本文へ移動

サイトナビゲーションへ移動

検索ボックスへ移動

サイドバーへ移動

ここは、本文エリアの先頭です。

Resaerch of model based development for space systems at early development phase

JAXA Supercomputer System Annual Report February 2024-January 2025

Report Number: R24EDG20177

Subject Category: Research and Development

PDF available here

  • Responsible Representative: Taro Shimizu, Research and Development Directorate, Research Unit III
  • Contact Information: Kaname Kawatsu, Research Unit III, Research and Development Directorate, Japan Aerospace Exploration Agency (kawatsu.kaname@jaxa.jp)
  • Members: Members: Keiichiro Fujimoto, Kaname Kawatsu, Kuugo Okada, Shinjiro Tsuji, Yusuke Oki, Naoto Tsubaki, Kei Nishimura

Abstract

Recently, there are many research with regard to model-based development approach and degialization of space systems. JAXA Reserch Unit III is developing system simulator necessary for space system design in early phase, and it can be used to improve efficiency of development time. In this project, we develop the model-based method for space systems design evaluation and risk assesment with parameter studies and Monte Carlo simulations on JSS3.

Reference URL

N/A

Reasons and benefits of using JAXA Supercomputer System

All JAXA employee can use JSS quickly and easily without any complicated procedures.

The system can be connected within the JAXA intranet, so there is little risk of information leakage.

Quick access to extensive support on how to use the system.

The ability to perform numerous Monte Carlo simulations in a short time by utilizing large computational resources.

Achievements of the Year

We are working on developing and applying model-based development methods for design evaluation and risk assessment with the automated docking system to evaluate dynamic behavior, including each interaction across multiphysics domains. This approach is realized using the Modelica modeling language, which allows acausal modeling of complex cyberphysical systems. Further, a reduced-order model realized by the Modelica and parallel computing availability with JSS3 are realized docking feasibility evaluation and safety measure tradeoffs.

Publications

- Oral Presentations

Kaname Kawatsu, Hirofumi Kurata, Hikaru Mizuno, "Multi-disciplinary model-based development method targeting spacecraft automated docking systems," AAS/AIAA Space Flight Mechanics, 2025.

Usage of JSS

Computational Information

  • Process Parallelization Methods: N/A
  • Thread Parallelization Methods: N/A
  • Number of Processes: 1
  • Elapsed Time per Case: 30 Minute(s)

JSS3 Resources Used

 

Fraction of Usage in Total Resources*1(%): 0.04

 

Details

Please refer to System Configuration of JSS3 for the system configuration and major specifications of JSS3.

Computational Resources
System Name CPU Resources Used
(Core x Hours)
Fraction of Usage*2(%)
TOKI-SORA 0.00 0.00
TOKI-ST 300548.45 0.31
TOKI-GP 925.99 0.01
TOKI-XM 0.00 0.00
TOKI-LM 0.00 0.00
TOKI-TST 0.00 0.00
TOKI-TGP 1724.42 11.87
TOKI-TLM 0.00 0.00

 

File System Resources
File System Name Storage Assigned
(GiB)
Fraction of Usage*2(%)
/home 163.39 0.11
/data and /data2 2433.33 0.01
/ssd 0.00 0.00

 

Archiver Resources
Archiver Name Storage Used
(TiB)
Fraction of Usage*2(%)
J-SPACE 0.00 0.00

*1: Fraction of Usage in Total Resources: Weighted average of three resource types (Computing, File System, and Archiver).

*2: Fraction of Usage:Percentage of usage relative to each resource used in one year.

 

ISV Software Licenses Used

ISV Software Licenses Resources
ISV Software Licenses Used
(Hours)
Fraction of Usage*2(%)
ISV Software Licenses
(Total)
0.00 0.00

*2: Fraction of Usage:Percentage of usage relative to each resource used in one year.

JAXA Supercomputer System Annual Report February 2024-January 2025