An Out of this World Programming Opportunity… Quite Literally…

Orbital Space, in collaboration with the Space Challenges Program and EnduroSat, is announcing “Code in Space,” an international online programming opportunity for students.

For the first time, students from around the world can send and execute their own code in space (Low Earth Orbit).

Students may submit proposals and the selected submissions will be uploaded to a smallsat orbiting Earth.

The code will be executed by the satellite’s onboard computer and will be tested under real space environment conditions. The code executions test results will be transmitted back to Earth via a satellite ground station.

New Space (or Space 2.0) is enabling the production of low-cost satellites in shorter periods of time.

Smallsats offer versatile applications in Earth Observation (EO), geolocation and logistics, signal monitoring, communications and Internet of Things (IoT) as well as general scientific applications and have demonstrated the potential of distributed satellite networks (constellations). That is, a group of low-cost, miniature satellites that communicate with each other to perform tasks.

Satellite constellations are beneficial to humanity, enabling a safer, more connected, more secure world as they allow for a better EO, timing, navigation, and communication. They also connect many overlooked communities and remote areas and offer redundancy and granularity of services. However, despite the many benefits of satellite technology, there are still many challenges to overcome.

Goals

  • To increase awareness about current opportunities and challenges in the satellite industry To encourage solutions to current challenges faced by the satellite industry To encourage and empower students to design and develop new concepts that could contribute to the advancement of satellite technology To increase awareness about new space (space 2.0) revolution and its potential impact on humanity
  • The code will be uploaded to the nanosatellite from a ground station operating in UHF frequency range. The code will be executed by EnduroSat’s Onboard Computer Type I (high-performance and low-power computing platform). Code executions test results will be received by a ground station operating in UHF frequency range. Who is eligible?
  • Code in Space is open to all students from all schools and universities around the world.

 

How can you participate?

  • Participation can be individual, or team based and should include a mentor (teacher/ university faculty member or scientist affiliated with a school or academic/ research institution)
  • Enroll in Spaceport Platform (https://spaceport.academy/en/login). For team based participation, each member of the team should create his/her own profile.
  • Join “Space Challenge: Kuwait Edition” by using the code: 7c17a2c4
  • Complete educational units to earn a minimum of 20 points
  • Come up with a solution for current challenge or limitation in the satellite industry or new concept that could be of value to satellite technology
  • Submit your proposal electronically to info@orbital-space.com

 

Important Dates

  • Deadline to earn minimum of 20 points on Spaceport Platform: July 31, 2020
  • ​Deadline to submit proposals: October 30

 

2020 TOPICS

Topics should be new concepts addressing current challenges and limitations of satellite technology. Proposed topics could be within the following tracks…

Satellite Communications

  • M2M and IoT
  • Digital Broadcasting
  • Broadband Communication
  • Spectrum Sharing and Frequency Reuse
  • Multi-casting and Frame Clustering
  • Modulation and Signal Processing
  • Carrier Phase/Time Coherency and Calibration Techniques

 

Satellite Operating System (Flight Software)

  • Data Processing and Storage
  • Guidance, Navigation and Control
  • Re-configurability and Modularity of Payload/System
  • High Throughput and Service Efficiency
  • Flight Software and Reliability and Resource Allocation (power, bandwidth, stability, etc.)

 

Ground Operations

  • Ground and On-Orbit Tracking of Satellites
  • Ground-based Satellite Position Determination
  • Ground Station Networks

 

Others

  • Scientific investigations (based on onboard sensor readings, such as temperature, magnetic field, acceleration, and light)
  • Games using Satellite Signals or Data

 

Evaluation

Proposals will be evaluated based on various criteria such as:

  • Solution/concept objective and justification
  • Clarity and critical thinking
  • Creativity
  • Practicality/feasibility of executing the code by the satellite onboard computer
  • Impact on society

A Fresh Grounding for Smallsats via Australia’s Nova IGS Network

Global defence company Nova Group is maintaining its projections of more than $200 million revenue this financial year with longer-term goals to continue expanding the company’s global reach.

A newer focus on space is continuing to diversify the portfolio of the South Australian headquartered company that has invested more than $20 million on eight acquisitions across the globe to cement its footprint.


The Nova IGS Network is based on a 21 hectare site in Peterborough, South Australia.

In South Australia, the company’s new Nova IGS Network is providing space ground connectivity for smallsat operators, with the site now being used by international clients including Tyvak USA and RBC USA. Nova is also in talks with an Italian-based space company wanting to expand its presence in Australia.

Based on a 21 hectare site in Peterborough in South Australia’s mid-north, the site is used to track LEO satellites through customer’s own terminals and Nova has plans to attract further European companies over upcoming years.

A spokesperson for Nova said the company is also planning to use the site as a ground station test bed for emerging Space 2.0 technologies and to support future defence projects. Peterborough provides the vital ground segment element in order to allow satellite operators to downlink/download their data.

Nova Group is marking 20 years in business, with Nova Systems founded by Jim Whalley and Peter Nikoloff and originally offering flight-testing services in South Australia’s capital city of Adelaide. The company has since grown to having 600 employees working on projects around the world including with the Australian Defence Force, United Kingdom Ministry of Defence, Royal Norwegian Air Force and the Republic of Singapore Air Force.

Nova was recently awarded one of four industry leads in the Major Service Provider consortium providing integrated support contracts to the Australia Defence Force over the next 10 years.

The company has taken early steps globally to adopt new practices around COVID-19 in relation to infection control and is proactively undertaking business modelling to assess its potential financial impact.

At this stage, the company still expects to grow in the upcoming financial year, with work continuing on the offshore patrol vessels in Australia and Nova Systems recently winning a $25.9 million Norwegian defence contract to support a maritime helicopter program.

The Adelaide headquartered company first opened an office in the United Kingdom during 2012 before winning its first work within Norway the following year. Its latest contract marks a significant expansion for Nova Norway and a doubling in the size of it Norwegian operations with work already underway.

Nova has also cemented co-founder partnerships this year with the SmartSat Co-operative Research Centre in South Australia and Western Australian based Remote operations for Space and Earth. Plans to establish the now operating SmartSat CRC were led by The University of South Australia and Nova Systems.

Based next to the Australian Space Agency at Lot Fourteen in Adelaide, the SmartSat CRC now has 74 participants contributing $167 million adding to the federal government’s $55 million spend with a focus on advanced SATCOM, connectivity and Earth Observation.

Article by author Belinda Willis, The Lead

Forrester Reports: Layoffs @ OneWeb + NigComSat Remains Unprofitable


Chris Forrester

OneWeb has reportedly laid off 10 percent of its workforce due to reported – but unconfirmed – company plans that include Chapter 11 bankruptcy, reports journalist Chris Forrester, filing at the Advanced Television infosite.

The news comes as OneWeb reported the successful orbiting of 34 satellites from the Baikonur cosmodrome in Kazakhstan on March 21st on a Soyuz rocket organised by Arianespace. The success means that OneWeb now has 74 craft in LEO.

Referring to the layoffs, a company statement stated, “The OneWeb launch is going ahead on Saturday with more launches planned later in the year; however, like others, we are impacted by the global health and economic crisis and we need to dynamically adjust our workforce. Unfortunately, we think it is inevitable that there will be delays to our launch schedule and satellite manufacturing due to increasing travel restrictions and the disruption of supply chains globally. Therefore, we made the difficult decision to eliminate some roles and responsibilities as we work to focus on core operations. We are sorry to have had to take this step and we’re doing everything we can to support those affected.”

There are at least four key OneWeb locations. Officially the company is domiciled in West London, although it also has management offices in Mountain View, California, and near Washington DC (in McLean Virginia). The firm has a satellite manufacturing joint-venture with Airbus in Florida, near the Kennedy Space Center. Staff at any of these locations might be affected.

After Saturday’s launch, OneWeb focused on the positive news. In a statement, CEO Adrian Steckel said: “In these unprecedented times following the global outbreak of Covid-19, people around the world find themselves trying to continue their lives and work online. We see the need for OneWeb, greater now more than ever before.
     “High-quality connectivity is the lifeline to enabling people to work, continue their education, stay up to date on important healthcare information and stay meaningfully connected to one another. The crisis has demonstrated the imperative need for connectivity everywhere and has exposed urgent shortcomings in many organizations’ connectivity capabilities. Our satellite network is poised to fill in many of these critical gaps in the global communications infrastructure.


Chris is also reporting at the Advanced Television infosite that a report from the International Center for Investigative Reporting (ICIR), which focuses on Nigeria’s troubled satellite operator NigComSat, states the organization is “still not profitable 14 years after launch.


Artistic rendition of Nigeria’s NigComSat-1R.

ICIR stated that NigComSat’s first working satellite (NigComSat-1R), that was launched in 2011, has barely six years of life remaining. Meanwhile, the organization has – since 2009 – received funding totaling more than $117 million (at current rates), although in Nigerian Naira it is N43.5 billion, of which just N13 billion was spent on capital items and N26.2 billion on staff salaries.

ICIR adds that during the period 2011-2014, NigComSat’s revenues from satellite operations were just 3 percent of its expenses during the period.

The recently appointed (August 2019) Minister of Communications and Digital Economy in Nigeria, Isa Ali Pantami, admitted the business was not “very viable.” In December of 2019, a new Board and executive directors were appointed.

An earlier Chinese-built satellite was launched in 2008 which cost $340 million (about Naira 40 billion at the time) but failed in orbit.

ICIR said, “NigComSat’s) wage bill, which started as N747 million in 2009, has jumped to N2.6 billion. With 397 employees as of 2016 and a personnel cost of N2.3 billion that year, the Federal Government must have paid the workers an average of N5.8 million per annum (or N480,000 a month/$1300).”

NigComSat is owned by Nigeria’s government. In 2018 it was announced that two new satellites would be purchased from China at an expected cost of $550 million.

A recent report from Nigeria’s parliament accused NigComSat’s senior management of incompetence. Chairman of Nigeria’s House Committee on Finance, James Falake, told NigComSat’s Managing Director, Abimbola Alale, in February, that, “We have to rescue this agency from you. In fact, if I had my way, I would recommend your [dismissal].”

OneWeb’s Third Launch of 34 Satellites to Occur Today from Baikonur via Arianespace

OneWeb’s next launch is scheduled to occur today, Saturday, March 21, at 17:06 (GMT) / 1:06 PM (EDT) / 22:06 (local time) from the Baikonur Cosmodrome in Kazakhstan.

This will be the second launch for OneWeb in 2020 and these additional 34 satellites will bring the constellation total to 74. The satellites are built by OneWeb Satellites, a joint venture between OneWeb and Airbus who are engaged in a new, high-volume, manufacturing process that can build two satellites per day.

Arianespace will launch OneWeb’s satellites into a near polar orbit of 450 kilometers, after which they will be raised to their final orbit of 1,200 kilometers.

OneWeb’s first customer demos are scheduled for the end of 2020 and availability of commercial services, for sectors such as maritime, aviation, government and enterprise, are scheduled for the end of 2021.

The theme for this launch commemorates the late Russian cosmonaut Alexei Leonov, who made history 55 years ago when he became the first person to exit a spacecraft and walk in Space. The OneWeb mission patch bears his name and celebrates his achievement.

OneWeb will be streaming the launch on Facebook and you can follow the launch on OneWeb social media channels: YouTube, Instagram, Twitter, Facebook.

For live transmission of the launch (with English commentary) go to: OneWeb on Facebook

OneWeb Considering Bankruptcy

In a news story filed at the Bloomberg infosite written by Eliza Ronalds-Hannon, Gillian Tan and Lauren Coleman-Lochner, OneWeb, the satellite operator backed by SoftBank Group Corp., is mulling a possible bankruptcy filing to address a cash crunch as the firm grapples with high costs and stiff competition, according to people with knowledge of the preparations.

The company is considering seeking court protection even as it continues to review possible out-of-court alternatives, said the sources who asked not to be named discussing private company plans.

OneWeb would be among the first SoftBank-backed companies to file for bankruptcy. A spokeswoman for SoftBank, which is OneWeb’s largest investor, declined to comment.

A spokesperson for OneWeb declined to comment. To read the entire article, please access this direct infolink to the Bloomberg news site…

GEOINT 2020 Symposium and CubeSat Developers Workshop Postponed

With deep regret , the USGIF and its Board of Directors have reported that the GEOINT 2020 Symposium will not take occur in Tampa, Florida, on April 26-29.

As reported, USGIF has been closely monitoring developing reports from the Federal Government, the Florida Government, Centers for Disease Control and Prevention, and World Health Organization concerning the COVID-19 outbreak.
     On March 9, the Governor of Florida issued Executive Order 20-52 declaring a state of emergency, and on March 13 the President of the United States declared a national emergency.
     On March 14, the Department of Defense imposed a 60-day travel restriction on military and defense civilian personnel.
     On the same date, the Office of Management and Budget also prohibited travel for other federal employees, unless it is mission critical.
     On March 15, the Centers for Disease Control and Prevention directed the cancellation or postponement of in-person events consisting of 50 or more for the next eight weeks.
     On March 17, Hillsborough County, which includes Tampa, issued an order limiting all public and private events and gatherings to 50 people or less.

USGIF regrets having to cancel GEOINT 2020, as the GEOINT Symposium annually brings networking, thought leadership, student interaction, business and educational opportunities to the entire geospatial intelligence, trade and academic community. The organization looks forward to the next time the event can be conducted. Until then, USGIF is dedicated to continuing to be a resource to the geospatial intelligence community and will explore virtual options to do so.

USGIF is working out processes for appropriate refunds and patience is requested as this is a huge undertaking with the organization’s registration and housing company and updates with details will be published when the procedures are set in place.

USGIF requests all pray for continued health and safety as well as an end to COVID-19. Please continue to stay engaged and involved in the geospatial intelligence community. Follow USGIF on Facebook, LinkedIn, and Twitter; Trajectory Magazine on Facebook, LinkedIn, and Twitter; and GEOINT Symposium on Facebook and Twitter.


With a heavy heart, the 2020 CubeSat Developers Workshop that was to occur in San Luis Obispo, California, is being postponed.

With the current unfolding of COVID-19, the organization wishes to ensure the safety of the cubesat community and the world at large. Patience is requested as the best way to move forward is determined.

As circumstances change, additional information regarding Workshop will be offered via email and on the website. Please contact the Workshop Team with any questions you may have. Stay safe, wash your hands, practice social distancing, and take care of one another.

What’s in the Philippines’ New Planned Satellite Launches in 2020?

Last month, the Philippines signaled plans to launch additional cube satellites later this year. While the development was expected and part of ongoing efforts, it nonetheless highlighted part of the Southeast Asian state’s outlook towards an aspect of its overall approach to space.


Credit: Presidential Communications Office of the Philippines

As I have observed before in these pages, the Philippines’ development of its space capabilities has been in the headlines in recent years, including collaboration with other countries as well as the setting up of the new space agency last year under President Rodrigo Duterte.

One aspect of this is the launching of smaller Philippine satellites. These include microsatellites such as Diwata-1 and Diwata-2 that can be used for capturing images for remote sensing, research, and data-gathering, as well as smaller cube satellites usually sent to low earth orbit and meant to provide initial hands-on experience in developing satellites, with a case in point being Maya 1 which was developed by Filipino students at the Kyushu Institute of Technology (Kyutech) in Japan and launched in 2018.

Last month, this aspect of the Philippines’ capabilities was in the spotlight again with an announcement of the launching of additional cube satellites. The Department of Science and Technology (DOST) said in February that it was looking to launch a few additional cube satellites in 2020.

The announcement of the expected launching of three cube satellites – Maya 2, Maya 3, Maya 4 – was disclosed in a media presentation on February 20 by DOST Secretary Fortunato dela Peña, per the Philippines News Agency (PNA) in a media report released March 11. Mara Mendoza, a member of the Space Science Proliferation through University Partnerships (Step-UP) project under which Maya cube satellites in question were developed, told PNA that the additional cube satellites, which weigh about one kilogram and measure 10 centimeters on each side, would help the Philippines achieve more “continuous coverage” of the country, with the satellites being able to last between six months to more than a year in orbit and  passing through to capture the Philippines for roughly twice a day for six to ten minutes.

To be sure, as noted above, the cube satellites have limited capabilities, with microsatellites such as the Diwata-1 and Diwata-2 having better cameras and more payloads. And some specifics remain undisclosed, including the exact launch date of the cube satellites which depends on various factors including coordination with partners as well as regulatory bodies. Nonetheless, the plans in the works nonetheless spotlighted one aspect of the Philippines’ capabilities in this regard.

By Prashanth Parameswaran, The Diplomat 

SpaceX Launches 60 Starlink Satellites

At 8:16 a.m. EDT, or 12:16 UTC, on Wednesday, March 18, SpaceX launched their sixth Starlink mission.

The company’s Falcon 9 launch vehicle lifted off from Launch Complex 39A (LC-39A) at NASA’s Kennedy Space Center in Florida.

Falcon 9’s first stage previously supported the Iridium-7 NEXT mission in July of 2018, the SAOCOM 1A mission in October of 2018, the Nusantara Satu mission in February of 2019, and the second launch of Starlink in November of 2019. Falcon 9’s fairing previously supported the first launch of Starlink in May 2019.


The 6th SpaceX Falcon launch of 60 Starlink satellites from NASA’s Kennedy Space Center in Florida.

The Starlink satellites deployed in an elliptical orbit approximately 15 minutes after liftoff. Prior to orbit raise, SpaceX engineers conducted data reviews to ensure all Starlink satellites are operating as intended. Once the checkouts are complete, the satellites will then use their onboard ion thrusters to move into their intended orbits and an operational altitude of 550 km.

Watch a video replay of this launch’s webcast at this direct link…

The recovery attempt of the launch vehicle’s first stage was not successful.

Direct Satellite Connectivity to Mobile Phones on Earth Accomplished by Lynk

Lynk (Lynk Global, Inc.) has successfully connected a satellite in LEO to an ordinary mobile phone on Earth.

The technical breakthrough enabled Lynk to send the world’s first ever text message from space to a mobile phone. This milestone, witnessed by independent third-party observers, represents the critical, industry-first next step for Lynk’s vision to use satellites to provide broadband services directly to more than five billion mobile phones on the planet, everywhere.

Lynk’s historic test took place on February 24, 2020, using the firm’s patented “cell tower in space” technology — LEO smallsats that connect directly to unmodified mobile phones. Lynk has successfully repeated the test multiple times with independent observers.

A video recording of this history-making event can be found at this direct link…

This milestone is the culmination of over a year of satellite-to-phone-on-the-ground testing involving multiple payloads in space.

Tyghe Speidel, Co-founder and VP of Technology of Lynk and the inventor of the core breakthrough technology, stated,  that this is a critical verification of the company’s revolutionary radio access network technology’s ability to compensate for the effects of placing the cell tower in orbit, which mobile standards were not designed to accommodate.

This breakthrough represents a key step in advancing Lynk’s vision to provide universal broadband connectivity to the over five billion people who have mobile phones but cannot access wireless signals everywhere. Lynk has solved what was widely considered an impossible problem in a one trillion-dollar-a-year global industry — how to provide connectivity to mobile phones across the planet, when it is cost-prohibitive to build and operate cell towers everywhere, especially in less populated areas. Lynk’s technology solves this problem of providing mobile broadband coverage everywhere on Earth, a $300-400 billion a year opportunity.

Charles Miller, Co-Founder and CEO of Lynk, noted that in collaboration with nearly 30 mobile network operator partners, Lynk is actively working to deploy the first commercial product. With the permission of regulators, Lynk is confident that the company can bring a world-first solution to the market to tens-of-millions of people by the end of 2020. This is a game changer for the billions of people who own a mobile phone, for the billions who do not have affordable connectivity, and for the entire mobile communications industry. Lynk makes the impossible possible. In the near future, you will stay connected everywhere — all the time.

The successful tests also prove that Lynk’s Everyone Everywhere Emergency alerts are feasible using Lynk’s orbiting satellites. The startup’s now proven technology will enable people everywhere to get potentially life-saving alerts — from the farthest parts of the ocean, to rural areas, and to the most remote islands — of impending natural disasters, such as hurricanes, wildfires, and tsunamis. Lynk’s breakthrough will provide emergency responders with assured mission-critical communications during natural disasters when traditional ground-based cellular networks are down.

Steve Case, the Co-Founder of AOL and Chairman and CEO of the DC-based investment firm Revolution (an investor in Lynk via Revolution’s Rise of the Rest Seed Fund), added that connectivity changes lives and saves lives. Lynk’s successful test brings the company one step closer to providing the 2+ billion people around the world who live and work in rural communities with affordable connectivity and the immeasurable social and economic benefits that come with it.

Mark Foster, the inventor of cell phone number portability and a Founding Partner at Blazar Ventures, an investor in Lynk, added that the company is proud of Lynk’s revolutionary and industry-transformative accomplishment. Lynk will touch the lives of billions – by connecting directly to their standard mobile phones from satellites in orbit – and provide a desperately needed alternative to conventional terrestrial towers for mobile network operators to extend coverage everywhere. Lynk’s rapid prototyping and innovative space access strategies are a key part of their success, and Blazar Ventures looks forward to Lynk’s introduction of the world’s-first satellite-to-standard mobile phone service to tens-of-millions of people by the end of 2020.

Lynk has already launched its fourth “cell tower in space” spacecraft on the SpaceX’s CRS-20 mission on March 6th. This spacecraft, which is named Lynk The World, will allow the company to expand testing in the Summer of 2020 to additional countries and partners.

Phase Four Receives USAF AFWERX Contract for Maxwell Propulsion System Adaptation

Phase Four has been awarded an SBIR Phase I contract by U.S. Air Force (USAF) tech accelerator AFWERX, in partnership with the Air Force Research Laboratory (AFRL) and the National Security Innovation Network.

As part of this partnership, beginning in March 2020, Phase Four will work with the USAF to adapt their Maxwell in-space propulsion system to meet the needs of defense users.

Affordable and reliable in-space propulsion is an essential requirement for both commercial and defense next-generation satellite constellations. The Phase Four radio-frequency thruster (RFT) is the first solution to address the cost, manufacturing, and performance needs of high volume satellite constellations. RFT’s simple architecture allows manufacturing to scale up easily and accommodates a wide range of solid, liquid, and gas propellants. In turn, these features potentially open an even wider range of mission possibilities, including missions in deep space and very low Earth orbit.


Phase Four’s Maxwell is a turn-key electric propulsion solution for next generation smallsats and includes the company’s proprietary RF thruster, power electronics, 1 kg. xenon propellant tank (and control system), and flight software.

Maxwell is a complete in-space propulsion system built on Phase Four’s RFT. The system includes power electronics, software, and a pressurized storage vessel for 1 kg. of xenon, providing more than 10,000 Ns of impulse. Maxwell is delivered in an enclosure smaller than 19x19x 14 cm. Customer deliveries began earlier this month.

CEO Beau Jarvis said the firm is proud to have been selected by the U.S. Air Force as one of their potential technology partners. This is a great example of how Phase Four’s commercial success with Maxwell in the private sector can translate to defense needs.

Jason Wallace, VP of Advanced Development for the company, stated that with space now a contested domain, the firm looks forward to collaborating with the U.S. Air Force to provide United States space assets with the superior maneuverability and resiliency required to ensure mission success.