Kinematička rekonstrukcija rotacije satelita

Ban, Michael

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master's thesis

Kinematička rekonstrukcija rotacije satelita

Zagreb: University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, 2018. urn:nbn:hr:235:415775

Ban, Michael

University of Zagreb
Faculty of Mechanical Engineering and Naval Architecture

Institutional repository: Repository of Faculty of Mechanical Engineering and Naval Architecture University of Zagreb

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APA 6th Edition

Ban, M. (2018). Kinematička rekonstrukcija rotacije satelita (Master's thesis). Zagreb: University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture. Retrieved from https://urn.nsk.hr/urn:nbn:hr:235:415775

MLA 8th Edition

Ban, Michael. "Kinematička rekonstrukcija rotacije satelita." Master's thesis, University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, 2018. https://urn.nsk.hr/urn:nbn:hr:235:415775

Chicago 17th Edition

Harvard

Ban, M. (2018). 'Kinematička rekonstrukcija rotacije satelita', Master's thesis, University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, accessed 27 December 2024, https://urn.nsk.hr/urn:nbn:hr:235:415775

Vancouver

Ban M. Kinematička rekonstrukcija rotacije satelita [Master's thesis]. Zagreb: University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture; 2018 [cited 2024 December 27] Available at: https://urn.nsk.hr/urn:nbn:hr:235:415775

IEEE

M. Ban, "Kinematička rekonstrukcija rotacije satelita", Master's thesis, University of Zagreb, Faculty of Mechanical Engineering and Naval Architecture, Zagreb, 2018. Available at: https://urn.nsk.hr/urn:nbn:hr:235:415775

Cite this item: https://urn.nsk.hr/urn:nbn:hr:235:415775

Metadata

Title	Kinematička rekonstrukcija rotacije satelita
Title (english)	Kinematic reconstruction of satelite rotational motion
Author	Michael Ban
Mentor	Zdravko Terze (mentor)
Granter	University of Zagreb Faculty of Mechanical Engineering and Naval Architecture Zagreb
Defense date and country	2018-01-25, Croatia
Scientific / art field, discipline and subdiscipline	TECHNICAL SCIENCES Mechanical Engineering
Abstract	U ovom radu opisana je kinematička rekonstrukcija rotacije satelita, koja je provedena na realnom RAX-1 nanosatelitu. Na početku rada opisano je gibanje krutog tijela, koje se može prikazati u matričnom obliku pomoću SE(3) grupe. Zatim je predstavljena SO(3) grupa, koja predstavlja rotaciju krutog tijela. Budući da parametrizacija pomoću SO(3) grupe zahtijeva upotrebu devet parametara, od kojih su samo tri nezavisna, prikazana je parametrizacija rotacije pomoću Eulerovih kuteva. Pojava singulariteta prilikom opisivanja rotacija u 3D prostoru pomoću tri parametra (poput Eulerovih kuteva), vodi do potrebe za uvođenjem kvaterniona, kod kojih to nije slučaj. Ograničavanjem kvaterniona na jediničnu duljinu, dolazi se do jediničnog kvaterniona, koji se može sastojati od Eulerovih parametara. U nastavku su prikazane dvije standardne formulacije za numeričku integraciju na kvaternionima, te nova metoda, kojom se implicitno zadovoljava jedinična norma kvaterniona, te ju nije potrebno uvoditi kao dodatnu algebarsku jednadžbu, čime bi se trebao ubrzati proces numeričke integracije. Na kraju je prikazan primjer kinematičke rekonstrukcije realnog RAX-1 satelita, kod koje se uspoređuju dvije metode integracije - nova metoda i metoda kod koje se eksplicitno zadovoljava jedinična norma kvaterniona.
Abstract (english)	In this thesis, kinematic reconstruction of satelite rotational motion is described, which is implemented to real RAX-1 nanosatellite. In the begining, rigid body motion is written in matrix form and described in terms of SE(3) group. After that, SO(3) group is described, which represents rotational motion of rigid body. Since parameterization using SO(3) group uses nine parameters, only three of which are independent, parametrization in terms of Euler angles is showed. The fact that singularities appear when three-parameter parametrization is used to describe 3D rotational motion (e.g. Euler angles), there is a need to introduce quaternions, which are singularity-free. Constraining the quaternion to unit norm, we get unit quaternion, which can also include Euler parameters. Furthermore, two standard methods for numerical integration on quaternions are introduced, along with new method, in which unit norm of quaternion is implicitly satisfied and therefore there is no need to introduce additional algebraic equation, which should lead to increased efficiency in numerical integration. At the end, kinematic reconstruction of real RAX-1 nanosatellite is made, during which two integration methods are compared - new method and method in which unit norm of quaternion is explicitly satisified.
Keywords
Keywords (english)
Language	croatian
URN:NBN	urn:nbn:hr:235:415775
Study programme	Title: Mechanical Engineering Study programme type: university Study level: graduate Academic / professional title: magistar/magistra inženjer/inženjerka strojarstva (magistar/magistra inženjer/inženjerka strojarstva)
Type of resource	Text
File origin	Born digital
Access conditions	Open access
Terms of use
Created on	2019-05-22 21:11:53

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