For example, in the 1970s, satellites had little to no software compared to the satellite mega-constellations that are currently deployed, which rely on software-driven services to communicate.Įnsuring these technologies are tested rigorously in every possible scenario so it will perform reliably is mission-critical. Space equipment and technology are extremely complex and are increasingly dependent on software. Therefore, hardware and software must be durable enough to withstand these pressures and continue working as expected. From surviving the force of the launch, the vast temperature fluctuations, the impact of radiation while orbiting, communication challenges through to the volume of debris in space, these hurdles can’t be underestimated. However, when it comes to the harsh environment of space, it's the ultimate challenge for technology. From building the next generation of reusable rockets to scaling low earth orbit communication satellites and reaching planets deeper in the solar system with the ultimate goal of sending humans to Mars, there is no limit to the innovation! However, to realize these goals, the ability to confirm technology will perform as expected is mission-critical. Space missions are now commonplace, with SpaceX alone carrying out more than one voyage per week in 2022. This is fueling explosive growth, creating a gold rush in space. Governments no longer drive space exploration instead, private businesses and billionaire entrepreneurs are pushing the boundaries of what was thought possible a decade ago. The space industry has undergone a transformation over the past ten years. By Gareth Smith, general manager, Software Test Automation at Keysight Technologies
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