Rafflesia
Paper lantern : Geometric rules from natural pattern
Keryn Liew 610143
Virtual Environments Semester 1/2013 Group 11
DESIGN BRIEF
A curvilinear for m with panelized sur face that inter face only with the hands and forear m. It is a paper lanter n, derived from geometric rules based on patter ns in nature, and serves to the exter nal atmosphere through light and shadow.
1.Ideation PATTERN FORMATION IN NATURE
Rafflesia, a type of parasitic flowering plants, has its initial structure grown outwards from the point
of center. The processes of the Rafflesia, which are the segments that branch out from the center, creates a miraculous emergent behavior. It is also to be amazed by the nature of Rafflesia that there is a balance of symmetrical diverting segments to connect the encircled part. A spontaneous pattern formation is emerged. In spite of the complicated symmetric pattern, the central part of the Rafflesia is formed naturally. There is a force within the flower to maintain its consistency of the symmetrical pattern. The arbitrariness of spots on the huge petals creates an aesthetically uneven movement across the petals. This is explored as the oscillating chemical reactions, the switching on and off of the pigment-generating genes. These notions are what Philip Ball observed : natural patterns are raised through interactions of many integrant of one system.
IDEATION: NATURALLY OCCURING PATTERN Intrigued by the uniqueness of its pattern, the largest flower in the world, Rafflesia is explored as the sample image.
Symmetry | Balance | Movement ANALYTICAL DRAWINGS
Aroused to view objects from nature in a very different perspective besides The whole image is identhinking analytically about its basic structures, patterns that are not perceived tified into smaller parts in directly by the eyes have to be examined. the first stage and this is where the approach of “Analytical drawing is an investigation of the structural relationships among drawings based on the idea of symmetry comes objects.� - Kandisky. in. Logically, the image A condensation of a diversity of shapes is therefore, used as an underlying is investigated based principle of analyticity. on the proportions and changes that gradually vary within.
The second stage views the object on its tension of the structure. The aspect of balance is integrated. Connections of dots and focal points are networked to develop the sense of equilibrium within the structure. Parallel construction and major contrasts are considered. The contour of the image is represented.
A very radical framework is approached at the third stage. Extreme simplicity and energy characteristic of the image are expressed. The aspect of movement is incorporated. Termed as translation, it is at this point, the image is regarded into the utmost simplification that is comprehensible.
RECIPE OF GEOMETRIC RULE 1. Elongate the segment in anticlockwise direction. 2. Divert the ends into two small parts to reach the initial structure.
IDEATION: PHYSICAL AND DIGITISED MODEL
The focus is on the central point of the Rafflesia.
The Y-shaped curve is further explored.
SYMMETRY AND BALANCE - An extruded pentagon is the backbone of the whole model. Perpendicular strips are connected within the oval and circle.
CROSSOVER - The intersecting ends of the two curves are joined to form an enclosed rhombus-like shape.
MOVEMENTS - Curves are used as the representation of huge petals and the oval is extended with these curves forming a wave-like structure as its border.
TRANSLATION - The patterns are mirrored, forming an enclosed shape in the center. A variety of heights based on the extruded Y-shaped curve are joined together. A radii of a new emerged pattern is formed.
IDEATION: PRECEDENTS AND EXPLORATIONS
New Taipei City Musuem, Taipei
Anchored from a base in the center, these extruding curvatures in the first precedent are similar to the concept of the central part of the emerging form model. Another distinct design is the base of this museum, where trusses are arranged to form a consistent pattern that has a rotating effect towards the center of the ceiling.
ArtScience Musuem, Singapore
This amazing roof structure in the second precedent is designed in a way to allow both light and air to be integrated to the building. The crossover characterestic from various Ys is a conceptualisation that could be incorporated - the symmetrical diverting segments attribute to the formation of the model.
Clay Model
IMAGINARY LANTERN Preserving the component of a Y curve as its essential principal, the design of layering various Y curve in different directions is examined for the evolvement of the angles that could be created by the joints of all Y curves. The lights that penetrate between the multiple layers would give several effects - an effect of glow at certain openings and a diminished exposure of light in some divisions, in which the rule of diverting one segment to two separate parts is explored.
Considering the consistent geometric proportion, the repetition of the Y-shaped curves in various directions then formed a newly emerged structure, where the complexity is actually based on simple principals from nature.
Based on reflections of the Y curves could produce, the base of this model is abstracted from the emerging form model where various heights of extrusions are incorporated. While the light from the central midpoint would be a sharp laser-like penetration, the effect of light from the base would create an opposite effect due to diffusion. This is when the role of reflections come in to create an illusion of diverting lighting effect.
2.Design ABSTRACTION AND REDUCTION “Involving human intelligence and perspectives, the information is simplified while its properties are still remained” - Lost in Parameter Space.
Relating this to the analytical drawings back in IDEATION, symmetry, balance and movements are the abstraction of details from the selected pattern in nature. The optimal way to transport the information is done through normalization and refactoring via reduction. The details are described and reproduced in an appropriate way without changing its content. This is shown in the recipe and hence characteristics of Rafflesia are exploited.
First Refined Form
This interpretation of the shape of the model would be rather direct from the rules. Also being relatively not that solid to be a lantern for further paneling development, a transformation is developed.
With this, a form of the main characteristics featured in the two imaginary lanterns in IDEATION are combined.
As inspired from the lecture on how geometry should interact with the forearm, this expanding base would be interacting with the wrist and hand, in which the effect of diversion from center could be delivered.
“Design is not an immediate process, it needs to be worked through” - Lecture (Designing Effects)
The whole model still retains the parasitic characteristic, as its shape could be cling on the forearm.
Hence, the transformation of digitised model. + simplification from first form + general Y form Second Refined Form Using the contour method of cutting and tracing sectional slices, the clay model is then digitalized.
Final test form to be panelled
Art et Flortude (France) Betwin Space Design
DESIGN: INSPIRATION Art et Floritude (France) shows a distinct shades by the layers of geometry. Attracted by the various tones produced,the layering effects of these designs could be applied to the design development. Sophistication of the Rafflesia could be shown through shadows and layers. Intrigued by the uneven 3D layers of this design by Betwin Space Design, and rather directly exposed to the atmosphere, application of layers could be done. This would hence depict the shadows to be beneath the layer of the Rafflesia.
DESIGN: DIGITAL PANELING EXPLORATION
Instead of using 3D panels, exploration of 2D panels that could form layers of different shades is tested. Filtering effect is used where shapes of a modified Ys are formed to make holes on the panels.
Applying inspirations from Art et Floritude, the panels are customised by having the effect of ‘layered roof’ on top of another. Combined Ys are still applied as it is the base emerging form.
Inspired by Betwin Space, another panel where a shaded layer is covered over the offset borders is customized to investigate the effect on layered diversion.
DESIGN: PROTOTYPES AND REFORMING “The mainstream design of buildings is soulless and cold.” - Heatherwick.
Influenced by the materiality and soulfulness of things, the implications of benefiting geometrical patterns could be seen in Heatherwick’s designs. Using the approach of movements in nature, spatial effects are created. The structure of lantern is hence reformed from the very start, the Y-curve segment, by applying Heatherwick’s conceptualisation and the recipe of the geometric rule.
As motivated by Dr Alex Selenitsch from Lecture (Composition: Form & Matter), the customized panels are based on the concept of assemblage. Panels where light testing are crucial are scrutinised through prototypes that would contribute to the final designed panels which would be combined in further fabrication. + Direct overlapping shadow effects + Divert shadows by covering with layers
Elongate each segment in anticlockwise direction
Divert the ends into two small parts to reach the initial structure
The process of changes from a Y to the final form
DESIGN: STUDY OF FINAL FORM
By using offset borders on basic library panels, the desired diverted concept from the recipe would be shown through shadows.
Third Refined Form
+ parasitic and dependent on arm + overlapping layers + pores of rafflesia Customizing 3D curves on top of the 2D panels in particular parts of the form to emphasize the movement along the form as inspired by Heatherwick.
Parasitic characteristic and its several ways of handling the lantern
3. Fabrication CREATIVITY AND IMAGINATION As mentioned in Lecture (Digital Fabrication), mass customization is definitely the key term in FABRICATION as the design has to be unique but also cost-efficient due to time constraints.
FABRICATION: DESIGN OPTIMISATION REFINE IN DETAILS Before applying the desired panels onto the surface, + unifying the face directions + planar surfaces have to be added
surfaces UV directions are not equal
connection among the three different segments is clearly not joined
MASS CUSTOMISATION Considered tough in paper making process due to time restrictions, the complex form of this lantern hence has panels that were kept simple which do not lose the desired layering effects. Previous precedents were recapped and the nature of rafflesia is integrated into the design. Pores are then the core design of the form too.
FABRICATION: ASSEMBLY DIAGRAM AND CUTTING TEMPLATE
900 x 600mm 250gsm Ivory Card
FABRICATION: EXPLODED AXOMETRIC VIEW
FABRICATION: CONNECTIVITY “The interdisciplinary approach is illustrated indirectly where designing and constructing are affiliated.” - Branko Kolarevic. A design that is buildable, yet not to be restricted in reducing the uniqueness of the design based on the fundamental recipe is conveyed.
EXPLORATION ON CRUCIAL PARTS Offset borders too large leading to fragility. SOLUTION: Remove offset borders for this ring
Messy connection of tabs created by using double-sided tapes and later joined with UHU glue. SOLUTION: Adjust all tabs to equal dimension of 5mm
ASSEMBLING IN DETAILS
Materials: + Penknife, metal ruler, cutting mat + UHU glue, masking tapes, bull-dog clips
FABRICATION: PROTOTYPING As mentioned earlier, Lecture(Digital Fabrication) emphasis on this two key terms creativity + imagination in this designing process, this model fabrication process is considered a puzzle making process where precision is not only important but also solving the problems encountered too. It is then a pathway to explore the constraints of paper and the process of digitalization/fabrication that would eventually leads to a design that has a distinct understanding concept.
Black strips are unnecessary in the role of design and the rule of rafflesia. It is thence discard. Using only ivory paper, the lighting effect could still be depicted; whilst inspired by the natural pigment of rafflesia, a gradient of red would be integrated. The bizzare lighting tone served to the surrounding atmosphere is just like the concept of pattern formation on rafflesia, expanding from the centre and divert outwards for its aim to be the central point of glow.
FABRICATION ASSEMBLING TIMELINE
FABRICATION: BEHIND THE BIRTH OF THE RAFFLESIA LANTERN + 4 LED strips and 1 12V battery + soldering iron and masking tape + plastic coating with red gradient highlights This internal LED wiring is done throughout the assembling of the paper lantern.
4. Reflection Twelve weeks, this period of time, with all the inspirations from lectures, understandings from readings, communications from tutorials and the all-nighters in the midst of confusions, one thing for sure: this is a remarkable learning experience.
It is as if I have come to a point where I gradually understand the formations of every objects: nature or manmade. The patterns and structures of all nature are something that has existed for no reason but to create a design that is unexplainable. The endless beauty in Mother Nature is something we could view and by exploring these patterns from nature, we could seamlessly abstract a rule that would be a stimulation and prime structure for designs in architecture, arts or even landscapes. And indeed, this process of designing is truly inspiring. As seen from the design changes in my first two modules, there is undeniably an unjustified arbitrariness when the process comes along. However, I realized the need and importance of process development, and hence I understand that this weak point is something I should scrutinize on, in order to search for the optimum and satisfied design that relates back to the very first underlying rule of formation. Apart from that, lectures have highlighted the fact of designing is based on several components that would impact differently on the viewers. This is where, the motivation comes in - creating a design that viewers could perceive clearly, as it has a basic yet fascinating foundation behind. Rifkin’s emphasis on the industrial revolutions is definitely to be amazed due to the transformation of human thoughts and the systems in general that function in the world from the past to present. Digitalization is omnipresent in this era and rather than a top-down command, system making in recent years are all linked and integrated as a collaboration. Back to the initial point of this design process, visualizing an idea may seem tough at some points; nevertheless, digitizing it is one of the learning processes where familiarization of digital fabrication is so crucial. Also relating it back to Roudavski in the Lecture of Augmented Space, he has introduced how important it is to be familiarized with digital software. And in this case, using rhino and understanding rhino is two different things where I would reach a risk of being dominated by the software. This distance between understanding and communicating is hence vital in optimizing the best design outcome and refining the digitized model. Needless to say, the exposure to digital technology has driven me to the understanding of efficiency, consistency and mass customization that would be far-reaching in the context of architectural design. A design with precise fabrication is crucial but the importance of its stability and function is significant too. Craft versus digital technology is where the risk of design and assembly is evaluated, Deamer and Bernstein (2008). This design process highlights the importance of testing, exploration and problem solvings to possibly produce an optimized outcome. Through design optimization, prototyping and rebuilding, this is the pathway where a development of increasing precision is thrived. Ideation, design and fabrication... the process to this end, a paper lantern formed, it seems beyond the realms of possibility, yet, with the learning and experiences gained throughout these twelve weeks, it is attainable!
RESOURCES
CONTEXT Architecture in the Digital Age - Design and Manufacturing /Branko Kolarevic. Spon Press, London, c2003 Ball, Philip (2012): Pattern Formation in Nature, AD: Architectural Design, Wiley, 82 (2), March, pp. 22-27 Building the Future: Recasting Labor in Architecture/ Philip Bernstein, Peggy Deamer. Princeton Architectural Press. c2008. pp 38-42 Digital fabrications: architectural and material techniques / Lisa Iwamoto. New York : Princeton Architectural Press, c2009. Loh, Paul (2013) : Lecture Week 5 - Designing Effects (Designing prototype) Loh, Paul (2013) : Lecture Week 8 - Fabrication (Digital Fabrication) Poling, Clark (1987): Analytical Drawing In Kandisky’s Teaching at the Bauhaus Rizzoli, New York, pp. 107-122 Roudavski, Stanislav (2013) : Lecture Week 9 - Augmented Space Selenitsch, Alex (2013) : Lecture Week 4 - Composition: Form & Matter (Composition + Strategy) Scheurer, F. and Stehling, H. (2011): Lost in Parameter Space? IAD: Architectural Design, Wiley, 81 (4), July, pp. 70-79 TED talks - Thomas Heatherwick - http://www.ted.com/talks/thomas_heatherwick.html The third Industrial Revolution / Jeremy Rifkin. Palgrave Macmillan, C2011.pp107-126 PRECEDENTS http://www.annakaran.com/?p=436 http://www.archdaily.com/119076/artscience-museum-in-singapore-safdie-architects/ http://www.archdaily.com/164361/new-taipei-city-museum-of-art-proposal-ota/ http://www.artetfloritude.fr/