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No Melt Down for SpaceApps’ ICE Cubes as they Reveal Capabilities at IAC 2019

October 21, 2019 by editorial

These small but mighty satellites can travel to the International Space Station (ISS) and assist any variety of enterprises with a simple, cost-effective way to fly research, technology or any activity on-board the ISS, thus opening up the research capability of the space station to the communities that will help to develop the LEO economy.

SpaceApps is a pioneering ISS research service that enables commercial companies, educational institutions and researchers to conduct experiments in space environment, developing the LEO economy.

Space Applications Services (SpaceApps), developer and integrator of systems and payloads for the International Space Station (ISS), on-orbit servicing and lunar destinations,  will showcase its ground-breaking ICE Cubes service to delegates at IAC 2019 in Washington, DC from 21-25 October at booth 481.

ICE Cubes describes their services as a simple, cost-effective way to fly research, technology or any activity on-board the ISS, opening up the research capability of the space station to the communities that will help to develop the LEO economy. This will be critically important to ensure that the ISS remains relevant when it is opened up to commercial opportunities.

ICE Cubes provides fast access to space for any researcher, company, school and university around the world. ICE Cubes payloads (from as small as 1U) are ideal to conduct scientific experiments, perform R&D in space and pursue in-orbit demonstration and validation of technologies.

Richard Aked, CEO, SpaceApps said that making space a part of every-day value chains and businesses is vital to ensure that the LEO economy becomes viable for humanity in the future. In opening up access to this unique environment, they are allowing commercial entities as well as young people in research institutes the opportunity to see what they can do in space. It’s no longer the preserve of space agencies and huge technology companies but access is being democratized for all. It’s about real people seeing how they can benefit from space and how they develop a new future in the space environment.

Fast-track access through ICE Cubes allows the development of disruptive innovation for R&D in pharma, biotech, novel materials, food, crop science, regenerative medicine and other highly relevant areas that actively benefit humanity through LEO environment assets. The access to a space environment also allows technology companies to validate and demonstrate their technologies, processes and systems and raise related TRL levels before bringing space technologies to their respective market.

Richard continued that the beauty of the ICE Cubes service is that they are regularly delivering and returning payloads to the ISS and users can also interact in real-time with their experiments over the internet, allowing them to send commands and to receive telemetry in real-time. They look forward to seeing the incredible developments that ICE Cubes will influence.

ICE Cubes has a strategic partnership with ESA and is an accredited implementation partner with the ISS U.S. National Lab that is responsible for operating the U.S. portion of the ISS as one of the national laboratories for use by non-NASA U.S. government agencies, academic institutions, and the private sector.

 

 

Filed Under: News, Uncategorized

Kleos Space’s Scouting Mission Satellites to Launch in Less Than Three Months

October 21, 2019 by editorial

Kleos Space S.A (ASX:KSS, Frankfurt:KS1) has received confirmation that their Kleos Scouting Mission1 will launch via a PSLV rocket from Chennai, India, in December of 2019.

Kleos’ cluster of four satellites are confirmed as mission-ready for PSLV integration. Technical efforts have ensured the satellites will function with the dispensers for the PSLV rocket. The satellites have passed a deployer fit check which confirms the satellites conform to the PSLV requirements.


Artistic rendition of a Kleos Space smallsat on-orbit.

Image is courtesy of the company.

The Scouting Mission satellites will launch from the Satish Dhawan Space Centre aboard PSLV C49 (a rideshare launch including satellites from other organizations, such as Spire Global) into a 37 degree inclination to deliver optimized revisit rates over crucial shipping regions that include the Strait of Hormuz, South China Sea and East and West African coasts as compared to the original SSO.


PSLV rocket on pad.

Photo is
courtesy of ISRO.

The four-week launch preparation schedule will commence in mid-November with shipping of high purity butane satellite fuel to the launch integration facility in Chennai. While launch preparations are underway, Kleos remains focused on securing additional Government and commercial pre-order contracts and is on track to achieve first revenues in Q1 2020.

The development of Kleos’ second cluster of satellites, which will enhance data collection and increase revenues and customers, is progressing. Kleos’ Scouting Mission satellites will geolocate maritime radio frequency transmissions to provide global activity-based intelligence irrespective of the presence of AIS (Automatic Identification Systems) or any other positioning system, or when imagery is unclear and targets are out of maritime patrol range. The geolocation data will enable governments and organisations to detect hidden maritime activity such as drug and people smuggling, piracy and illegal fishing as well as identify those in need of search and rescue at sea.

Kleos CEO Andy Bowyer said that satellite launches are highly complex, requiring extensive pre-flight testing of critical functions that cannot be fast-tracked without compromising the mission. The company’s Scouting Mission satellites are mission-ready, forming the foundation of future constellations. When they launch in December, Kleos is on track to generate the firm’s first revenues in Q1 of 2020.”

1The scouting mission is comprised of 4x smallsats built by GomSpace in Denmark.

 

Filed Under: News, Uncategorized

Narrow-Band IoT Successfully Tested by OQ Technology Using a Smallsat

October 17, 2019 by editorial

OQ Technology, a Luxembourg-based satellite IoT and M2M service company, has successfully tested Narrow-Band IoT waveforms and synchronization procedures using a third-party smallsat.

The Tiger mission, which was approved and signed on July 26, 2019, demonstrates that NB-IoT technology can be used on flying Software-Defined Radio (SDR) payloads by uploading the waveforms to test the performance, paving the way for using Software-Defined Radio payloads as a service to provide connectivity.

The satellites used are GOMX-4A and GOMX-4B from GomSpace. NB-IoT is a Low Power Wide Area Network radio technology standard developed by the 3rd Generation Partnership Program (3GPP) to enable a global standard for IoT and M2M connectivity as a part of its Release 13 specifications (LTE Advanced Pro) in June 2016.


Artistic rendition of GomSpace smallsats on-orbit.

Image is courtesy of the company.

As of 2019, the Global mobile Suppliers Association has identified more than 160 operators across 69 countries investing NB-IoT network technologies. The 3GPP ecosystem is a global consortium backed by several telecommunication associations from countries such as Japan, USA, China, Europe, India, South Korea, and contributions coming from more than 680 individual member companies such as Qualcomm, Nokia, Ericsson, Apple, Google, ZTE, Huawei, NEC, Samsung, AT&T, Verizon, etc. that sell equipment, chipsets, software, handsets connectivity and other services in the global telecommunications market.

As a natural evolution of technology and market trends, 3GPP has foreseen the growing demand for global IoT connectivity and has retained NB-IoT as a part of its 5G standards (Release 15) and is working towards expanding the technology’s potential using Non-terrestrial Network (NTN) services for its release 17 which is expected to be rolled out by 2021/2022. NTN services leverage the use of non-terrestrial entities such as satellites in LEO, MEO, GEO, High Altitude Platforms and drones to extend coverage, service and capacity for mobile telephony, IoT and M2M connectivity.

OQ Technology began working on cutting edge R&D in 2016 to provide NB-IoT connectivity over LEO satellite, a standard with worldwide ecosystem and backed up by a global mobile standardization body. OQ Technology is targeting the cellular IoT communication market, as well as the Oil & Gas, Maritime, Industry 4.0, and Transport segments, particularly for the management and tracking of assets in remote areas. Whether this is digital oilfield applications, offshore monitoring, SCADA applications, asset tracking, fleet management, smart metering or predictive maintenance.

NB-IoT is a challenge for LEO due to high Doppler and delay environments. OQ Technology has successfully performed a “first-in-the-world” test of a 5G IoT technology over cubesats, and a “first” in using Orthogonal-Frequency-Division Multiple Access waveforms in a smallsat. OQ Technology will further experiments as a part of the Tiger mission over the next 3 months to optimize the link and system performance. OQ Technology aims to be a global 5G massive machine-type communications service provider to enable mobile operators extend their coverage beyond urban areas. The technology development has been partly supported by Luxembourg government through the LuxIMPULSE program.

Filed Under: News, Uncategorized

Planet’s Imagery Service Transitioned from the NGA to the NRO with a New Multi-Year Contract

October 16, 2019 by editorial

The National Reconnaissance Office (NRO) has transitioned the Planet commercial imagery subscription service from the National Geospatial-Intelligence Agency (NGA) to the NRO.

As part of the transition, the NRO awarded Planet an unclassified, multi-year subscription service contract for daily, large-area, 3 to 5 meter resolution commercial imagery collection.

Recognizing the importance of mission continuity, the scope of the new NRO contract is comparable to NGA’s previous contracts with Planet and includes access to new daily unclassified imagery over multiple areas of interest to military planners, warfighters, and the national security community. The transition is consistent with NGA’s and NRO’s role in exploring new and viable commercial GEOINT opportunities for national security missions.

Pete Muend, Director, NRO’s Commercial Systems Program Office, said that with its large constellation of satellites, Planet can image country — and even continent-sized areas — every day. This capability to provide daily revisit over large areas of the Earth gives analysts unparalleled opportunities to discover and monitor activity for a wide range of applications. The NRO is committed to ensuring NGA and its customers continue to have access to Planet imagery to perform the vital analysis needed to create value-added geospatial products for our partners and policy makers.

David Gauthier, Director of NGA’s Source Commercial and Business Operations Group, added that NGA’s 2016 Planet subscription played a role in the agency’s analytic transformation, where the NRO is now focused less on pixels and more on information content and services. Planet imagery demonstrated the value that daily revisit of large areas, at 3 to 5 meter resolutions, to several mission areas – especially when combined with geospatial analytics. With the transition, NGA can continue to shift its focus to emerging commercial GEOINT products and services that uniquely support our user community.

Filed Under: News, Uncategorized

ICEYE’s Spotlight Imaging Mode Enables One Meter Radar Imaging from Constellation Available Commercially 

October 16, 2019 by editorial

ICEYE has announced that the company’s recently developed Spotlight imaging mode, which enables 1 meter radar imaging from the company’s satellite constellation, is now commercially available to customers around the world.

ICEYE Spotlight imaging is purpose-built to achieve a high resolution that supports a variety of use cases for both commercial and government customers.


ICEYE Spotlight radar satellite image of the Kuwait International Airport’s new terminal under construction. Image is courtesy of the company.

The successful deployment of Spotlight imaging for commercial customers is a major milestone for ICEYE, as well as a technological achievement. There are few comparable services available worldwide, and ICEYE is currently the only organization in the world to provide this capability as a commercial service from such small SAR microsatellites. High resolution radar imagery is especially useful for distinguishing between small objects, and in helping data users classify larger objects with more certainty. One  meter Spotlight radar imagery is particularly useful in detailed volume monitoring of stockpiles, vehicle count monitoring, property damage estimation, and oil transshipment monitoring.


Example Spotlight SAR Data, featuring two locations in Singapore,are available for download on the ICEYE website in SLC and GRDformats. Image is courtesy of the company.

ICEYE was the first organization in the world to develop technology that can achieve under 1 meter resolution imagery from SAR satellites under 100 kg. in mass. The latest two ICEYE SAR Satellites were launched in July of 2019. The company continues to grow its commercially available SAR satellite constellation with additional satellite launches at an increasing pace.

Pekka Laurila, CSO and Co-Founder of ICEYE, said the commodities sector is an early example where the availability of high-resolution SAR imaging can have dramatic impacts. It is now possible to track specific locations, often, with high reliability, and at an incredible level of detail. The potential benefits for our early users are immense, as the competitive edge our data provides is still very fresh in the market.

Rafal Modrzewski, CEO and Co-Founder of ICEYE, commented that the company and its partners are in a unique position in the world with this new commercial availability of high-resolution radar satellite data.

 

Filed Under: News, Uncategorized

No Small Matter … LeoLabs’ Kiwi Space Radar Can Track Super Small Objects in LEO

October 15, 2019 by editorial

LeoLabs, Inc. has launched their Kiwi Space Radar (KSR) — as the first commercial radar to track objects in LEO smaller than 10 centimeters, the KSR sets a new standard for tracking the full range of threats to satellites from orbital debris.


LeoLabs’ Kiwi Space Radar in New Zealand. Photo by LeoLabs.

Located in New Zealand, the KSR also expands LeoLabs’ radar network to the southern hemisphere, and marks the first of a series of next generation LeoLabs radars to be deployed globally.

Michael Nicolls, Co-Founder and LeoLabs CTO, said the Kiwi Space Radar raises the bar on addressing the threat of collisions that have never before been tracked in LEO. By operating at a higher frequency than the firm’s earlier sensors, the KSR was designed to track an estimated 250,000 additional objects down to 2 centimeters in size. These objects account for most of the risk of collisions in space and KSR is the first big step toward addressing that risk. It will enable thousands of new satellites to safely use LEO.

Dan Ceperley, Co-Founder and CEO of LeoLabs, added that the Kiwi Space Radar represents a huge step in executing on the company’s vision for customers and investors. As thousands of satellites and new constellations deploy into LEO, LeoLabs’ mission is to provide a backdrop of data-driven transparency and certainty to support satellite operators, regulators,space agencies, and industries that rely on satellite services. Today’s KSR announcement proves a foundational piece of this vision. The firm’s radar network constitutes a clear strategic advantage in building the leading LEO services platform and the ‘catalogue of the future’ for LEO.

In addition to tracking small debris, the Kiwi Space Radar incorporates other significant features:

  • Automated search capability. As LeoLabs builds out the LEO catalog of the future, the KSR provides the ability to automatically search, discover objects and events.Generating orbital information without the need for human intervention will provide a more timely and complete picture for SSA and traffic management services.
     
  • Southern hemisphere coverage. The KSR is the first phased-array radar of its class located in the southern hemisphere. It improves frequency of revisits, enables better orbit assessment, and improves monitoring of maneuvers and events.
     
  • Improved precision in measurements and orbit determination. As the KSR dramatically increases the quantity and quality of observations for each satellite and piece of orbital debris, LeoLabs can deliver greater accuracy and timeliness to support mission decisions and threat assessment.

 

Mr. Ceperley noted that locating the Kiwi Space Radar in New Zealand was a strategic decision for LeoLabs and the company is delighted to become a full-fledged participant in this emerging space sector. The firm’s investment model is aligned with New Zealand’s vision of sustainable development and responsible stewardship of space. Through the leadership of the New Zealand Space Agency, and initiatives such as the Innovative Partnership program from the Ministry of Business, Innovation and Employment(MBIE), New Zealand is building what we believe to be one of the great space sectors for the next generation. A benefit of the LeoLabs presence in New Zealand is that the company has had the opportunity to engage across many communities, ranging from Ministerial levels to local communities, including schools, local government, entrepreneurs, and universities. Plans are to engage in this same “community-based” model as the firm expands to other parts of the world going forward.

Filed Under: News, Uncategorized

As the Crow Flies … Gettin’ Ready for a New Zealand Launch

October 14, 2019 by editorial

Rocket Lab‘s next mission, As the Crow Flies is ramping up for a launch within the 14-day window running from October 15 – 28, 2019.

The mission will lift-off from Rocket Lab Launch Complex 1 on New Zealand’s Mahia Peninsula. Encapsulated in Electron’s fairing will be a single spacecraft for Astro Digital, a California-based satellite manufacturer and operator.

Astro Digital provides customers with complete space-based systems and mission support services for applications such as Earth observation, satellite communications, and technology demonstration.

This mission will fly a Palisade technology demonstration satellite, a 16U CubeSat bus with on-board propulsion system, a next generation Astro Digital developed communications system, and software developed by Advanced Solutions Inc. including an advanced version of ASI’s MAX Flight Software.

The mission is named ‘As The Crow Flies’ in a nod to Astro Digital’s Corvus Platform, which provides flexible and cost-effective solutions across a wide range of applications and mission profiles on bus variants ranging from 6U and 16U CubeSats to ESPA Class. Corvus is also a widely-distributed genus.

 

Filed Under: News, Uncategorized

DARPA Awards SEAKR Engineering with Blackjack LEO Demo Program Contract

October 10, 2019 by editorial

SEAKR® Engineering, Inc. (SEAKR) has been awarded a Defense Advanced Research Projects Agency (DARPA) Pit Boss contract supporting the Blackjack Proliferated Low Earth Orbit Demonstration Program — Key contributors to SEAKR’s Pit Boss effort are Microsoft, Applied Technology Associates (ATA), Advanced Solutions Inc. (ASI), Kythera Space Solutions and NKrypt.

DARPA’s Blackjack program focuses on integrating commercial satellite technologies into a constellation of affordable, small, secure, and resilient military satellites. SEAKR’s Pit Boss solution will support the BlackJack program’s mission as a next generation on-board processor leveraging off-the-shelf electronics adapted through design implementation to function reliably in space. To deliver an extensible, scalable, and adaptable solution, SEAKR’s Pit Boss aims to deliver state of the art processing capability incorporating autonomous operations, artificial intelligence (AI), machine learning techniques, and bridged terrestrial and on-orbit technologies.

SEAKR’s processing system for DARPA’s Blackjack program leverages four generations of architectural capability supporting the full spectrum of payload processing performance requirements, with a high level of on-orbit reconfigurable processing capability. Pulling from its established heritage capabilities, strength in RF communications, along with the continuous product and architectural advancement, SEAKR continues to define leading edge, state-of-practice processing systems in partnership with Government, Civil, and Commercial entities.


DARPA’s Blackjack program aims to develop and demonstrate the critical elements for a global high-speed network in low Earth orbit (LEO) that provides the Department of Defense with highly connected, resilient, and persistent coverage.

Image is courtesy of DARPA.

SEAKR’s previous study and prototype advancements have successfully contributed to our customer’s ability to solve complex challenges imperative in advancing capability to meet today’s most daunting mission objectives. Key technologies being deployed and leveraged include: ADC and DAC Technologies, FPGA-based Processing Technologies, and ASIC-Based Processing Technologies.

 


For all involved in the satellite and space industry and the various market segments that add value to these dynamic environments, the 2020 SmallSat Symposium is truly worth your consideration for attendance.

The 2020 SmallSat Symposium starts on February 3, 2020, with workshops, then the Conference runs February 4 to 6 at the Computer History Museum in Mountain View, California, in the heart of Silicon Valley.

The SmallSat Symposium is hosted by Satnews Publishers which, since 1983, has been a provider of a satellite news, media and events. This information packed forum was created to enable you and your company to secure a larger portion of market share as well as to take part in the next stages of your company’s or organization’s growth.

The personal connections at the SmallSat Symposium enable attendees to network with established organizations, subject-matter experts as well as ‘New Space’ entrants.

The SmallSat Symposium will focus on new technologies and the business environment that is shaping the implementation of smallsat constellations, smallsat launchers, the challenges facing the smallsat developer and actors as well as the enormous benefits of these advanced technologies that will benefit our world.

This event assembles more than 100 diverse speakers, all of whom possess deep industry experience. Additionally, numerous opportunities exist to mingle and network with peers while enjoying exceptional, complimentary meals and refreshment breakfast.

Learn more at this direct link…

Filed Under: News, Uncategorized

Out of Stealth Mode Comes SAR Satellite Space Company EOS Data Analytics

October 9, 2019 by editorial

U.S.-based EOS Data Analytics Inc. (EOS), a space portfolio company of Noosphere Ventures, has unveiled EOS SAR – a project to develop its own synthetic aperture radar (SAR) sensors intended for deployment in a constellation of smallsats.

EOS SAR has been in stealth mode for more than two years. EOS has more than 5 years of experience in developing data analytics products and cloud services for optical and SAR data from satellites. Over the years, the company has developed an in-depth understanding of commercial and government remote sensing markets, which informed the decision to create its own SAR satellite constellation.

EOS engineers have already designed a radar prototype and are moving ahead with the development of a low-cost high-performance SAR payload for small satellites with ultra-high resolution down to 25 cm. EOS SAR satellites will operate in Stripmap and Spotlight modes (including interferometry) and will cover a wide range of applications. EOS is also considering dual-frequency SAR in X- and S-band on a single satellite. Dual-band operation increases versatility for all weather imaging and improves object-ground contrast. A special configuration of the radar front end allows for imaging of selected areas in both bands in a single orbit.

The SAR payload incorporates a deployable reflector antenna developed in-house at EOS. This antenna technology enables EOS SAR instrument to improve satellite efficiency and offer superior image quality. Moreover, the antenna itself has low mass and dimensional characteristics, making it more favorable and less costly to launch the satellite into orbit.

EOS is building a SAR satellite payload suitable for constellations enabling high revisit rates. A constellation of 12 satellites will provide 2-3 hours revisit time for a given area. The first SAR satellite launch is expected in 2022, with commercial constellation operations starting in 2023.

Max Polyakov, CEO of EOS and Managing Partner at Noosphere Ventures, said EOS learned that the remote sensing market has strong demand for high-resolution high-quality SAR data, but low supply of such data. The choice of SAR technology is driven by the need to image Earth’s surface through dense cloud cover, in any season and all weather. It is critical for users to have access to uninterrupted, persistent situational awareness. EOS is strategically leveraging deep expertise and diverse capabilities within Noosphere Ventures portfolio including radar electronics, deployable antennas, propulsion systems, batteries, and data analytics in order to create a SAR payload technology which delivers unsurpassed performance at an unbeatable price. At the same time, the company is open to cooperation and are currently looking for bus providers and a constellation owner to deploy and monetize the constellation. The constellation will be part of a fully U.S. owned and operated commercial remote sensing enterprise.

Filed Under: News, Uncategorized

Kepler Communications to Begin First of Many Soyuz Launches with New Partners ISL and GK Launch Services

October 7, 2019 by editorial

A launch agreement for the first two satellites of many more to follow has been signed with Kepler Communications, which will be working with Space Logistics B.V (ISL) and GK Launch Services. Kepler’s satellites will be sent into sun-synchronous orbit in Q2-Q3 2020, and will be the first of multiple batches of the next-generation platform, forming part of Kepler’s Low-Earth Orbit (LEO) constellation for global data services.

Kepler’s next generation of satellites will incorporate both a high-capacity Ku-band communications system and a narrowband payload, for both high-speed data transfers and low-power direct-to-satellite IoT connectivity. Planning to place approximately 140 satellites in LEO in three incremental phases, from 2020 to 2023, Kepler continues to execute on schedule against plan. Kepler has two demonstration satellites in orbit that are currently delivering Kepler’s high-capacity data transfer service to a number of early customers.      

Jared Bottoms, Head of Launch & Satellite Programs at Kepler said that ISL has been a key partner for Kepler as they have grown in their deployment strategy. They are excited to continue to use their unique deployers and services, this time with GK launch services to deploy the first of the next generation. ISL and Kepler partnered for the company’s first inaugural mission which successfully launched Kepler’s first satellite into orbit in January 2018, and its next satellite later in November in the same year. 

Abe Bonnema, Director of ISL, added saying that following the successful partnership for the launch of their demonstrator satellites, they are pleased and grateful to be selected by Kepler again for this important task of getting the first next-generation satellites to orbit on their 27th ISILaunch Campaign with their Soyuz partners next year. 

GK Launch Services CEO, Alexander Serkin concluded saying that they are happy that Kepler has chosen Soyuz-2 LV for launching its next-generation satellites. The GK team possesses all necessary competences to successfully and smoothly implement the mission that they hope will become a good basis for building a relationship with Kepler for future missions.

The company’s LEO constellation will grow to become a space data relay system to serve other constellations with high-speed data backhaul capabilities. Today, Kepler is focused on building the install base for Global Data Service™, its pole-to-pole wideband connectivity service for mobile and fixed applications. EverywhereIOT™, Kepler’s affordable solution for Internet of Things (IoT) devices, will enter user trials in the coming months. 

Filed Under: News, Uncategorized

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