Design Sources –
1. Huiskes, R., Weinans, H., Grootenboer, J., Dalstra, M. Fudala, B & Slooff, T 1987, ‘Adaptive Bone-Remodeling Theory Applied to Prosthetic Design Analysis’, Pergamon: Biomechanics, vol. 20, no. 11, pp. 1135-1150.
Adaptive Bone-Remodelling Theory Applied to Prosthetic Design Analysis is an academic paper which considers the development and utilisation of computer simulations. Considering the methodology to predict bone remodelling in accordance to stress related factors, Wolff’s Law and the Finite Element Method.
2. Elsley, Richard, ‘Adaptive Control of Prosthetic Limbs Using Neural Networks’, Rockwell International Science Center, pp. 771-776.
Adaptive Control of Prosthetic Limbs Using Neural Networks is a paper which considers the manner in which prosthetic control and the inverse control is a result of internal functions. Therefore considering the manner in which prosthetics are only utilised once the functional control is identified.
3. Troncossi, Marco., Parenti-Castelli, Vincenzo & Davalli,
Angelo, ‘Design of Upper Limb Prostheses: A New Subject Oriented Approach’, Department of Mechanical Engineering, University of Bologna, pp. 1-4.
Design of Upper Limb Prostheses: A New Subject Oriented
Approach intent is to question and develop innovative prosthetics upon bilateral
systems which consider predefined variable requirements. Thus outlining a
mechanical design of a prosthetic system which is subject orientated.
Experimental Sources -
1. Pitts, Greg & Datta, Sambit, ‘Parametric Modelling of Architectural Surfaces’, The School of
Architecture and Building, Deakin University, pp. 635-644.
Parametric Modelling of Architectural Surfaces is a paper which outlines parametric modellings ability as a design tool within architectural design considers the generative ability of complex geometrical forms generation using parametrics. Geometrical forms concentrated on surface development which considers relative variables such as lighting quality.
2. Peters, Brady, ‘Parametric Acoustic Surfaces’, Royal Danish Academy of Fine Arts, pp.
174-181.
Parametric Acoustic Surfaces considers the development of complex acoustic surfaces using parametrics. Thus responsive surfaces which consider the surrounding aural environment. Using parametrics to utilise absorptive and diffuser etc. qualities of surface architecture. Six Additional Source
3. Chiu, Yun-Ying, ‘How to Make the Soft Skin? A preliminary framework for the parametric design of the bionic soft skin’, Graduate Institute of Architecture, National Chiao Tung University, pp. 237-242.
How to Make the Soft Skin? A preliminary framework for the parametric design of the bionic soft skin is a paper which presents a preliminary framework for the design and fabrication of a bionic architectural surface. However considering a surface which potentially may be formed independent of the internal structure.
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