Analysis tool for predicting the risk of electrostatic discharge occurrence.
Space MUSCAT (Multi-Utility Spacecraft Charging Analysis Tool) is an analysis tool for predicting the risk of charging and discharging events in satellites and other objects in the space environment.
Inquire About This Product
basic information
【Features】 ● Capable of charge analysis corresponding to the plasma environments of geostationary, low Earth, and polar orbits ● Satellite designers can easily create analysis models using a user-friendly GUI ● This tool was developed in collaboration with JAXA and Kyushu Institute of Technology ● We offer a commercial version of Space MUSCAT to satellite development-related companies ● Contract analysis using Space MUSCAT is also available *For more details, please contact us.
Price information
Please feel free to contact us.
Delivery Time
※Please feel free to contact us.
Applications/Examples of results
Prediction of the risk of discharge generation from charged satellites in the space environment.
catalog(1)
Download All Catalogs
Company information
Space development is an extremely important endeavor to expand humanity's territory. However, due to the thin commercial profits relative to its costs, it is in a situation where it is difficult to establish itself as a self-sustaining industry on a global scale. In particular, in Japan, many young engineers have aspirations for space development, yet the situation has persisted where they transition to other fields along the way. However, in recent years, advancements in miniaturization and weight reduction technologies have significantly reduced the costs of launching satellites into orbit, increasing the momentum for industrialization. MUSCAT Space Engineering Co., Ltd. has been developing software to support satellite design, focusing on the analysis of space environment durability since its establishment in September 2006. Moving forward, we intend to expand into new space technologies that include hardware development considering space environment durability, while continuing our traditional operations.
