The advanced CAD model of a cargo bike

Sebastian Rzydzik

a:1:{s:5:"en_US";s:10:"PhD., Eng.";}

Marcin Adamiec




Abstrakt

This article describe a way to create generative model at the example of cargo bike model, which is very simple object which can be used to present all important rules applied during crating generative models. Great attention was paid to the issue of model parametrization which is elementary thing in all modelling. Besides these aspects, it is also shown how to transform parametric model into generative model using programming languages. In the last part of article was included tests of correct working of model which focused also to the right position cyclist on the bike and shows how model of cargo bike could change its sizes thanks to correctly created generative model.


Słowa kluczowe:

generative model, parametric model, mechanical design, bike, cargo bike


Autodesk. 2020. Frame Generator overview. https://knowledge.autodesk.com/support/inventor/learn-explore/caas/CloudHelp/cloudhelp/2020/ENU/Inventor-Help/files/GUID-953F560A-C2D3-4031-8348-762054C7C779-htm.html (access: 09.11.2020).   Google Scholar

BUONAMICI F., CARFAGANI M., FURFERI R., VOLPE Y., GOVERNI L. 2020. Generative Design: An Explorative Study. Computer-Aided Design and Application, 18(1): 144-155.   Google Scholar

CAMBA J.D., CONTERO M., COMPANY P., HARTMAN N. 2020. The Cost of Change in Parametric Modeling: A Roadmap. Computer-Aided Design and Application, 18(3): 634-643.   Google Scholar

Cargocycles. 2020. Long-John cargo bike photography. https://cargocycles.com.au/wp-content/uploads/2020/02/babboe-mini-vlt2020-2.jpg (access: 09.11.2020).   Google Scholar

COOPER S., FAN I., LI G. 1999. Achieving competitive advantage through knowledge-based engineering: a best practice guide. Prepared for the Dept. of Trade and Industry by Dept. of Enterprise Integration, Cranfield University.   Google Scholar

FOSTER D. 2019. Generative Deep Learning. O’Reilly Media Inc., Sebastopol.   Google Scholar

ISO 10303: Industrial automation systems and integration – product data representation and exchange. Standard for the Exchange of Product model data (STEP). 2007. International Organization for Standardization. Mishra R.S., Mahoney M.W. Friction Stir Welding and Processing, 1st ed. ASM International, Materials Park, Ohio.   Google Scholar

KALKAN O.E., FATIH O., ALTUNIŞIK A. 2018. Applications and usability of parametric modeling. Journal of Construction Engineering, Management & Innovation, 1. http://doi.org/10.31462/jcemi.2018.03139146.   Google Scholar

KUANG-HUA C. 2014. Product Design Modeling using CAD/CAE: The Computer Aided Engineering Design Series. Elsievier, Amsterdam.   Google Scholar

LANCASTER M. (2016) Inventor Frame Generator Skeleton and Model Structure. SYNERGIS Engineering Desing Solutions. https://synergis.com/2016/01/14/inventor-frame-generator-skeleton-and-model-structure (access: 08.11.2020).   Google Scholar

MUNFORD P., NORMAND P. 2016. Mastering Autodesk Inventor 2016 and Autodesk Inventor LT 2016: Autodesk. Sybex Inc., Hoboken.   Google Scholar

PRZECHODZIEŃ Ł. 2020. Rozmiar ramy rowerowej – jaki wybrać? Rowerowe porady. https://roweroweporady.pl/rozmiar-ramy-rowerowej (access: 07.11.2020).   Google Scholar

RIGGS W.W. 2016. Cargo Bikes as a Growth Area for Bicycle vs. Auto Trips: Exploring the Potential for Mode Substitution Behavior. Transportation Research. Part F. Traffic Psychology and Behaviour, 43: 48-55. http://doi.org/10.1016/j.trf.2016.09.017.   Google Scholar

SHAH J.J., MÄNTYLÄ M. 1995. Parametric and Feature-Based CAD/CAM: Concepts, Techniques and Applications. A Wiley – Interscience publication, Hoboken, New Jersey.   Google Scholar

SHIH R. 2019. Parametric Modeling with Autodesk Inventor 2020. SDC Publications, Mission.   Google Scholar

SHIH R.H. 2019. Learning Autodesk Inventor 2020: Modeling, Assembly and Analysis. SDC Publications, Mission.   Google Scholar

SHKIH R.H. 2019. Parametric Modeling with Autodesk Inventor 2020. SDC Publications, Mission.   Google Scholar

SKARKA W. 2006. Knowledge acquisition for generative model construction. In: Leading the Web in concurrent engineering: next generation concurrent engineering, Frontiers in Artificial Intelligence and Applications Series. Eds. P.S. Ghodous, R. Dieng-Kuntz, G. Loureiro. IOS Press, Incorporated, p. 263–270.   Google Scholar

SKARKA W. 2011. Ontology-based intelligent personal assistant. In: New World Situation: New Directions in Concurrent Engineering. Eds. J. Pokojski, S. Fukuda, J. Salwianski. Proceedings of the 17th ISPE International Conference on Concurrent Engineering, Advanced Concurrent Engineering, Springer London, Limited, p. 267–274.   Google Scholar

SOBIESZCZANSKI-SOBIESKI J., MORRIS A., VAN TOOREN M. 2017. Multidisciplinary Design Optimization Supported by Knowledge Based Engineering. Wiley, Hoboken, New Jersey.   Google Scholar

SUTHERLAND I.E. 2003. Sketchpad: A man–machine graphical communication system. Tech. Rep. UCAMCL-TR-574, Computer Laboratory, University of Cambridge, Cambridge MA.   Google Scholar

Trike cargo bike photography. 2020. Cargocycles. https://cargocycles.com.au/wp-content/uploads/2018/02/babboe-big-01-65-1.jpg (access: 09.11.2020).   Google Scholar

VUKAŠINOVIĆ N., DUHOVNIK J. 2019. Advanced CAD Modeling. Explicit, Parametric, Free-Form CAD and Re-engineering. Springer Nature, Switzerland AG.   Google Scholar


Opublikowane
07-12-2021

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Rzydzik, S., & Adamiec, M. (2021). The advanced CAD model of a cargo bike. Technical Sciences, 24(1), 301–315. https://doi.org/10.31648/ts.7023

Sebastian Rzydzik 
a:1:{s:5:"en_US";s:10:"PhD., Eng.";}
Marcin Adamiec 




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Utwór dostępny jest na licencji Creative Commons Uznanie autorstwa 4.0 Międzynarodowe.





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