Archives September 2023

cruise ship

What is L Band

The L-band frequency spectrum, which operates between 1 to 2 gigahertz (GHz), is highly valued by the maritime community because it can effectively transmit signals even in challenging weather conditions like rain, fog, and storms.

In the constantly changing realm of communication, Yesway Communications L-Band services demonstrate our unwavering dedication to providing seamless connectivity, no matter the geographical challenges


Maritime broadband, providing internet connectivity at sea, offers significant advantages. It helps streamline operations, reducing costs for operators or creating opportunities for new businesses. Thanks to reliable satellite networks, having internet access at sea is not only feasible but also highly practical.

Premium Resilience and Stability

The L-band spectrum falls under the category of ‘Mobile Satellite Services’ (MSS).

These services allow users to pay for satellite bandwidth as needed and have been the go-to choice for voice and data connectivity in the maritime industry for quite some time.

While band services have some limitations, such as higher operational costs compared to VSAT (Very Small Aperture Terminal), they also come with lower equipment costs.

However, it’s worth noting that L-band services can be less predictable in terms of costs, occasionally resulting in unexpected bills, especially when users don’t monitor their usage properly.

Nonetheless, the band remains highly regarded in the maritime community because it can maintain communication even in adverse weather conditions.

Furthermore, L-band networks offered by companies like Inmarsat and Iridium are global, enabling ships to use a single service. The trade-off here is that L-band may offer lower connectivity speeds and higher operational costs.

Maritime Internet for Crew Welfare

A reliable and seamless communication link at sea is now essential for attracting and retaining crew members and ensuring their mental and physical well-being.

It allows crew members to stay connected with their loved ones and access social media, contributing to their contentment. Additionally, telemedicine services play a crucial role in providing healthcare support.

One advantage of the band is that its terminals are much smaller than VSAT antennas, making them suitable for various vessel types, from yachts to supertankers.

Moreover, hardware is well-suited for maritime use because it requires less precise antenna pointing, making it easier to maintain a stable connection.

While the band has limitations that restrict heavy reliance on digital applications for smart shipping, it will continue to have a significant role in the future.

L-band terminals often complement VSAT installations, stepping in when primary Ka-band, Ku-band, or C-band systems are unavailable due to weather conditions or a lack of service in specific regions.

For instance, Inmarsat FleetBroadband, operating in the L-band, is an essential part of Inmarsat’s Fleet Xpress service, which also utilizes Ka-band satellites.

Furthermore, the new Iridium Certus L-band service is expected to become a popular secondary channel on VSAT networks due to its global coverage, ensuring connectivity for ships anywhere in the world, even at the poles.

In the constantly changing realm of communication, Yesway Communications L-Band services demonstrate our unwavering dedication to providing seamless connectivity, no matter the geographical challenges

    Introducing Iridium Certus® – it’s your ticket to a rock-solid global connection with lightning-fast L-band speeds, no matter where you are or what the weather’s like.

    You get to choose from different speed options, ranging from a speedy 22Kbps to a blazing 704 Kbps.

    These speeds are perfect for making crystal-clear voice calls, streaming videos, accessing the internet without a hitch, and swiftly sharing files, photos, or videos.

    And the magic happens when you pair Iridium Certus® withYesway Communications’ top-notch extra value-added services.

    Together, they create the ultimate solution for all your communication needs, whether it’s for essential, primary, or backup use. Plus, our VSAT companion comes with cutting-edge broadband IP data management and asset tracking, ready to serve you wherever you go.

    maritime IOT
    Inmarsat Fleet Broadband

    Enter Inmarsat FleetBroadband, the service trusted by over 45,000 vessels worldwide.

    It’s your ticket to seamless access to both voice and data, boasting an impressive 99.9% network availability.

    Thanks to Yesway Communications and our technology partners, you can count on FleetBroadband to keep vessels of all sizes connected. We offer a variety of hardware choices and packages to meet every vessel’s needs, whether it’s for vital communications, crew connectivity, weather updates, or vessel management.

    superyacht radio communications installation services

    OneWeb For Superyachts

    Smooth Sailing with OneWeb: Advantages for Superyachts

    Superyachts offer luxurious adventures on the high seas, and OneWeb satellite connectivity is making these voyages even more incredible. In this article, we’ll explore how OneWeb is transforming the superyacht sector, ensuring that your experience is nothing short of extraordinary.

    1. Staying Connected, Everywhere

    Superyacht journeys often take you far from the coastline, where regular internet connections might falter. With OneWeb, you can enjoy uninterrupted connectivity even in the middle of the ocean, keeping you connected to the world, no matter how remote your destination.

    2. Lightning-Fast Internet

    Imagine streaming your favorite movies or conducting video conferences while cruising in style. OneWeb offers high-speed internet that can handle all your entertainment and business needs, turning your yacht into a hub of productivity and leisure.

    3. Lag-Free Gaming and Entertainment

    For gaming enthusiasts, low latency is a game-changer. Thanks to OneWeb’s low Earth orbit satellites, you can engage in online gaming without the frustrating lag, making your yacht the ultimate gaming retreat.

    4. Chartering Opportunities

    Superyachts are often chartered for special occasions or vacations. With OneWeb connectivity, you can offer your charter guests a premium experience, ensuring they have the connectivity they need for work, communication, and entertainment during their voyage.

    5. Efficient Remote Operations

    Managing a yacht often requires real-time monitoring of systems and equipment. OneWeb allows for remote diagnostics and monitoring, ensuring your yacht operates at peak efficiency. It’s like having a tech-savvy crew member watching over your vessel 24/7.

    6. Enhanced Navigation and Safety

    Safety at sea is of utmost importance. OneWeb’s connectivity supports advanced navigation systems and provides critical weather updates, enhancing the safety and peace of mind of everyone on board.

    7. Seamless Entertainment

    Superyachts are all about relaxation and entertainment. With OneWeb, you can enjoy uninterrupted streaming of music, movies, and TV shows, turning your yacht into a floating entertainment paradise.

    8. Reliable Communications

    Whether you’re contacting the mainland for supplies or checking in with loved ones, OneWeb ensures reliable communication, even in the most remote areas of the ocean. It’s like having a direct line to the world, no matter where you are.

    9. Simplified Guest Experience

    OneWeb simplifies the guest experience on your superyacht. Guests can connect their devices effortlessly, stream content, and stay in touch with family and friends, making their time on board even more enjoyable.

    10. Future-Proofing

    As technology evolves, so does OneWeb’s network. Investing in OneWeb connectivity ensures that your yacht is ready for future innovations, making it a valuable asset for years to come.

    In conclusion, OneWeb satellite connectivity is a game-changer for the superyacht sector. It offers seamless, high-speed internet, enhances safety, and elevates the overall experience for both owners and charter guests. So, if you want to sail smoothly and stay connected in style, OneWeb is your ticket to a superyacht adventure like no other. Bon voyage!


      Improving Crew Welfare at Sea

      Title: Improving Crew Welfare at Sea: The Benefits of LEO Satellite Connectivity

      When it comes to life at sea, maintaining the welfare and happiness of the crew is paramount. For this reason, providing Low Earth Orbit (LEO) satellite connectivity to ships has become a game-changer. Let’s explore the advantages of this technology and how it’s transforming life onboard for seafarers.

      1. Staying Connected with Loved Ones:

      One of the most significant advantages of LEO satellite connectivity is the ability for crew members to stay connected with their families and friends back home. Being away from loved ones for extended periods can be tough, but with reliable internet access, seafarers can make video calls, send messages, and share their experiences, easing the feeling of isolation and homesickness.

      2. Access to Entertainment:

      Imagine spending weeks or months at sea with limited sources of entertainment. LEO satellite connectivity opens up a world of possibilities. Crew members can stream movies, play online games, and access a variety of digital content during their downtime, making life onboard more enjoyable and relaxing.

      3. Enhancing Professional Development:

      Continuous learning and professional development are crucial for seafarers. With LEO satellite connectivity, crew members can access online training programs, educational resources, and certification courses while at sea. This not only improves their skills but also enhances their career prospects.

      4. Real-Time Communication and Safety:

      In emergency situations, fast and reliable communication can be a matter of life and death. LEO satellite connectivity ensures that crew members can communicate with the ship’s management, authorities, and emergency services in real-time. This capability enhances safety at sea and provides peace of mind to both crew members and their families ashore.

      5. Efficient Crew Management:

      Ship operators benefit from LEO satellite connectivity as well. They can efficiently manage crew schedules, logistics, and payroll, leading to more streamlined operations. It also helps in reducing administrative overhead and ensures crew members are well taken care of.

      6. Mental Health and Well-Being:

      Life at sea can be challenging, and seafarers often face stressful situations. LEO satellite connectivity supports crew members’ mental health by enabling access to counseling services and mental health resources. It provides a lifeline for those who may need someone to talk to during difficult times.

      7. Improving Crew Retention:

      Providing LEO satellite connectivity is a significant factor in retaining experienced crew members. Happy and connected crews are more likely to stay with a company, reducing turnover rates and the costs associated with training new personnel.

      In conclusion, LEO satellite connectivity has revolutionized life at sea, offering crew members a chance to stay connected, entertained, and informed while onboard. It not only enhances their welfare but also contributes to a safer and more efficient maritime industry. By investing in this technology, ship operators ensure that their crew members have the tools and resources they need to thrive both personally and professionally, making life at sea a better experience for everyone involved, improving crew welfare at sea.


        Achieve Global Connectivity with VSAT

        In our interconnected world, seamless and reliable communication is paramount for businesses, governments, and individuals alike. One technology that has played a pivotal role in providing global connectivity is Very Small Aperture Terminal (VSAT). VSAT technology has become a cornerstone for communication, enabling organizations to establish reliable and high-speed connections across the globe. Let’s delve into the world of VSAT and explore its impact on worldwide connectivity.

        Understanding Compact Satellite Technology

        Refers to a two-way satellite communication system that utilizes small satellite dishes for both transmission and reception of data. Unlike traditional communication methods that rely on large, centralized satellite dishes, Compact Satellite terminals are versatile. These terminals consist of a small dish, usually around 1.2 to 2.4 meters in diameter, and a transceiver that communicates with a geostationary satellite in orbit.

        Global Reach and Accessibility

        One of the primary advantages of Compact Satellite technology is its ability to provide connectivity in remote and hard-to-reach areas. Traditional terrestrial networks often struggle to extend their reach to these locations due to geographical challenges. Compact Satellite bridges this gap by enabling communication in areas where other forms of connectivity are impractical or too costly to implement.

        This capability is especially crucial for industries such as oil and gas, maritime, and emergency response, where operations are frequently conducted in remote and isolated locations. Compact Satellite ensures that these industries can maintain real-time communication, monitor operations, and respond promptly to any unforeseen events.

        High-Speed Data Transmission

        Compact Satellite technology boasts high-speed data transmission capabilities, making it ideal for applications that demand quick and reliable communication. Whether it’s video conferencing, large data transfers, or real-time monitoring, Compact Satellite ensures that data is transmitted swiftly and efficiently. This is particularly valuable for businesses with a global presence, as it facilitates smooth collaboration and decision-making across different geographical locations.

        Scalability and Flexibility

        Compact Satellite networks are highly scalable and can be easily expanded to accommodate growing communication needs. This scalability is a significant advantage for businesses that experience fluctuations in communication demands. Whether an organization is expanding its operations or hosting a temporary event, Compact Satellite can be adapted to meet the evolving requirements, providing a flexible solution for diverse scenarios.

        Enhanced Reliability

        Reliability is a critical factor in global communication, and Compact Satellite excels in this aspect. The use of geostationary satellites ensures a stable connection, and the redundancy built into Compact Satellite networks minimizes the risk of communication breakdowns. This reliability is especially important for mission-critical applications, such as emergency response and disaster recovery, where constant and dependable communication can be a matter of life and death.

        Environmental Considerations

        Compact Satellite technology is also recognized for its environmental benefits. In comparison to traditional communication infrastructure, which often requires extensive cabling and construction, Compact Satellite terminals have a lower environmental impact. The compact size of Compact Satellite dishes and the ability to deploy them without significant physical infrastructure make this technology a more sustainable choice for global connectivity.

        Future Prospects

        As technology continues to advance, the role of Compact Satellites in global VSAT connectivity is likely to expand. Innovations in satellite technology, such as the development of high-throughput satellites, promise to enhance the capabilities of Compact Satellite networks even further. Additionally, the integration of Compact Satellite with other communication technologies, such as 5G, opens up new possibilities for seamless and integrated global connectivity.

        In conclusion, Compact Satellite technology stands as a beacon of connectivity in our interconnected world. Its ability to provide reliable, high-speed communication in remote locations, coupled with scalability and environmental considerations, positions Compact Satellite as a key player in shaping the future of global connectivity. As technology continues to evolve, the impact of Compact Satellite is set to grow, fostering a more connected and collaborative world.

          Revolutionizing Connectivity

          Title: Revolutionizing Connectivity: The Advantages of Kymeta and OneWeb


          In an increasingly connected world, access to reliable and fast internet connectivity has become a necessity. Two companies at the forefront of this revolution are Kymeta and OneWeb. Kymeta specializes in cutting-edge satellite antenna technology, while OneWeb is focused on providing global satellite internet coverage. Together, they offer a promising solution to bridge the digital divide and bring connectivity to even the most remote corners of the globe. In this article, we will explore the advantages of Kymeta and OneWeb and how their technologies are reshaping the way we connect.

          Kymeta: Advancing Satellite Antenna Technology

          Kymeta Corporation is a pioneer in metamaterials-based satellite antenna technology. Their innovative approach to satellite communication offers several distinct advantages:

          1. Flat, Lightweight Antennas: Traditional satellite dishes are bulky and difficult to transport. Kymeta’s flat-panel antennas are lightweight and can be easily integrated into various types of vehicles, ships, aircraft, and even backpacks. This portability makes them ideal for remote and mobile applications.
          2. Automatic Beam Steering: Kymeta’s antennas use metamaterials and software-defined beamforming to electronically steer the antenna’s beam towards the satellite. This enables continuous connectivity even when on the move, without the need for manual adjustments.
          3. Global Coverage: With Kymeta’s technology, users can connect to satellites in both geostationary and non-geostationary orbits, providing global coverage and minimizing latency. This versatility ensures that users stay connected regardless of their location.

          OneWeb: Bridging the Digital Divide

          OneWeb is on a mission to connect the world through its Low Earth Orbit (LEO) satellite constellation. Here are the key advantages of OneWeb’s approach:

          1. Global Internet Access: OneWeb’s constellation of LEO satellites aims to provide high-speed, low-latency Internet access to users worldwide, especially in underserved and remote areas where traditional infrastructure is lacking. This initiative has the potential to bridge the digital divide and bring opportunities for education, healthcare, and economic development to millions of people.
          2. Reduced Latency: Unlike traditional geostationary satellites, which are located much farther from Earth, OneWeb’s LEO satellites orbit at lower altitudes. This proximity significantly reduces latency, making real-time applications like video conferencing and online gaming more feasible.
          3. Scalability: OneWeb’s constellation is designed to scale rapidly, with plans to deploy thousands of satellites. This scalability ensures that as demand for internet connectivity grows, OneWeb can meet the needs of an expanding user base.

          Synergy Between Kymeta and OneWeb

          The collaboration between Kymeta and OneWeb holds the potential to revolutionize satellite communications. By combining Kymeta’s advanced antenna technology with OneWeb’s global satellite internet coverage, several advantages emerge:

          1. Seamless Connectivity: Kymeta’s flat-panel antennas can easily connect to OneWeb’s LEO satellites, providing users with a seamless and reliable internet experience even in remote locations.
          2. Mobility: The portability of Kymeta’s antennas aligns perfectly with OneWeb’s mission to connect users on the move. This synergy is particularly valuable for industries like maritime, aviation, and disaster response, where reliable connectivity is essential.
          3. Global Reach: Together, Kymeta and OneWeb create a comprehensive solution for global connectivity, addressing the needs of businesses, governments, and individuals who require high-speed internet access anywhere in the world.


          Kymeta and OneWeb represent two groundbreaking companies that are reshaping the future of connectivity. Kymeta’s innovative antenna technology and OneWeb’s ambitious satellite constellation project complement each other, offering a compelling solution to connect the unconnected and improve global internet access.

          As these companies continue to advance their technologies and expand their networks, we can expect to see a world where internet connectivity is no longer limited by geographical boundaries. The advantages of Kymeta and OneWeb are not only transforming how we connect but also opening up new possibilities for education, healthcare, commerce, and communication across the globe, revolutionizing connectivity.


          Satellite Orbits

          Satellites orbit around celestial bodies, such as planets or stars, under the influence of gravity. The specific characteristics of a satellite’s orbit depend on various factors, including its altitude, velocity, and the mass of the celestial body it is orbiting. Here are some key concepts related to satellite orbits:

          1. Orbital Altitude: The altitude or distance above the Earth’s surface at which a satellite orbits is a crucial factor. Satellites in low Earth orbit (LEO) are closer to the Earth and typically orbit at altitudes ranging from about 160 kilometers (100 miles) to around 2,000 kilometers (1,240 miles). Medium Earth orbit (MEO) and geostationary orbit (GEO) satellites are positioned at higher altitudes, with GEO satellites orbiting at approximately 35,786 kilometers (22,236 miles) above the equator.
          2. Orbital Velocity: The speed at which a satellite orbits its parent body is called its orbital velocity. The orbital velocity depends on the altitude and the mass of the celestial body. Satellites in lower orbits must travel faster to maintain their orbits, while those in higher orbits can move more slowly.
          3. Orbital Period: The time it takes for a satellite to complete one orbit around its parent body is called its orbital period. This period is determined by the satellite’s altitude and orbital velocity. Satellites in lower orbits have shorter orbital periods than those in higher orbits.
          4. Types of Orbits:
            • Low Earth Orbit (LEO): Satellites in LEO are positioned relatively close to the Earth’s surface. They are often used for purposes such as Earth observation, communication, and scientific research. The International Space Station (ISS) is an example of a satellite in LEO.
            • Medium Earth Orbit (MEO): Satellites in MEO are positioned at intermediate altitudes. Navigation satellites like those in the Global Positioning System (GPS) are located in MEO to provide global coverage.
            • Geostationary Orbit (GEO): Satellites in GEO orbit at the same speed as the Earth’s rotation, making them appear stationary relative to the Earth’s surface. This characteristic makes them ideal for communication and weather observation satellites.
            • Polar Orbit: Satellites in polar orbits pass over the Earth’s poles, providing global coverage as the Earth rotates beneath them. These orbits are commonly used for Earth observation and scientific missions.
          5. Orbital Decay: Satellites in low orbits can experience orbital decay due to atmospheric drag. Over time, they lose altitude and eventually re-enter the Earth’s atmosphere. To counteract this, they may need periodic boosts to maintain their orbits.
          6. Kepler’s Laws: Johannes Kepler formulated three laws of planetary motion, which also apply to satellites. These laws describe the elliptical nature of orbits, the relationship between orbital radius and orbital period, and the equal area law, which governs the speed of a satellite as it moves along its orbit.
          7. Two-Body Problem: The motion of a satellite is typically described using the two-body problem, which simplifies the interaction between the satellite and the celestial body to just two objects: the satellite and the celestial body.

          In summary, satellite orbits are determined by a combination of factors, including altitude, velocity, and the gravitational pull of the celestial body they are orbiting. Different types of orbits are used for various purposes, ranging from Earth observation and communication to navigation and scientific research.


          Yesway Communications Company Values

          Our Technical Approach to Radio Communications and Company Values.

          Our Approach and Company Values:

          Yesway Communications’ is a business with a mission.

          Our mission and purpose is to improve your business efficiency and communications reliability.

          We do this by using the skills and mindset, learned by our founder who previously worked in the Space Satellite Communications Sector.

          We apply these Aerospace sector skills of potential system failure analysis, and considering system redundancy (backup), to design & install reliable radio communication systems.

          We also aim to do business in a way that is aligned with the values of working ethically and trying to improve the world, for all its people.

          Our belief is that radio communications can play an important role in allowing all world citizens to maximize their individual potential.

          An example of this is using wireless communications technology to provide education connectivity, in remote geographies, thus allowing access to education.

          If you share these values of equality for all humans and aren’t a racist or xenophobe, then we would love to connect (no pun intended :-)

          def-stan oo600

          Def Stan 00-600

          DEF STAN 00-600 stands as an integral component within the portfolio of British Ministry of Defence (MOD) standards. These meticulously structured standards serve as the linchpin for meticulously orchestrating the design, construction, and perpetual maintenance of military equipment and systems. Their overarching objective resides in the steadfast assurance that products and systems bear the hallmark of precision, adhering to stringent benchmarks encompassing quality, safety, and performance criteria stipulated by the MOD.

          Let’s dissect the core constituents typically embodied within DEF STAN 00-600:

          1. Scope Clarification: Each manifestation of DEF STAN 00-600 possesses a well-defined scope, delineating the categories of products or systems to which it extends its regulatory purview.
          2. Normative Framework: Embedded within the standard is an intricate web of references, encompassing other standards and documents that wield significant influence. These references constitute a tapestry of prerequisites that necessitate strict adherence when navigating the labyrinth of the standard.
          3. Semantic Precision: The standard bequeaths a repository of definitions, meticulously penned, unraveling the intricacies of terminologies and phrases utilized within its ambit. This repository underscores its resolve to foster a lexicon of shared understanding.
          4. Blueprints for Engineering Excellence: Residing at the heart of DEF STAN 00-600 is an exhaustive dossier of technical specifications. These encompass a broad spectrum of facets, encompassing materials, dimensional precision, permissible tolerances, and exacting performance requisites.
          5. Rigorous Scrutiny through Testing: In its exhaustive pages, the standard unfurls comprehensive protocols for testing and validation. These meticulous procedures serve as the crucible through which equipment and systems must traverse to establish compliance with stipulated prerequisites. Here, environmental trials, endurance assessments, and other meticulous examinations converge to gauge fitness for purpose.
          6. Guardians of Quality: With a zealous commitment to quality management, DEF STAN 00-600 outlines mandates for meticulous inspection and quality control procedures. These fortify the bulwarks against deviations from the standard’s lofty expectations during the stages of manufacture and maintenance.
          7. Safety and Reliability Mandates: Emphasizing paramount importance, the standard infuses considerations for safety and reliability. These underpin the modus operandi, ensuring that military equipment and systems unfold in a cocoon of assured safety within the theatre of military operations.
          8. Custodians of Records: An indelible facet within these standards is the meticulous prescription for documentation and record-keeping. These stringent demands manifest as perpetual guardians of the complete lifecycle of the product or system.
          9. Striving for Certification: Manufacturers and suppliers are compelled to traverse a path marked by compliance with DEF STAN 00-600 standards. They must court certification as evidence of their adherence, a prerequisite for their offerings to find their place in the corridors of the British Ministry of Defence and its affiliated entities.

          It is imperative to recognize that DEF STAN 00-600 stands as a cornerstone within a vast mosaic of DEF STAN standards, each dedicated to a distinct facet of military equipment and systems.