Platform-1 (ENDURANCE, IBM, Shared Sat 2, SPARTAN-2, Shared Platform for Applied Research and Technology Affirmation, Shared Sat 3, SHAREDSAT 2141)

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Satellite name Platform-1 (ENDURANCE, IBM, Shared Sat 2, SPARTAN-2, Shared Platform for Applied Research and Technology Affirmation, Shared Sat 3, SHAREDSAT 2141)
Type CubeSat
Units or mass 6U
Status Operational (Social media post on LinkedIn on September 2022 as of 2022-12-21)
Launched 2022-05-25
NORAD ID 52770
Deployer EXOpod 12U/16U [Exolaunch]
Launcher Falcon 9 (Transporter-5)
Organization EnduroSat
Institution Company
Entity Commercial
Nation Bulgaria
Manufacturer AIVT by EnduroSat
Launch brokerer Exolaunch, Momentus
Oneliner

Technology demonstrations and commercial payloads.

Description

Technology demonstrations and commercial payloads.

Leveraging IBM’s Edge Computing in Space solution, developers will be able to execute containerized code on the Cubesat as it orbits the Earth.

In order to provide a stable CubeSat as a Service, the Mission Control System has continuously improved and operated with 184 successful jobs uploaded from the ground and executed dynamically in space. Development and automation tools have also been developed and operated for end users to develop code for themselves. Currently, the CubeSat is provided as a Service for various scientific research experiments in the fields of device security, Earth observation, and sensor analysis from schools and higher education.

The CubeSat uses containers for packaging and deploying applications. Containers are a type of virtualization technology that allows applications and their dependencies to be packaged together in a single and self-contained unit, which helps deploy and manage applications in different environments, such as cloud computing, edge computing, and space-based systems. This feature of hardware independence performs data processing and storage tasks in a highly flexible and dynamic manner. Containers also enable easy updates and upgrades to satellites’ hardware capabilities, responding quickly to changing mission requirements and user needs.

In this paper, we will show how to implement and operate CubeSat as a Service by utilizing Software Defined Environment and Container/Virtualization Technologies. In addition, we will also demonstrate how to automate the process using CI/CD (Continuous Integration and Continuous Deployment) pipeline. First, we will describe Virtualized Software Runtime consisting of an off-the-shelf Operating System, Podman, and MicroShift. Podman is an open-source container technology that is widely used for deploying applications in cloud and edge computing environments. We used Podman to deploy applications on the CubeSat, running complex applications and services in a scalable and efficient manner. MicroShift is an open-source container orchestration platform that automates the deployment, scaling, and management of containerized applications. Second, we will introduce a CubeSat Mission Control Center for Software Defined CubeSats. The CubeSat Mission Operations Center is a centralized facility responsible for controlling and monitoring the operations of CubeSats. Third, we will show CI/CD pipeline that has Lee 2 37th Annual Small Satellite Conference a set of practices and tools to automate the software development process, from code creation to deployment. The CI/CD pipeline helps to automate the software development and deployment process. This centralized software life cycle management enables frequent updates and improvements to keep pace with users’ changing requirements and needs.

Results

In order to provide a stable CubeSat as a Service, the Mission Control System has continuously improved and operated with 184 successful jobs uploaded from the ground and executed dynamically in space.

As of 2023-03-14:

  • 110+ GB data downloaded.
  • 6520+ telecommands.
  • 1293+ passes.
  • 155+ ML script executions.
  • 4 ground stations.
Sources [1] [2] [3] [4] [5] [6] [7] [8] [9] [10]
Photo sources [1] [2] [3] [4] [5]
COTS subsystems
  • PLATFORM - EnduroSat
  • THRUSTER - Hypernova
Subsystems sources [1]
Keywords Propulsion
Space photos Platform-1Platform-1Platform-1Platform-1

[1]

Last modified: 2023-12-24

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Created by Erik Kulu

Email: erik.kulu@nanosats.eu
LinkedIn: linkedin.com/in/erikkulu

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