its distinct advantages, the Ku-band offers broader coverage and dependable performance in diverse weather conditions commonly utilized in broadband and satellite TV. Meanwhile, the Ka-band, with higher data rates and greater bandwidth, is optimized for high-speed internet and advanced IoT applications, although it is more sensitive to weather interference.
North America led the LEO satellite IoT market in 2023, capturing over 36% of the share, and is expected to maintain its leading position through 2032. The region's growth is underpinned by strong technological progress and a high demand for global connectivity. Companies are actively developing extensive satellite constellations, while others are enhancing satellite capabilities, supporting applications ranging from precision agriculture to emergency response. Favorable regulatory frameworks and substantial investments in space infrastructure solidify North America's influence in advancing satellite-based IoT solutions.
Table of Contents
Chapter 1 Methodology & Scope
- 1.1 Market scope & definitions
- 1.2 Base estimates & calculations
- 1.3 Forecast calculations
- 1.4 Data sources
- 1.4.1 Primary
- 1.4.2 Secondary
- 1.4.2.1 Paid sources
- 1.4.2.2 Public sources
Chapter 2 Executive Summary
- 2.1 Industry synopsis, 2021-2032
Chapter 3 Industry Insights
- 3.1 Industry ecosystem analysis
- 3.1.1 Factor affecting the value chain
- 3.1.2 Profit margin analysis
- 3.1.3 Disruptions
- 3.1.4 Future outlook
- 3.1.5 Manufacturers
- 3.1.6 Distributors
- 3.2 Supplier landscape
- 3.3 Profit margin analysis
- 3.4 Key news & initiatives
- 3.5 Regulatory landscape
- 3.6 Impact forces
- 3.6.1 Growth drivers
- 3.6.1.1 Accelerating global connectivity through LEO satellites
- 3.6.1.2 Innovative breakthroughs in LEO satellite technology
- 3.6.1.3 Expanding IoT ecosystem and its impact on LEO satellites
- 3.6.1.4 Strategic collaborations and investments driving LEO satellite growth
- 3.6.1.5 Increasing demand for economic and environmental monitoring
- 3.6.2 Industry pitfalls & challenges
- 3.6.2.1 Substantial deployment costs for LEO satellite networks
- 3.6.2.2 Challenges of space debris and orbital congestion through LEO satellites
- 3.7 Growth potential analysis
- 3.8 Porter's analysis
- 3.9 PESTEL analysis
Chapter 4 Competitive Landscape, 2023
- 4.1 Introduction
- 4.2 Company market share analysis
- 4.3 Competitive positioning matrix
- 4.4 Strategic outlook matrix
Chapter 5 Market Estimates & Forecast, By Service Type, 2021-2032 (USD Million)
- 5.1 Key trends
- 5.2 Satellite IoT backhaul
- 5.3 Direct-to-Satellite
Chapter 6 Market Estimates & Forecast, By Frequency Band, 2021-2032 (USD Million)
- 6.1 Key trends
- 6.2 L-band
- 6.3 Ku-and Ka-band
- 6.4 S-band
- 6.5 Others
Chapter 7 Market Estimates & Forecast, By Organization Size, 2021-2032 (USD Million)
- 7.1 Key trends
- 7.2 Large enterprises
- 7.3 SME
Chapter 8 Market Estimates & Forecast, By End Use, 2021-2032 (USD Million)
- 8.1 Key trends
- 8.2 Maritime
- 8.3 Oil & gas
- 8.4 Energy & utilities
- 8.5 Transportation & logistics
- 8.6 Healthcare
- 8.7 Agriculture
- 8.8 Military & defense
- 8.9 Others
Chapter 9 Market Estimates & Forecast, By Region, 2021-2032 (USD Million)
- 9.1 Key trends
- 9.2 North America
- 9.3 Europe
- 9.3.1 UK
- 9.3.2 Germany
- 9.3.3 France
- 9.3.4 Italy
- 9.3.5 Spain
- 9.3.6 Russia
- 9.4 Asia Pacific
- 9.4.1 China
- 9.4.2 India
- 9.4.3 Japan
- 9.4.4 South Korea
- 9.4.5 Australia
- 9.5 Latin America
- 9.5.1 Brazil
- 9.5.2 Mexico
- 9.6 MEA
- 9.6.1 South Africa
- 9.6.2 Saudi Arabia
- 9.6.3 UAE
Chapter 10 Company Profiles
- 10.1 AAC Clyde Space
- 10.2 Airbus
- 10.3 BAE Systems
- 10.4 Blue Origin
- 10.5 China Aerospace Science and Technology Corporation
- 10.6 Exolaunch
- 10.7 GomSpace
- 10.8 Lockheed Martin
- 10.9 Maxar Technologies
- 10.10 Millennium Space Systems
- 10.11 Mitsubishi Electric
- 10.12 Northrop Grumman
- 10.13 OHB
- 10.14 OneWeb
- 10.15 RTX
- 10.16 Sierra Nevada
- 10.17 SpaceX
- 10.18 Thales Alenia Space
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