Myriota has built a reputation as a pioneer in satellite communications, delivering secure and cost-effective IoT connectivity solutions. By leveraging nanosatellite technology, the company enables reliable data transmission across remote and previously inaccessible locations. Its advancements in direct-to-satellite communication have redefined how industries such as agriculture, logistics, and environmental monitoring access real-time data.

With a strong history of technological innovation, Myriota has developed an extensive nanosatellite network designed for low-power, long-lasting IoT connectivity. The company’s proprietary approach to satellite IoT ensures ultra-low data costs and scalability without complex infrastructure. Now, through a new partnership with Viasat, Myriota is set to expand its capabilities even further, introducing a non-terrestrial network (NTN) that promises more seamless global connectivity.

Viasat: The Global Communications Leader

Viasat operates at the forefront of global telecommunications, delivering advanced satellite-based internet solutions. With a presence spanning commercial, government, and defense sectors, the company ensures high-speed connectivity in regions where terrestrial networks fall short. Its satellite constellations facilitate uninterrupted communication for aviation, maritime, and remote-located enterprises.

Advancing Space-Based Networks and LEO Innovation

Viasat has played a pivotal role in shaping modern Low-Earth Orbit (LEO) satellite systems. By focusing on high-throughput satellite (HTS) technology, the company enhances broadband accessibility worldwide. The investment in emerging space-based networks demonstrates Viasat’s commitment to bridging connectivity gaps, particularly in underserved and hard-to-reach areas.

• High-Capacity Satellites: The Viasat-3 constellation aims to deliver unprecedented bandwidth levels, supporting applications demanding high-speed connectivity.
• Global Coverage Strategy: Expanding satellite infrastructure enables connectivity solutions that surpass geographical limitations.
• Enterprise and Government Integration: Viasat’s services cater to government communication, aeronautical broadband, and military operations with secure, reliable solutions.

Shaping the Future of Connectivity

The company's innovation extends beyond satellite technology, driving advancements in non-terrestrial network (NTN) deployment. As industry demand for resilient, low-latency communication grows, Viasat's continuous developments in LEO and geostationary satellites reinforce its status as a leader in global connectivity. Strategic partnerships allow further expansion into sectors reliant on remote data transfer and secure transmissions.

With a growing fleet and a forward-thinking approach, Viasat continues to transform telecommunications on a planetary scale, redefining how industries, communities, and governments stay connected.

The Emergence of Non-Terrestrial Networks (NTNs)

A New Paradigm in Global Connectivity

Non-Terrestrial Networks (NTNs) extend connectivity beyond traditional terrestrial infrastructure by utilizing satellites, high-altitude platforms, and other non-ground-based communication systems. These networks bridge gaps in coverage, providing reliable communication in remote areas, over oceans, and in regions where terrestrial networks fail to reach. By complementing existing cellular and fiber-based systems, NTNs ensure seamless global connectivity.

NTNs and 5G: A Converging Ecosystem

The integration of NTNs with 5G technology is transforming wireless communication. The 3rd Generation Partnership Project (3GPP) has standardized NTNs within the 5G framework through Releases 17 and 18, allowing satellites to function as integral components of next-generation mobile networks. This convergence enhances low-latency data transmission, expands broadband access, and enables direct-to-device satellite communication without specialized hardware.

The Potential Impact of NTN-5G Integration

• Extended Coverage: NTNs eliminate connectivity blackspots, servicing industries such as maritime, aviation, and logistics with consistent network access.
• Disaster Resilience: Unlike terrestrial networks, NTNs remain operational during natural disasters, ensuring uninterrupted emergency communications.
• IoT Expansion: NTNs support large-scale IoT deployments by enabling connectivity in remote agricultural fields, environmental monitoring stations, and resource extraction sites.
• Higher Bandwidth Availability: NTN-backed 5G networks boost data transfer speeds in underserved areas, improving digital inclusion efforts worldwide.

Enabling a Fully Connected Planet

With the increasing demand for ubiquitous connectivity, NTNs play a pivotal role in shaping the future of global communications. The seamless interoperability of NTN and terrestrial networks sets the stage for a fully integrated digital ecosystem, where geography no longer dictates access to high-speed, reliable communication services.

The Integration of Internet of Things (IoT)

The Necessity of Robust Connectivity Solutions for the Growing IoT Landscape

Global IoT deployments demand uninterrupted data transmission across diverse environments. Remote industrial sites, agricultural operations, and maritime applications require stable communication despite challenging terrains. Traditional terrestrial networks fail to cover vast geographical regions, leaving significant gaps in connectivity. Non-terrestrial networks (NTNs) bridge this gap, ensuring data flows seamlessly across continents, oceans, and remote regions.

Myriota and Viasat's collaboration addresses these limitations by expanding IoT reach via satellite technology. Their partnership strengthens global coverage, eliminating reliance on cell towers or fixed infrastructure. Industries operating in off-grid locations can now access real-time monitoring, predictive maintenance, and asset tracking without network disruptions.

How IoT Devices Benefit from Improved Network Reach and Reliability

Limited network availability restricts IoT potential. Devices deployed in isolated or underserved locations often suffer from inconsistent connections, leading to data loss and operational inefficiencies. Reliable NTN-based solutions ensure robust connectivity, enhancing the functionality of IoT devices worldwide.

• Consistent Data Transmission: IoT sensors in agriculture and environmental monitoring maintain real-time data streams, supporting informed decision-making.
• Enhanced Asset Tracking: Logistics and supply chain operations leverage uninterrupted satellite communication to track shipments globally.
• Optimized Energy Management: Smart grid technologies benefit from NTN connectivity, enabling efficient distribution and remote monitoring.
• Expanded Remote Operations: Mining, oil & gas, and maritime sectors utilize satellite-powered IoT solutions to ensure safety, efficiency, and automation.

With expanded satellite coverage, IoT adoption accelerates across industries that previously faced communication barriers. The Myriota-Viasat collaboration strengthens these possibilities, powering a new era of continuous, global IoT connectivity.

The Advent of LEO Satellite Systems

Expanding Connectivity Through LEO Satellites

Low Earth Orbit (LEO) satellite systems revolutionize connectivity by reducing latency and increasing data transmission speeds. Unlike geostationary satellites positioned approximately 35,786 km above Earth, LEO satellites operate at altitudes between 500 km and 2,000 km. This proximity to the surface minimizes signal travel time, achieving latencies as low as 20-40 milliseconds—comparable to traditional terrestrial networks.

Global coverage improves as LEO satellites form constellations, ensuring seamless communication even in remote regions. Traditional terrestrial infrastructure struggles with coverage gaps, but LEO networks eliminate these limitations by continuously overlapping satellite footprints. This enables industries such as maritime logistics, precision agriculture, and emergency response to maintain constant connectivity without reliance on ground-based systems.

Nanosatellites: Scaling LEO Network Efficiency

Nanosatellites play a pivotal role in strengthening LEO networks, offering cost-effective deployment and enhanced scalability. Weighing less than 10 kg, these compact structures support rapid deployment in constellations, allowing for higher revisit rates and improved global coverage. Launch costs remain significantly lower than conventional satellites due to their small size and ability to be deployed in batches.

Enhancements in nanosatellite technology contribute to greater network resilience. Distributed satellite constellations reduce data loss risks, ensuring redundancy and fault tolerance. Additionally, advancements in inter-satellite links enable direct satellite-to-satellite communication, reducing dependence on terrestrial relay stations and optimizing real-time data transmission.

With LEO satellite systems integrating nanosatellites into their frameworks, connectivity solutions continue to evolve, bridging gaps in communication infrastructure while optimizing cost and performance.

Expanding the Horizons of Space-Based Communication Networks

Unprecedented Growth in Space-Based Connectivity

Space-based communication networks have evolved from a niche technology into a critical infrastructure for global connectivity. Over the past decade, the satellite communication industry has expanded significantly, driven by advancements in low Earth orbit (LEO) satellite deployments, increased private sector involvement, and rising demand for remote connectivity. According to Euroconsult, the number of active satellites could reach 17,000 by 2030, reflecting a substantial increase from the 4,550 operational satellites recorded in early 2022.

The expansion of space-based networks aligns with the need for seamless, uninterrupted connectivity across the globe. Traditional terrestrial communication relies heavily on fiber optics and cell towers, which fail to cover vast rural and remote areas. Non-terrestrial networks (NTNs), powered by satellite constellations, fill this void by providing global coverage, ensuring that even the most isolated locations have access to reliable data transmission.

Enhancing Connectivity in Remote and Rural Areas

Rural communities and remote industrial operations face significant connectivity limitations due to their distance from major telecommunications infrastructure. Space-based networks eliminate this challenge by offering:

• Wide-Area Coverage: Satellites bypass geographical constraints, delivering coverage where ground-based networks cannot reach.
• Low-Latency Data Transfer: LEO satellites operate at altitudes between 500 km and 2,000 km, reducing signal delay compared to traditional geostationary satellites positioned at 35,786 km.
• Scalability: Space-based networks can support an increasing number of users and connected devices without requiring the deployment of additional terrestrial infrastructure.
• Disaster Resilience: Unlike fiber and cell towers, which are vulnerable to natural disasters, satellite networks remain operational in extreme conditions.

In remote mining regions, offshore energy installations, and isolated scientific research bases, space-based connectivity ensures that critical data flows seamlessly. Agricultural operations benefit from satellite IoT integrations, enabling real-time monitoring of soil conditions, weather data, and equipment performance without dependency on cellular networks.

The Future of Space-Based Network Expansion

Continuous advancements in satellite miniaturization, software-defined networking, and inter-satellite links enhance the efficiency and reliability of space-based systems. NTNs are also increasingly integrated with 5G networks, providing a hybrid solution that delivers both high-speed terrestrial connectivity and seamless satellite coverage.

Private investment in satellite communications continues to grow. Companies such as Myriota and Viasat contribute to the expansion of globally connected systems, ensuring that industries, governments, and rural populations benefit from the new era of ubiquitous connectivity.

The Impact of Global IoT Network Expansion

Expanding the global Internet of Things (IoT) network changes how industries operate, communicate, and optimize processes. With non-terrestrial networks (NTNs) integrating into IoT ecosystems, businesses gain more extensive coverage, reduced latency, and improved data-sharing capabilities. Industries that once struggled with connectivity due to remote locations now have access to real-time data transmission.

Industries Benefiting from Expanded IoT Connectivity

Several sectors experience significant transformations as global IoT networks grow:

• Agriculture: Precision farming becomes more efficient with continuous satellite-enabled monitoring of soil conditions, weather patterns, and equipment status in rural areas.
• Maritime and Logistics: Fleet tracking and cargo management improve with uninterrupted satellite-based IoT connectivity, reducing delays and enhancing security.
• Energy and Utilities: Remote monitoring of oil rigs, mining sites, and power grids ensures better resource management and quicker response to operational issues.
• Environmental Monitoring: Sensors deployed in remote locations track climate changes, air quality, and pollution levels, providing accurate data for research and policy development.

Enhancing Connectivity and Data Sharing

Connecting IoT devices globally removes barriers that once prevented seamless data sharing across regions. NTNs extend coverage beyond terrestrial limitations, enabling secure and reliable data transmission through low-Earth orbit (LEO) satellites. Organizations leverage this connectivity to synchronize operations, automate systems, and enhance decision-making with real-time analytics.

With Myriota and Viasat advancing satellite-based communication networks, global IoT expansion accelerates, delivering broader access to critical data and fostering technological advancements across industries.

A Landmark Partnership: Myriota and Viasat Collaborate

Establishing a Strategic Alliance

Myriota and Viasat officially announced their partnership with a shared objective: expanding the capabilities of non-terrestrial networks (NTNs) through advanced satellite connectivity. This collaboration brings together Myriota’s expertise in direct-to-satellite IoT connectivity and Viasat’s extensive satellite infrastructure to create new possibilities for global connectivity.

The partnership was first disclosed as both companies sought to address the growing demand for low-power, direct-to-device communication solutions. Myriota’s existing network of low Earth orbit (LEO) satellites provides low-cost, energy-efficient IoT solutions, while Viasat’s extensive experience in high-capacity satellite communications offers robust global coverage. Together, they aim to scale NTN capabilities by integrating Myriota’s direct-to-satellite technology with Viasat’s network resources.

Combining Efforts for Global Connectivity and Innovation

Both companies align in their vision of driving telecom innovation beyond terrestrial constraints. Viasat’s well-established geostationary and LEO satellite networks complement Myriota’s scalable IoT solutions, ensuring seamless data transmission across remote and underserved locations. This synergy enables enterprises, governments, and industries to access reliable connectivity without relying on ground-based infrastructure.

• Myriota’s data transmission technology operates efficiently on low-power devices, extending the reach of IoT applications.
• Viasat’s satellite communication infrastructure provides an extensive coverage network essential for real-time data transfer.
• The combined system leverages satellite constellations to enhance the reliability and scale of non-terrestrial networks.

The collaboration strengthens global NTN deployment by leveraging complementary technologies, ensuring continuous connectivity for businesses operating across diverse environments. By merging satellite and IoT innovations, Myriota and Viasat set the foundation for the next phase of space-based communications.

The Synergy of Satellite and Connectivity in the Partnership

Combining Myriota’s Nanosatellite Technology with Viasat’s Global Infrastructure

Myriota operates a constellation of nanosatellites designed for direct-to-sensor communication, enabling low-power, small data packet transmissions from remote locations. These satellites function in Low Earth Orbit (LEO), optimizing data latency and energy consumption. By leveraging a store-and-forward approach, Myriota's network efficiently collects and transmits data, ensuring seamless operation for IoT applications in remote and underserved regions.

Viasat brings high-capacity satellite communications with its geostationary (GEO) and upcoming Low Earth Orbit (LEO) networks. Its expertise in managing large-scale connectivity services allows for global data relay and enterprise-grade communication infrastructure. This partnership aligns their respective strengths, integrating Myriota’s direct-to-device nanosatellite network with Viasat’s well-established global satellite services.

Technical Integration: Enhancing Non-Terrestrial Networks (NTNs)

The collaboration optimizes non-terrestrial networks (NTNs) by merging low-power IoT connectivity with reliable high-throughput satellite communication. Myriota’s ground terminals interact directly with nanosatellites, which aggregate and forward data using an energy-efficient protocol. Viasat's global connectivity backbone enhances this framework by providing a robust data transport layer across geographies.

• Scalability: Myriota’s nanosatellite network scales effectively for billions of IoT connections, while Viasat’s high-capacity satellites offer extended bandwidth for downstream applications.
• Reliability: Viasat’s extensive ground infrastructure strengthens Myriota’s communication network, reducing downtime and improving message delivery assurance.
• Latency Reduction: Integration with Viasat’s LEO initiatives minimizes transmission delays, complementing Myriota's low-power messaging system.
• Optimized Frequency Usage: The combined network efficiently manages radio frequency spectrum, reducing interference while maintaining a high data transmission efficiency.

By integrating these technologies, Myriota and Viasat enable a satellite ecosystem that supports both low-data IoT solutions and high-bandwidth applications. The convergence of nanosatellite efficiency with a large-scale connectivity network extends the utility of NTNs, ensuring enterprises gain seamless, secure, and globally accessible IoT communication.

Powering Industries with Enhanced IoT Solutions

Myriota and Viasat’s partnership strengthens global IoT connectivity, enabling industries to optimize operations with reliable and cost-effective satellite communication. By leveraging non-terrestrial networks (NTNs), companies in remote and underserved regions gain unprecedented access to data-driven decision-making. Several sectors stand to benefit significantly from this expanded coverage and enhanced connectivity.

Transforming Agriculture with Real-Time Insights

Precision agriculture relies on continuous data collection to monitor soil moisture, weather conditions, and crop health. Traditional IoT solutions struggle in rural areas due to limited terrestrial network availability. Myriota's direct-to-satellite connectivity eliminates coverage gaps, allowing farmers to track equipment usage, remotely monitor water levels, and optimize irrigation systems.

• Australian agribusinesses, such as Goanna Ag, have already demonstrated significant water savings using satellite-enabled IoT sensors.
• Livestock monitoring systems utilizing Myriota's technology help track animal movement and health, reducing losses and improving productivity.

Enhancing Maritime Operations and Asset Tracking

Maritime industries depend on seamless connectivity for vessel tracking, cargo monitoring, and predictive maintenance. The expanded satellite IoT coverage ensures continuous ship-to-shore communication, even across vast oceanic regions.

• Shipping companies can reduce fuel consumption by leveraging real-time data analytics on engine performance.
• Fisheries implementing Myriota-enabled sensors can track vessel location, monitor onboard conditions, and improve supply chain efficiency.

Revolutionizing Mining and Resource Extraction

In mining operations, equipment monitoring and worker safety depend on consistent data transmission. Underground and remote sites often lack cellular coverage, making NTNs a game-changer for the industry.

• Resource extraction companies use satellite IoT to prevent machinery failures and schedule predictive maintenance.
• Wearable health sensors for miners enhance safety by detecting hazardous environmental conditions in real time.

Strengthening Emergency Response and Environmental Monitoring

Emergency response teams require fast, reliable data in disaster-stricken areas, where conventional communication networks often fail. Meanwhile, environmental agencies depend on real-time sensor data for effective conservation and climate monitoring.

• Wildfire detection networks integrating satellite IoT allow authorities to respond rapidly and prevent escalation.
• Organisations such as the Great Barrier Reef Foundation utilize remote sensing to monitor coral bleaching and ocean temperatures.

Driving the Future of Non-Terrestrial IoT

The Myriota-Viasat partnership presents a transformative shift in how industries access and utilize IoT-driven insights. From agriculture to maritime and resource extraction, companies will harness reliable, cost-effective satellite connectivity to streamline operations and enhance efficiency. As NTNs continue to expand, industries will experience unprecedented levels of automation, predictive analytics, and real-time decision-making.

Customer Centricity at the Heart of the Partnership

Myriota and Viasat are aligning their satellite expertise to deliver a seamless customer experience. This partnership prioritizes accessibility, reliability, and efficiency, ensuring enterprises leveraging non-terrestrial networks (NTNs) gain tangible benefits. With a robust focus on end-user needs, both companies are enhancing IoT connectivity for industries spanning agriculture, logistics, and environmental monitoring.

Enhancing User Experience Through Advanced Connectivity

By integrating Myriota’s direct-to-satellite technology with Viasat’s established global network, enterprises will experience lower latency, improved data transmission, and more efficient energy consumption. This collaboration eliminates coverage gaps, enabling remote operations to function without disruption.

Rural industries, for example, will gain uninterrupted access to critical data points such as soil moisture and weather updates. Similarly, logistics providers monitoring asset locations can rely on continuous satellite coverage without switching between disparate connectivity solutions.

Optimized Customer Service and Support

With the expansion of satellite-based IoT solutions, responsive customer support becomes a priority. Myriota and Viasat are embedding user-focused service enhancements, including:

• Proactive Troubleshooting: AI-driven diagnostics will identify potential connectivity disruptions before they affect operations.
• Streamlined Device Integration: Plug-and-play solutions will simplify satellite-enabled IoT device deployment.
• Scalable Service Plans: Flexible connectivity packages allow businesses to scale their IoT usage as required, minimizing wasted resources.

These enhancements will reduce downtime, enhance operational efficiency, and provide businesses with a more intuitive experience when deploying NTN-based IoT solutions.

Reliable, Secure, and Future-Proof Connectivity

Security remains a cornerstone of this collaboration. Encrypted data paths and enhanced cybersecurity protocols will safeguard sensitive IoT transmissions across the expanded satellite network. As Myriota’s direct-to-satellite technology matures, customers can expect enhanced encryption layers, ensuring resilience against digital threats.

By embedding user-focused innovations at every stage, this partnership is crafting a satellite IoT ecosystem where businesses can operate with confidence, agility, and long-term sustainability.

The Future of Telco: Non-Terrestrial Networks and 5G

Non-Terrestrial Networks and 5G Integration

Non-terrestrial networks (NTNs) will reshape telecom infrastructure by extending 5G coverage beyond traditional cellular limits. With satellite technology, connectivity no longer depends solely on terrestrial base stations. Instead, low Earth orbit (LEO) satellites, geostationary orbit (GEO) satellites, and high-altitude platforms (HAPs) ensure continuous coverage across remote areas, oceans, and underserved regions.

The 3rd Generation Partnership Project (3GPP) has already incorporated NTNs into 5G standards, specifically in Release 17, which defines operational frameworks for integrating satellites into the 5G ecosystem. This implementation enables direct-to-device communication without the need for intermediary ground infrastructure. It also enhances network resilience, ensuring uninterrupted connectivity during natural disasters and emergency situations.

Impact on Telecom Industry’s 5G Rollout Strategies

Myriota’s collaboration with Viasat introduces a dynamic approach for telecom operators seeking cost-effective, scalable 5G expansion. Traditional 5G deployments rely heavily on dense terrestrial infrastructure, necessitating extensive investments in small cells and fiber-optic backhaul. NTNs circumvent these geographic and financial constraints by delivering connectivity via space-based assets.

• Bridging the Digital Divide: NTNs enable telecom operators to provide 5G coverage in rural and remote areas without the expense of constructing extensive ground networks.
• Network Redundancy and Security: Satellite-driven 5G adds a layer of resilience, mitigating risks of terrestrial network failures caused by natural disasters, cyberattacks, or infrastructure damage.
• Industrial and IoT Applications: Industries requiring seamless connectivity—such as agriculture, mining, logistics, and maritime operations—integrate NTN-powered 5G to optimize real-time data transmission.
• New Business Models: Telecom providers leverage satellite-based backhaul to deploy 5G services in previously inaccessible markets, minimizing capital expenditure while enhancing global connectivity.

A Converged Future of Connectivity

NTNs and 5G will continue to converge, enabling hybrid networks that dynamically switch between terrestrial and satellite networks. Advancements in software-defined networking (SDN) and network function virtualization (NFV) will facilitate seamless integration, allowing devices to roam between terrestrial and non-terrestrial networks without service disruptions. Edge computing deployed on space-based platforms will further enhance latency-sensitive applications, supporting the emergence of real-time analytics and AI-driven automation.

The synergy between Myriota and Viasat reinforces the trajectory toward an interconnected future where satellites complement 5G infrastructure, ensuring universal, continuous, and resilient connectivity. As NTNs evolve, telecom operators must adopt adaptive strategies to incorporate satellite communication into mainstream mobile broadband networks.

Shaping the Future of Global Connectivity

The Myriota-Viasat partnership introduces a new era in satellite technology, IoT expansion, and worldwide connectivity. By combining Myriota’s expertise in low-power, direct-to-satellite IoT solutions with Viasat’s extensive satellite communication infrastructure, the collaboration sets a foundation for next-generation non-terrestrial networks. Industries relying on large-scale, remote data collection—such as agriculture, logistics, and environmental monitoring—will see increased efficiency and reliability in their operations.

Non-terrestrial networks will play a decisive role in bridging connectivity gaps, especially in areas with little to no terrestrial infrastructure. This partnership strengthens global momentum toward ubiquitous, seamless connectivity, where even the most remote locations gain access to real-time data and communication services. As 5G and NTNs continue to evolve, Myriota and Viasat's strategies could enable new business models and transform digital ecosystems.

Stay Updated on Next-Generation Satellite Solutions

• Follow Myriota for insights into direct-to-satellite IoT innovation.
• Explore Viasat’s developments in global satellite communications.
• Dive into the future of satellite technology and IoT by reading industry reports from organizations such as the International Telecommunication Union and 5G Americas.