eprintid: 17497 rev_number: 2 eprint_status: archive userid: 1 dir: disk0/00/01/74/97 datestamp: 2023-12-19 03:23:52 lastmod: 2023-12-19 03:23:52 status_changed: 2023-12-19 03:08:09 type: conference_item metadata_visibility: show creators_name: Faqih, M. creators_name: Arini, N.R. creators_name: Prasetya, H.E.G. creators_name: Omar, B.A.A. creators_name: Amosa, T.I. title: Multiple Degree of Freedom Vibrations User Interface Development ispublished: pub keywords: Degrees of freedom (mechanics); Graphical user interfaces; Open source software; Open systems; Stability; Time domain analysis; Vibration analysis, GNU octave; Mode shapes; Multiple degree of freedom vibration; Multiple degree-of-freedom systems; Multiple degrees of freedom; Multiple degrees of freedom system; Structural fatigue; Structural stabilities; User interface development; Vibration phenomena, Natural frequencies note: cited By 0; Conference of 24th International Electronics Symposium, IES 2022 ; Conference Date: 9 August 2022 Through 11 August 2022; Conference Code:182923 abstract: Multiple Degree of Freedom (MDOF) vibrations is found in many cases of vibration phenomenon. The evaluation of the vibration is important for structural stability and fatigue investigation. However, the evaluation often requires a complicated calculation step due to the complex system that makes the process is not straightforward and time-consuming. This paper aims to provide a Graphical User Interface (GUI) that can be used to analyze the vibration of the MDOF system with two, three, and four degrees of freedom. The system is simplified by mass-spring-damper elements to model the interaction of components in the industry. The algorithm is developed using an open-source computational programming language named GNU Octave. The GUI is used to ease the user to simulate the vibration response based on given initial parameters. The GUI also provides features to calculate the natural frequencies and mode shapes of the system and present them on the spectrum. The algorithm is verified in the previous study to establish the simulation result. Based on the result, the amplitude of the time-domain displacement reaches a precise value as the reference. It is proven by the displacement amplitude of the first and second mass of the 2 DOF system are 0.05 m and 0.06 m. The calculation of the natural frequency also proved by the value of the first, second, and third natural frequency of the 3 DOF system which are 64.89 rad/s, 108.13 rad/s, and 281.06 rad/s respectively. Moreover, the mode shape shows a proportional value compared to the related study. It can be inferred that the proposed GUI is verified and ready to use to evaluate the vibration of the MDOF system. © 2022 IEEE. date: 2022 publisher: Institute of Electrical and Electronics Engineers Inc. official_url: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85139710256&doi=10.1109%2fIES55876.2022.9888698&partnerID=40&md5=bcfe4fda3e3c22f1272b4ed77dfc547b id_number: 10.1109/IES55876.2022.9888698 full_text_status: none publication: IES 2022 - 2022 International Electronics Symposium: Energy Development for Climate Change Solution and Clean Energy Transition, Proceeding pagerange: 20-25 refereed: TRUE isbn: 9781665489713 citation: Faqih, M. and Arini, N.R. and Prasetya, H.E.G. and Omar, B.A.A. and Amosa, T.I. (2022) Multiple Degree of Freedom Vibrations User Interface Development. In: UNSPECIFIED.