• Skip to primary navigation
  • Skip to main content
  • Skip to primary sidebar
  • Skip to secondary sidebar
  • Skip to footer
  • NEWS:
  • SatNews
  • SatMagazine
  • MilSatMagazine
  • SmallSat News
  • |     EVENTS:
  • SmallSat Symposium
  • Satellite Innovation
  • MilSat Symposium
  • SmallSat Europe

SatNews

Satellite Industry Intelligence Since 1983

Subscribe
  • LATEST
  • SatNews Events
  • Magazines
  • Calendar
  • Subscribe
  • Missions & Constellations
    • Exploration & Science Missions
    • In-Orbit Servicing & Orbital Operations
    • LEO Constellations
    • Mission Autonomy & Onboard Systems
    • Mission Deployments & Manifests
    • Navigation & PNT
    • SmallSat
    • Spacecraft & Payload Technology
    View All in Missions & Constellations →
    FCC Authorizes Radio Operations for Reflect Orbital’s Light-Reflection Test SatelliteFCC Authorizes Radio Operations for Reflect Orbital’s Light-Reflection Test Satellite
    NASA and ISISPACE Deploy GRITSS CubeSat to Advance Orbital Reference Frame PrecisionNASA and ISISPACE Deploy GRITSS CubeSat to Advance Orbital Reference Frame Precision
    OCCAM Space Secures Flight Heritage via D-Orbit Integration on SpaceX Transporter-17 RideshareOCCAM Space Secures Flight Heritage via D-Orbit Integration on SpaceX Transporter-17 Rideshare
    Global Memory Migration to AI Data Centers Extends Telecom Supply Chain CrisisGlobal Memory Migration to AI Data Centers Extends Telecom Supply Chain Crisis
  • Business
    • Contracts & Commercial Deals
    • Earnings & Financial Reporting
    • Events & Conferences
    • Funding & Venture Capital
    • Market Forecasts
    • Mergers & Acquisitions
    • Personnel Moves & Appointments
    View All in Business & Finance →
    China Storage Market Adjusts Amid AI Infrastructure DemandChina Storage Market Adjusts Amid AI Infrastructure Demand
    Evaluating MNO Yield Strategies in the Direct-to-Device MarketEvaluating MNO Yield Strategies in the Direct-to-Device Market
    Satellite-to-Cell Competition Intensifies as Regulatory Review LoomsSatellite-to-Cell Competition Intensifies as Regulatory Review Looms
    Pakistan Seeks NASA Partnership for 2035 Lunar Mission AmbitionsPakistan Seeks NASA Partnership for 2035 Lunar Mission Ambitions
  • Defense
    • Counterspace & ASAT
    • Defense Budgets & Procurement
    • ISR & Reconnaissance
    • MILSATCOM
    • Missile Warning & Defense
    • National Security Programs
    • Space Domain Awareness
    View All in Military & Defense →
    Pulse Space Secures $40 Million U.S. Space Force Contract for Laser-Based Power Beaming TechnologyPulse Space Secures $40 Million U.S. Space Force Contract for Laser-Based Power Beaming Technology
    GAO Report Cites $11 Billion Cost Overruns and Launch Delivery Bottlenecks in Space Force PortfolioGAO Report Cites $11 Billion Cost Overruns and Launch Delivery Bottlenecks in Space Force Portfolio
    Space Force and True Anomaly Complete First Tactical Intercept of VICTUS HAZE MissionSpace Force and True Anomaly Complete First Tactical Intercept of VICTUS HAZE Mission
    Europe’s sovereign-intelligence boom is just beginning, and it needs more companies like ICEYEEurope’s sovereign-intelligence boom is just beginning, and it needs more companies like ICEYE
  • Gov
    • Export Controls & Compliance
    • International Space Agreements
    • National Space Policy
    • Space Law & Treaties
    • Space Sustainability & Debris Policy
    • Space Traffic Management / Debris Removal
    View All in Government & Regulation →
    ITU Rejects Globalstar Extension Request for French-Licensed HIBLEO FleetITU Rejects Globalstar Extension Request for French-Licensed HIBLEO Fleet
    Balancing Orbit: How Regulators Trade Commercial Viability for National SecurityBalancing Orbit: How Regulators Trade Commercial Viability for National Security
    The Supplemental Mobile Network and The Regional Threat.The Supplemental Mobile Network and The Regional Threat.
    BNP Paribas Outlines Steep Regulatory Obstacles in SpaceX Mobile Integration StrategyBNP Paribas Outlines Steep Regulatory Obstacles in SpaceX Mobile Integration Strategy
  • Launch
    • Launch Providers
    • Launch Schedule & Calendars
    • Launch Sites & Infrastructure
    • Rocket Technology & Vehicles
    View All in Launch →
    China Achieves Historic First Orbital Booster Recovery via At-Sea Net SystemChina Achieves Historic First Orbital Booster Recovery via At-Sea Net System
    Blue Origin Insulates Lunar Landers from Launch Pad Recovery FalloutBlue Origin Insulates Lunar Landers from Launch Pad Recovery Fallout
    South Korea Formally Ratifies 2035 “K-Starlink” Low Earth Orbit Constellation PlanSouth Korea Formally Ratifies 2035 “K-Starlink” Low Earth Orbit Constellation Plan
    SEOPS Completes Multi-National Integration of 10 Payloads for SpaceX Transporter-17 MissionSEOPS Completes Multi-National Integration of 10 Payloads for SpaceX Transporter-17 Mission
  • Software
    • Autonomous Ground Operations
    • Data Processing & AI/ML
    • Digital Twins & Modeling
    • Ground Segment & Teleports
    • Mission Planning & Simulation
    • Space Systems Software Engineering
    • Spectrum & Licensing
    View All in Software Automation & Ground Systems →
    Seiren Solidifies Ground Segment Framework for FUSION-1 SmallSat Mission Through SSC and Infostellar PartnershipSeiren Solidifies Ground Segment Framework for FUSION-1 SmallSat Mission Through SSC and Infostellar Partnership
    Powering the Automated Floor: Intralogistics Operators Must Unify AGV Charging InfrastructurePowering the Automated Floor: Intralogistics Operators Must Unify AGV Charging Infrastructure
    Poland Sovereignty: GMV to Develop Core Ground Control Platform for CAMILA ConstellationPoland Sovereignty: GMV to Develop Core Ground Control Platform for CAMILA Constellation
    Software Over the Air: FatPipe Launches Acceleration Tool to Unclog Starlink and Amazon LEO LinksSoftware Over the Air: FatPipe Launches Acceleration Tool to Unclog Starlink and Amazon LEO Links
  • Services & Apps
    • Climate & Environmental Monitoring
    • Disaster Response & Security Mapping
    • Earth Observation & Imaging
    • Maritime & Aviation Satcom
    • Satellite Communications
    View All in Services & Applications →
    Astrolight Framework Urges Industrialized Laser Backbone to Protect European Space AutonomyAstrolight Framework Urges Industrialized Laser Backbone to Protect European Space Autonomy
    ESA Backs TUSK IC to Commercialize Made-in-Europe Ka-Band Flat-Panel Antenna SiliconESA Backs TUSK IC to Commercialize Made-in-Europe Ka-Band Flat-Panel Antenna Silicon
    Breaking Orbital Silence: Planet Labs Restores Strategic Middle East Imagery PipelinesBreaking Orbital Silence: Planet Labs Restores Strategic Middle East Imagery Pipelines
    SpaceX Controlled-Deorbit Report Discloses Decommissioning of 260 Starlink Satellites Over Six MonthsSpaceX Controlled-Deorbit Report Discloses Decommissioning of 260 Starlink Satellites Over Six Months

IoT Moves to The Final Frontier — Space… An Analysis by OMDIA

March 31, 2020

OMDIA, a global technology research company, has released a report that the Internet of Things (IoT) has already conquered the Earth, with billions of devices everywhere—from cars, to factories, to entire cities. Now IoT is blasting off into space, with cumulative satellite connections expected to rise to more than 10 million by 2025.

The installed base of satellite IoT connections will increase by nearly a factor of four in the coming years, expanding at a 25% CAGR from 2.7 million units in 2019 to reach 10.3 million units in 2025, according to the company.

While satellite IoT will only account for a small proportion of overall IoT connections, it will support critical use cases in industries such as maritime and oil and gas. During the next 10-15 years, standard terrestrial wireless IoT technologies will play a key role in enabling satellite-based IoT connectivity. However, in the near term—or in less than five years—terrestrial wireless technologies will have only minimal impact, accounting for less than 10% of the installed base of satellite-connected IoT devices in 2025, as presented in the chart.

It is important to note that this forecast encompasses directly satellite-connected devices and gateways alone; hundreds or thousands of devices sitting behind the gateway may be potentially excluded.

The new space race
The IoT’s conquest of space has gained momentum over the past year, with the launch of several high-profile ventures that comprise the “NewSpace” movement involving the private spaceflight industry. These ventures, including SpaceX’s Starlink, Amazon’s Project Kuiper, and Softbank-backed OneWeb, are bringing satellite-based broadband Internet access to areas underserved by terrestrial networks.

At the same time, some satellite operators—both established companies and startups—are exploring new opportunities to connect IoT devices. While most rely on proprietary satellite connectivity technologies to support IoT devices, several are starting to leverage terrestrial wireless IoT connectivity technologies in their network strategies.

Terrestrial tech for space connectivity
Terrestrial wireless IoT connectivity technologies—specifically the set of standards comprising LoRaWAN, NB-IoT, LTE-M, and eventually 5G NR Low Power—benefit from scale, compared to proprietary approaches common in the satellite industry. This leads to reduced costs, greater supplier diversity, and easier integration for customers. The benefits have drawn interest from several satellite operators seeking to use terrestrial wireless standards as ground-to-satellite link technology, in place of current proprietary satellite industry connectivity technologies.

While some operators, such as Australia’s Fleet Space Technologies, seek to use terrestrial technologies only for local area networking in conjunction with local gateways containing traditional satellite backhaul links, others intend to replace proprietary satellite connectivity links entirely with terrestrial wireless standards. For example, US-based Ligado Networks has the technical capacity now to support connectivity to an NB-IoT or LTE-M IoT end-device directly from a satellite. No intermediate gateway or proprietary backhaul technology is needed.

Terrestrial IoT faces growth hurdles
Several constraints stand in the way of short-term growth of satellite connectivity for standard terrestrial IoT technologies.

First, the largest established satellite operators have not jumped on the terrestrial wireless IoT bandwagon. These operators include US satellite companies Globalstar, Iridium, and ORBCOMM, as well French-based Eutelsat and Inmarsat of the UK. Together, the five companies accounted for more than 96% of the installed base of satellite IoT connections in 2019, and growing connections at an annual rate of approximately 16%. This implies that new operators using terrestrial wireless technologies would have to grow astronomically to significantly impact the overall mix of IoT connectivity technologies in the short term.

While Globalstar has won approval to use some of its licensed RF spectrum for private terrestrial networks, established satellite operators are sticking with the traditional proprietary technology approach for satellite-to-ground connectivity. These operators have invested significant capital in their existing networks, which already support a rapidly growing base of paying customers. Given their sunk costs—costs that have already been incurred and cannot be recovered—it is not clear that the operators would benefit from rushing to adopt terrestrial wireless technologies before their current satellites reach end of life.

Second, startup satellite operators focused on IoT have taken a mixed approach to terrestrial wireless technologies. Some, like Astrocast of Switzerland, Canada’s Kepler Communications, French IoT connectivity provider Kineis, Australia’s Myriota, British-based Sky and Space Global, and Swarm Technologies in California, follow the traditional approach of using proprietary connectivity technologies. Others, such as Fleet, Ligado, Dutch-based Hiber, the UK’s Lacuna Space, OQ Technology of Luxembourg, and Silicon Valley’s Skylo Technologies use terrestrial wireless protocols, but sometimes in conjunction with terrestrial gateways. For example, Fleet uses LoRaWAN to connect 1,000 devices to a local gateway, but the gateway uses a proprietary, non-terrestrial technology to connect to Fleet’s satellites.

Third, connecting end-devices directly to satellites using terrestrial wireless technologies is complex and requires an investment in research and development. Fleet makes no attempt at all to undertake such an operation, using LoRaWAN only as a terrestrial technology. For Hiber, its directly connected LoRaWAN devices communicate only in the uplink direction because of interference concerns with the amount of power that Hiber satellites would need to communicate on the downlink in unlicensed ISM band spectrum. Ligado can now support NB-IoT and LTE-M now, benefiting from a massive 22-meter antenna on its GEO satellite, and is working with Ericsson and Sequans on 5G. OQ Technology, meanwhile, is still testing its approach. And Skylo Technologies—technically a reseller but possessing noteworthy intellectual property—claims to have an interesting proprietary approach that utilizes NB-IoT in conjunction with third-party GEO satellites; the company has raised $116 million in venture funding.

Because of the variety of proprietary approaches that exist in using mobile terrestrial technologies for satellite connectivity, the 3GPP standards body that develops protocols for mobile telephony should ensure that the 5G standard addresses connectivity to satellites and other non-terrestrial networks, such as unmanned aerial vehicles. However, support for satellite components in 5G architecture, which should be available with 3GPP Release 17, is not slated to be finalized until September 2021.

Recommendations
Given the overall picture, OMDIA believes that terrestrial wireless technologies will have a long-term, 10- to 15-year-horizon impact on the satellite IoT industry. But owing to technical constraints, such as distance and Doppler shifting, line-of-sight requirements, as well as additional service costs to roam onto the satellite network, satellite will likely never replace terrestrial networks as the first-choice connectivity option for IoT. Nevertheless, we expect that within a 15-year to 20-year time horizon, the distinction between a “satellite IoT” device and a “terrestrial IoT” device will cease, and any device with embedded mobile connectivity will be capable of roaming onto satellite networks when out of range of terrestrial infrastructure.

The distinction will disappear because as the 3GPP works to make 5G—and future “Gs”—compatible with non-terrestrial networks, no net additional device hardware cost will be incurred for a mobile device to roam onto a satellite network when terrestrial networks are unavailable. For many IoT applications, having the ability to roam onto satellite networks when needed will be attractive. Overall, this should shift the satellite industry toward 5G—and beyond—to enable such a backup option for satellite customers, which means that even “satellite-first” IoT connections will increasingly utilize terrestrial wireless technologies.

Ultimately, most stakeholders will treat satellite connectivity as simply another means of getting remote data into cloud-based IoT applications. In contexts where data may have been previously unavailable because the device was out of range of a terrestrial network, it will act as an IoT market growth driver. For mobile network operators specifically, an important opportunity will be available to leverage roaming partnerships with satellite operators and expand the addressable market for their core IoT connectivity propositions.


Sam Lucero

Article by Sam Lucero, Senior Principal Analyst, IoT Platforms, OMDIA

Filed Under: Satellite Communications

Primary Sidebar

Coverage

  • Missions & Constellations
  • Business & Finance
  • Military & Defense
  • Launch
  • Software Automation & Ground Systems
  • Government & Regulation
  • Services & Applications

Most Read Stories

  • Direct-to-Device Momentum: AST SpaceMobile Successfully Launches Giant Next-Gen BlueBird Satellites Atop SpaceX Falcon 9
  • Orbital Paperwork War: China's Spectrum Squatting Reserves 244,000 Satellite Slots to Combat SpaceX's LEO Monopoly
  • U.S. viewership of the 2026 World Cup via satellite television is strong and easily accessible
  • Arianespace fights back – possibly!
  • Space Logistics Pivot: USSF Launches Challenge to Develop Multi-Orbit 'Warehouses' and Fuel Depots

Secondary Sidebar

Footer

 

Satnews is a leading provider of satellite news, events, publications, research and other satellite industry information in both commercial and military enterprises worldwide.

Stories By Category

  • Business & Finance
  • Government & Regulation
  • Launch
  • Military & Defense
  • Missions & Constellations
  • Services & Applications
  • Software Automation & Ground Systems
  • Spectrum & Licensing
  • Startups & NewSpace Business

About Us

  • Leadership & Editorial Team
  • SatNews History
  • Free Satnews Subscription
  • SatNews Events
  • Magazines

Navigation

  • Latest Stories
  • Magazines
  • Events
  • Contact
  • Cookie & Privacy Policy for Satnews

We use cookies to ensure that we give you the best experience on our website. If you continue to use this site we will assume that you are happy with it.
x
Sign up Now (For Free)
Access daily or weekly satellite news updates covering all aspects of the commercial and military satellite industry.
Invalid email address
Notify Me Regarding ( At least one ):
We value your privacy and will not sell or share your email or other information with any other company. You may also unsubscribe at anytime.

Click Here to see our full privacy policy.
Thanks for subscribing!