AIR SEMESTER 1, 2015 GUO YU 634209 ABPL30048 STUDIO 05 Brad Elias
CONTENTS Introduction
01
PART A. Conceptualisation
02
PART B. Criteria Design
00
PART C. Project Proposal
00
INTRODUCTION Who / What / How
M
y name is Hugo Yu. And just as most of my colleagues do, my experience over digital design mainly comes from Virtual Environments. To me, ‘parametricism’ is a rather familiar yet distant term. My favourite architects has always been the ones who thrives in the parametric paradigm of design. Those global big names of cause. However personally, I am still considering myself a newbie in this realm. In the past years of study. I have always stayed conservative to my own design language. Or in other words, focusing on formal expression rather than technical process. Not because I am incapable or disliked the style, but is because I wish to focus more on the actual concept that I propose. Perhaps, the Rhino and Panelling Tool introduction from Virtual really hasn’t provide me enough design gestures. To allow me use it freely and explore new techniques.
or BIM. And how timesaving it can be by using Grasshopper as the main modeling tool. And above all else, how Grasshopper is different to all other modelling tools, which allows designers to explore new ways of making architecture. It is absolutely fascinating to me how efficient they work. And most importantly, as a team. I am now eager to equip myself with a range of digital modelling skill. Not just because I want to survive in this coming new age of computational design, but simply because I wish to become a competent designer. At last, I think the great controversy over parametric architectural design in the past decade has only making this style more appealing. However, it is absolutely critical to all of us designers, to introspect constantly as we dive deeper into the digital field. What and how should architecture be responsible for the climate change, the increasing population, the ethnic issue, the political matter, the moral consequences and the people, in which our design serves.
However, a unique intern experience at an architectural firm called EWS in Shanghai over the past holiday gives me an alert on my current state of mind. Simply by observe the professional design process as a whole, gives me I believe, no matter how advance the a completely new take on architecture. technology will be in the future. Our And of cause there is Grasshopper. role as designers or architects will never change. That is to create something The firm’s lead designer demonstrated that is truly liveable and for the greater to me how important it is to have a goods of the next generation, and consistent and accurate data flow as the bring nature ever closer to the heart basis for future design documentation of humanity.
01
PART A. Conceptualisation A.1. Design Futuring
03
A.2. Design Computation
05
A.3. Composition/Generation 09 A.4. Conclusion
13
A.5. Learning Outcomes
13
A.6. Appendix
14
Reference
15
02
A.1. DESIGN FUTURING BanQ / Office dA
VCA Centre for Ideas / MvS
I
n recent years, architecture as a discourse has been converged into an increasingly pluralistic field of study, seemingly as a ‘molecular compound’ in my opinion. (Which at the same time is extremely unstablised) As indicated in the reading as well as in the lecture, the works of contemporary architecture are becoming more and more process based. But at the same time, common understandings and public enforcements is still the predominant driving force that pushes architecture into an utilitarian track. In this case, ‘Design Futuring’ is nothing but an amalgamate that having the two sides juxtaposed into one single collage. From this point, today’s architects start to spread this argument across globally and starting to implement their own understandings into practice. BanQ restaurant (fig.i ) is an interior design, focusing on the renovation of an existing context-an old savings bank.1 The overall geometry of the design is an undulating wave of wood slats that is intended to set a dynamic dining atmosphere.1 It is intended to showcase the idea of a futuristic design under a traditional framework. However, unlike other similar designs that essentially utilise the Grasshopper script for sectioning and produce an inner skin. BanQ is trying to acknowledge the existing room structurally by suggesting no new columns or walls. It does not suggest a recreation of the room, but is re-
03
imagining how people can generate a sort of new understanding of the old building. Perhaps in a poetic manner, it is trying to mirror the old building’s persona to the interior and gives it an up-to-date virtual make-up. On the other hand however, the VCA Centre for Ideas (fig.ii) are a complete clash of the traditional and the virtual. It is trying to convey a conflicting yet appealing set moment of becoming. The force in which the two opposites applies on each other, is shown continuously throughout the interior and the exterior. It clearly instigates the merging of the two sides by using a coherent materiality throughout. But is also able to show the inharmonious, by the rude formal interruptions. The use of Voronoi as the basic algorithmic principle is quite obvious on the intendedly virtual part of the design. However, the other part is not as so obvious. Seemingly modernist styled, which clearly differentiates itself with its counterpart. According to MvS’s own description, the textured reflective stainless steel facade is intended to reify the building.10 Personally, I take this as adding vagueness to the mixture. Making a ‘fuzzy’ impression, in order to distinguish itself from the rest of its habitat. Base on the lecturer and reading, design can be interpreted as direct interaction of natural system with man-made system and in two ways: nature adaptive or man-made serves
nature.3 In this case, none of the two can be considered as nature adaptive. However, the two do have different takes on the same theory. In the case of BanQ restaurant, the skeleton of the wood slats has been set by the existing infrastructures and functional arrangements.1 The slats serves as a medium in-between the two, creates a seamless conjunction for human to interact with it. The VCA is less ambiguous as it makes nature to be more of a bystander. On the first sight, BanQ reminds me of the famous Metropol Parasol design by J. Mayer H.11 Although, these two are based on slightly different computational design process. Both are intended to rejuvenate an old inhabitant community. The VCA Centre for Ideas on the other hand, has a clear continuation relationship with the HygroSkin-Meteorosensitive Pavilion design by Achim Menges Architect4. The latter has a more elaborated analogy for its structural openings based on studies of climate-responsive materials. Nonetheless, both typologies has been practised by architects across globally. However, I do prefer the more tactile intention of BanQ and how it really concerns about the role of design as an agency in-between nature and man, rather than a human centric conceptual debate.
i.
ii.
04
iii.
05
A.2. DESIGN COMPUTATION MUMUTH Music Theatre / UNStudio
F
rom Ben van Berkel’s, the lead architect of UNStudio own words: “The three most important architectural potentials of the new mediation techniques are: the expansion of the spatial imagination, the radical break with a hierarchical design approach, and the introduction of different disciplines into the design process, relating the design immediately to its final execution”.2 I think this statement concisely explains the effect of mediation techniques, in my opinion another phrase that can be used for design computation on contemporary architecture. From reading, we are informed that design computation is not merely a tool to generate formal or rational ideas.5 In the case of MUMUTH, the
process is not just a translation from the sketch (fig.iv) to the actual (fig.iii) Although at first glance, it seems like that his design approach is very much a form-based analogy from ‘Serialism’ music into an intertwining spirals that extends both vertically and diagonally generated by computational process.7 But the actual effect of this process is allowing van Berkel to apply his spatio-psychologic study and combine it with computing produced a series of flowing, movement-based volumes.7 The hand sketches are merely a mimicry of an actual performance. However, the actual design is not just about the ‘Performance’, but rather a performance list of elements that contribute to the whole design. This list is based on van Berkel and his
team reestablishing a relationship between music and architecture. From rhythms, continuity, channeling and more importantly the use of repetition as it intensify the overall effect of the design.7 It becomes truly imaginative. Last but not least, is van Berkel’s believe on a multi-disciplinary design approach, which is the basis for bringing computation to reality. In my opinion, this building is in fact a redefinition of architectural practice in theatre designs. From this precedent, I think a truly good computing process must be achieved by innovating computational details at the same time while dealing with the broad picture of design. In other words, a strategy that is more focused on the detail-to-whole relationship.8
iv.
06
A.2. DESIGN COMPUTATION Prototype Aggregate Architecture 2011 / ICD
I
must confess, I was absolutely blow away by merely the complexity of the Prototype Aggregate Architecture 2011. And the sheer multitude of individual components, which is called ‘granules’ in this case and its responsive interlocking mechanism.6 This project can be clearly identified as an Adaptive Architecture as its ability to reconfigure into any assembly systems.6 However on the contrary, it does have certain shortcomings that is necessary to take note of and possibly to improve in the future. First of all, computational process plays a vital role in this project. The challenge here is not to set an overall parameter but rather individual ones for each of the granules. Allowing them to have prospective ability. (fig.
v, vi) Combining this with the intrinsic granular structure of each individual piece, can then be assembled into clumps, walls or even domes.6 This design also suggests a closer responsibilities of architects, animators, robotic engineers and structural engineers to collaborate together. Each of them contribute in different fields in this particular practice. Whereas architects and structural engineers needs to deal with the algorithmic model and mathematics, robotic engineers needs to innovate a new assembly or ‘pouring’ process for the granules. Animators can simulate the process by performing a range of simulated benchmarks prior to the final pour.6
These simulation tests are particularly appealing to me. As demonstrated in figure vii, the process is intended to investigate the feasibility of the project as well as potential failures and the ability to deform or reform that may occur during the pouring process.6 Beyond this, a physical test (fig. viii) is also undertaken to investigate its ability to perform structural reconfiguration.6 At last, this concept suggests a very promising architectural morphology. However, some underlying elements are still missing, such as the ability to apply and investigate speed, contact points and force networks.6 Nonetheless, I am certainly interested, and perhaps having my own concept based this project.
vi.
07
v.
viii.
vii.
08
ix.
09
A.3. COMPOSITION / GENERATION Research Pavilion 2013-14 / ICD / ITKE
H
ow can man if ever find the perfect balance with nature? (Or is there really suppose to be a balance) Isn’t all matters what we create and make (no matter based on however ‘biomimicry’ or nature inspired process) still a part of our subjective wishful insistences? Can biological analysis really apply to a much larger scale, for instance a landscape design or even urban planning? And if there is ought to be a difference between ‘God’ (as the genesis) creates human and the rest of the nature, then why should we be wishful to go against it? I carry these questions from the lecture and reading, and start to look into the two precedents of this week. By definition, ‘biomimicry is an approach to innovation that seeks sustainable solutions to human challenges by emulating nature’s time-tested patterns and strategies.’ In the Research Pavilion 2013-14 this has been applied quite literally, the basic algorithms for the pavilion’s component is coming from a beetle’s microscopic section of its elytron.11 (fig.x) The project has an incredible synergy from multi-disciplinary. At the core of this synergy is a computational process which serves not just as a design tool, but also as an communicational agent inbetween each of the fields of study.11 As a result, the goal of achieving an extremely lightweight and structurally rigid shell is nicely met
with great efficiency. (fig.ix) However, the shortcomings of biomimicry in this case has also been demonstrated quite well by this project. Despite the main purpose of the structure is to demonstrate the potential of a bio-inspired, robotic manufactured and computational generated design. It has by no means to seek a sustainable solution (which is one of the most important aspect of biomimicry), and the only challenge that has been set is very much a self-appointed one. Not only is the material used (carbon fibre and fiberglass mainly) extremely costly and unsustainable. More importantly, it also hasn’t shown the critical relationship of the structure to the audiences of the system, or any of its potential applications to a bigger global system. A biological creature such as a beetle has its elytron protect their vulnerable wings not because it wanted to, but is because of natural selection choose this is a better way in the subsystem within the greater ecologic system and not just for the goods of the specie itself, but for the entire earth ecology. Right now, I think the question is really towards biomimicry itself. It is commonly misunderstood as a form-finder rather than a guideline towards sustainable future. However, such project as this is unmistakably a great way to seek for new future possibilities.
x.
10
A.3. COMPOSITION / GENERATION Jyväskylä Music and Arts Center / Ocean North + Archim Menges
N
ature inspired process doesn’t necessarily have to come from organisms. Besides the living forms, nature can be everywhere, including the very air that we breath in. It is then crucial in my mind, to choose the most suitable natural morphology rather than the most appealing depends on the given context of the building. What are the set criteria and what guidelines should we be following is absolutely critical. In the case of Jyväskylä (fig. xi), the information provided and outlined has been separated into several layers. Three gradient maps are placed on the x, y and z plane of the building’s outer envelope accordingly to the structural, sonic and luminous performative traits.9 (fig.xv) Then a cloud of seeds were grown densely or sparsely according to the gradient map, as well as being mindful of the distance and angle between each of its neighboring seeds.9 (fig.xii) The script behind all these process is quite unique as it allows these seeds to then become the strut for its lattice system.9 (fig xiii, xiv) By taking full advantage of such parametric thinking, and generating three layers of lattice that allows the lattice network not only to be freestanding on its own but also differentiate all the functional parts of the Art centre.
building. The project is not completed in reality. I think this demonstrates another major issue about nature inspired generation process. That is the tendency to overcomplicate. An architectural design is ultimately intended to become a real object. However, this really requires communication between multiple disciplinary. Unlike the previous ICD pavilion which has a fully elaborated strategy for its fabrication from the beginning of realising the basic geometry up until the final robotic installment. Ocean North provides no indication of how this project can be fabricated. What material it is actually going to use. And hasn’t really justify the necessity of such vast quantity of lattice used. In other words, the goal of creating the mega-structure within a small building envelope is sightly unnecessary under its set context of Music and Arts Centre.
xi.
The point we may learn from this project is how important it is to not study the site and brief separately. Which is the main course of an overelaborated structure in this case. If approaching to a similarly performance based algorithm thinking, it is then necessary at one point of the process to simplify the performatives according to the actual need from the actual context.
However, despite the natural oriented growth system of the
xii.
11
xiii.
xiv.
xv.
12
A.4. CONCLUSION
A
rchitecture is part of the natural instinct of human creating. The concern over what is the correct way of creating is essentially a pointless one. The matter is really about how much better can we create. Whether it is based on the formal debate, or the nature analogy, what is really matters is still the people we need to serve, the ecosystem we must maintain and the future path that we may suggest. And the coconsciousness of these events is the upmost critical.
a few key points. Design as a future generative process, has its responsibility to resolve the current conflict and keep up a recreational process. Computational design is also necessary not just for its form-finding capabilities, but also for its ability to synergise multi-disciplinary as well as communicate in-between techniques. However, it is also important to not be overdriven by the process itself which may result in unusable or irrational creations. Whilst nature adaptation is efficient and crucial for the species or To conclude the research and thinking ecosystem they serve, it is not so for at this point, there are definitely the benefit of human society.
Based on the above conclusions. Living architecture is going to be focused on the natural habitants of the Merri Creek ecosystem, predominantly human, fauna and flora (the three subsystems). It is not to seek for balance, but to amplify the unbalanced. Or in other words, to showcase what is the most efficient and performative responsive system for each one of the three subsystems. And from which the goal is to conduct a overlap of these responses into one. It should not be located as a pinpointed structure, but as a small series of subcultures that grows accordingly to the local needs.
A.5. LEARNING OUTCOMES
P
art A has been an invaluable learning experience to me. At the beginning of the semester I was really uncertainly of what is to expect from a computational design process other than a ‘digitally elaborated building skin panels’. (My previous assumption on parametricism) But by understanding the full capability of computational design. I think it really deserves much attention from me.
architects nowadays are being dishonest to themselves in terms of conceptual design. Ironically however, such dishonesty I have just found within myself during the last few weeks. I have always been very subjective in terms of design decisions rather than objectively criticise. Which is the upmost benefit from a computational design process. A simply unbiased justification.
As I have mentioned at the beginning of the introduction, I was a extremely concept driven designer. And it is always perplexed to me how many
During my last summer internship, a project I have encountered is to design a little pavilion for a zoo in Haikou, China. The pavilion design is all upon
13
my shoulders, for the first time as a professional architect. However, the concept was simply undefined and the pavilion I end up making is just a series of undulating sectioning that was created without Grasshopper. Which is exceptionally difficult for later drafting as construction drawings. However, I do have a strong hope for the future and the rest modules of Studio Air. The unexplored parts of design for me now is ever widened. And with most of my concepts now set, I would now approach to this project with much circumspection.
A.6. APPENDIX Algorithmic Sketches
The goal of this script is to achieve a spiral effect such as the MUMUTH of the UNStudio. But I think in the end it is still very much limited to the x,y and z planes that means I should explore more on the a diagonal relationship between the planes.
14
REFERENCE ArchDaily, BanQ / Office dA (03 Dec 2009) <http://www.archdaily.com/42581/banq-office-da/> [accessed 6 March 2015]. 1
Ben Van Berkel, ‘Mediation’, AVOCAAD, , (1999), 41-46, in CuminCAD <http://cumincad.scix.net.ezp.lib.unimelb.edu. au/data/works/att/9dff.content.pdf> [accessed 13 March 2015]. 2
3
Tony Fry, ‘Design Futuring: Sustainability, Ethics and New Practice’, Oxford: Berg, , (2008), 1–16.
HygroSkin-Meteorosensitive Pavilion / Achim Menges Architect + Oliver David Krieg + Steffen Reichert (2013) <http:// www.archdaily.com/424911/hygroskin-meteorosensitive-pavilion-achim-menges-architect-in-collaboration-witholiver-david-krieg-and-steffen-reichert/> [accessed 6 March 2015]. 4
Yehuda E. Kalay, ‘Architecture’s New Media: Principles, Theories, and Methods of Computer-Aided Design ‘, Cambridge, MA: MIT Press, , (2004), 5-25. 5
Karola Dierichs, Achim Menges, ‘Aggregate Architecture: Simulation Models for Synthetic Non-convex Granulates’, ACADIA, , (2013), 301-310, in CuminCAD <http://cumincad.scix.net.ezp.lib.unimelb.edu.au/data/works/att/ acadia13_301.content.pdf> [accessed 13 March 2015]. 6
Marcus Fairs, MUMUTH by UNStudio (2009) <http://www.dezeen.com/2009/02/19/mumuth-by-unstudio/> [accessed 13 March 2015]. 7
Mark Garcia, ‘Future Details of UNStudio Architectures: An Interview with Ben van Berke’, Architectural Design, 84.4, (2014), 52-61. 8
Michael Hensel, Achim Menges, ‘Differentiation and performance: multi-performance architectures and modulated environments’, Architectural Design, 76.2, (2006), 60-69. 9
Minifie van Schaik Architects, Centre for Ideas (2001) <http://www.mvsarchitects.com.au/doku. php?id=home:projects:victorian_college_of_the_arts> [accessed 6 March 2015]. 10
Moritz Dörstelmann, Marshall Prado, Stefana Parascho, Jan Knippers, Achim Menges, ‘Integrative computational design methodologies for modular architectural fiber composite morphologies’, ACADIA, , (2014), 219-228, in CuminCAD <http://cumincad.scix.net/data/works/att/acadia14_219.content.pdf> [accessed 18 March 2015]. 11
Sebastian Jordana, J. Mayer H. Architects’ Metropol Parasol opening this Sunday (2011) <http://www.archdaily. com/122621/j-mayer-h-architects-metropol-parasol-opening-this-sunday/> [accessed 6 March 2015]. 12
15