@inproceedings{oai:kyutech.repo.nii.ac.jp:00006028,
 author = {Batsuren, Amgalanbat and Hatamura, Toru and Masui, Hirokazu and 増井, 博一 and Cho, Mengu and 趙, 孟佑},
 book = {Transactions of the Japan Society for Aeronautical and Space Sciences, Aerospace Technology Japan},
 issue = {ists30},
 month = {Jul},
 note = {This paper presents a part of the basic research for establishing the unit Qualification Test (QT) conditions within the framework of an international project to make ISO standard, namely, "Space Systems—Design Qualification and Acceptance Tests for Small-Scale Satellites and Units Requiring Low Costs and Fast Delivery". A laboratory test is conducted to study how vibration acceleration is distributed in a satellite body, so as to define the unit QT random vibration test level. The range of natural frequency and the amplification of acceleration are identified through statistical analysis of the test results. Finite element analysis is carried out to extend the findings to other structural types of micro/nanosatellites. Three structural types are analyzed, i.e., Yojo han, T-type and Pi-type. Based on the results, a unit QT vibration level that provides the minimum reliability assurance for use in space is proposed., 6th Nano-satellite Symposium (NSAT), July 4th-July 10th, 2015, Kobe-Hyogo, Japan},
 pages = {Pf_51--Pf_60},
 publisher = {日本航空宇宙学会},
 title = {Finite Element Analysis of Vibration Amplification Distribution in Lean Satellites},
 volume = {14},
 year = {2015},
 yomi = {マスイ, ヒロカズ and チヨウ, メンウ}
}