A R I S E
尹
W A N
建筑工程
Architecture Projects 2010-2020
ModularDesign |Combine Module | Deployed 2nd floor Wardroom/dinning
01
Hygiene area
02
Crew quaters 03 Crew quater 1 <031 Crew quater 2 <032 Crew quater 3 <033
Location Valles Mariner is Mariner Valleys, named after the Mariner 9 Mars orbiter of 1971– 72 which discovered it) . Valles Marineris is one of the largest canyons of the Solar System, surpassed in length only by the rift valleys of Earth.
1st floor
> 4,000 km (2,500 mi) long, 200 km (120 mi) wide and up to 7 km (23,000 ft) deep.
work area 04 laboratory 05
>offers a glimpse into Mars’ geologic and hydrologic past.” Vallis Marineris has recurring slope lineae that hint at liquid saltwater below the surface, says scientist and engineer Christopher Carr at MIT.
exercis 06
G floor Modular Design
Hatch | EVA Suits 07
>Detachable modules & Parts >Undeployed membranes
Laboratory 08 Technical Space 09
Project Marshaus [OxmanPrize Nomination / talk for Digitalfutures & Bauhaus-Universität Weimar] Location
Valles Marineris, Planet Mars
Year
2018
Type
Individual Master Thesis
Supervisor
Dr.HenrietteBier [TU.Delft/Hyperbody] SinaMostafavi [TU.Delft/Hyperbody] AngeloVermeulen [ TU Delft/Former NASA / ESA collaborator ]
Architecture Researchs
Throughout the few decades, technologies had been tremendously growing better,allowing future long term space exploration more accessible in a hostile environment. Mars Mission which was one of the convincing proposals over the last century for human space exploration due to the cogent evidence of elements to support life. Thus,a design solution is proposed to optimize a living habitat Marshaus by the aid of robotics constructions on Earth and Mars.The focus of this research will be developing the possibilities of 3d printing with robotic arm by injecting biomimicry literation which will be beneficial into 2 phases of architecture process in a modular form [Phase01-On Earth] developing lightweight architectural materials <manoeuvre membrane to [ Phase2-On Mars] ISRU in-situ resources utilization:Sand spray construction> extreme environment construction . Both phases will be synchronized and equally crucial as it will be advantageous with one another. In addition, the aim of modular system design is to be ready for future robotic mass production when the system is fully developed.
[1]
[2]
Human Ergonomics in OuterSpace [03] Ergonomic
[01] Flexible Ergonomic Membrane
Imagine human anthropometry can go beyond multiple desirable position through a programming system which detects body motion of each individual and later correspond to the flexible membrane.
Create flexible realm of space and gravity for long term spaceflight mission for astronauts’ daily activities [hours/Activities]: |||||||||||||||||||||||| 7h [Sleep] ||| 1h [Hygiene] ||||||||| 3h-1h [per meal/Food] |||||||||||||||||||||||||||||| 9h [Work]
Media : Handsketches
||||||||||| 3h [Leisure] Conclusion of an average activities hours correspond to an ideal astronaut proportion 5ft 11inches(180cm) according to NASA astronauts selection .
[02] Virtual Reality/ Mind-flow As today’s advancing neuroscientific understanding, it can create whole new virtual reality experiences in this flexible membrane space to provide healthy state of mind in long term spaceflight mission. The neurowear on the forehead can also control the nodes of the membrane to expand or contract according to the user activities Similar concept currently are being developed together with group of Scientist from UK.
more info:*Precise angels on the micro gravity body posture (Neutral Body Posture,NMP)
https://www.dbs-i.org/ http://www.diegomaranan.com/
*Documented in the Man system Integration Standard (1985) *Human integration Design Handbook (NASA[HIDH],2010p.50) *Data leading to that graphic is based only on measurements of 3 male American subjects (Skylab 4 crew) anf 12 photos (NASA [Bull.17],1975 p.13).
Media : Handsketches
Architecture Researchs
[3]
Mission / Activities The understanding on human ergonomics are significantly corresponded to human daily activities to allow better or best spatial quality and interaction within.The overall architecture should be carefullly plan accordingly because will affect much in both human’s physical and mental health. An average human being must have sufficient hours of 8-9 hours sleep to maintain average body health,meanwhile following by other activities . Thus , to enable pragmatic design and research proposal ,a study of human activities flow within varies of built environmant is crucial [refer to diagram 1]. The diverse human activities is divided in human general activities:Sleep, Hygiene, food, work and leisure. *More info:- Architecture for Astronaut .
[4]
Membrane Parameters: Pressure & Anchor
Crew Quaters 031 Section
Sectional Detail
Martian surface averages 600 pascals (0.087 psi; 6.0 mbar), about 0.6% of Earth’s mean sea level pressure of 101.3 kilopascals (14.69 psi; 1.013 bar).
Exterior Layer 01 ETFE strong fibreLiquid Volume/thickness:50-100cmControl NodesInterconnection Shaft-
Water Veins Layer 02
01
Hydrogenated Boronnitride nanotubes
01
Thermal 03
02
Hydrogenated Boronnitride nanotubes
02 03
03
Interior Layer 04 Flexible Furniturecarbon fibre membrane
Structure Analysis: Displacement Magnitude
04
Algae-
04
Structure Analysis: Displacement Magnitude
03
Air Gap :Pressure/Atmosphere [1]Understanding the atmospheric pressure within MARS and Earth. The atmosphere of the planet Mars is composed mostly of carbon dioxide. The atmospheric pressure on the Martian surface averages 600 pascals (0.087 psi; 6.0 mbar), about 0.6% of Earth’s mean sea level pressure of 101.3 kilopascals (14.69 psi; 1.013 bar).While in space shuttle,interior atmosphere around 70 kPa.[2] The Dyneema reinforced membrane is the only pressure boundary, taking the load of 70 kPa of interior pressure.[3]Wind speed along the great canyon should be consider , to prevent inflatable structure lifted off its moorings.
Gap / WaterVolume:Radiation Shielding Astronauts must be protected from two sources of radiation: [1]The first comes from the sun [2]The first comes from the sun > Solution:Water molecule an effective radiation shield ing due to it’s unique absorption spectrum absorbs high energy short wavelength radiation. In addition, it also provide a interesting sense of interior spaces from the allowance of diffusses natural light in the visible spectrum. For more information about liquid water absorption: https://atmos.washington.edu/~sgw/PAPERS/2006_icemcx.pdf
Architecture Researchs
[5]
Integrated Matrix:Manoeuvre Membrane Textur
Design Parameters Layers
From the analysis of design parameters variation enables forming of multiple layers to address different functions and circumstances for optimizing the overall architecture comfort level for future long term humans space mission. The layers are to be design smartly , compressing functions in a thin single layer such as Hydrogenated Boron nitride nanotubes[https://www.nasa.gov/directorates/spacetech/niac/2011_radiation_shielding/] instead of a mass and heavy mechanical machines. Therefore , biomimicry plays an important role in this layering design, for instance a great nature references is the vascular system [’Phloem & Xylem’] of plant from the roots to the leaf .Therefore each layer of membrane is design and generated according to relevant collective data.
Membrane structures are dominating now for space exploration due to its ease of construction and cost, unfortunately it can only withstand several decades more likely to be a temporary structure. Plantae species are always a fascination, especially their metabolic system compared to animalia species.They do not need a central core like animalia need a heart to create pressure to transport nutrients to the overall system but a more smart and economic system ,’Phloem & Xylem’ . Imagine that, it relates back to our technologies today, heavy engines and chaotic wiring were still embedded in every machine which contribute much of the weight , what if we can improve it by looking back to the plantae metabolic system injected into the structural membrane.
[6]
ModularDesign |Combine Module | Deployed 2nd floor Wardroom/dinning Hygiene area
01
02
Crew quaters 03 Crew quater 1 <031 Crew quater 2 <032 Crew quater 3 <033
1st floor work area 04 laboratory 05 exercis 06
G floor Hatch | EVA Suits 07 Laboratory 08 Technical Space 09
Building on Mars
G floor
1st Floor
2nd Floor
[1] Guided entry, (currently consisting of the rover and descent stage tucked into a protective aeroshell) 12-by-5-mile-diameter landing ellipse.Safe land of module unit operated by 3 unit of Bot_1-[air/spray construction. [2]Module units with wheels ,capable to move to the desired location for future habitation development. [3] Deploy of robotics arm/landing leg with wheel,to maximise adaptability along the selected terrain /site. [4] Once a suitable position is set,the module units will be anchored to the site surface by the primary and secondary landing legs. [5] Deploy of Bot_2-[wheels/excavation]-and the inflation of manoeuvre membrane module and to be set in place. [6] ISRU begins=spray construction using local regolith by bot_1 and bot_2 to fix the inflation module in place from the active wind along Valles Marineris.
Architecture Researchs
[7]
[8]
Experiments Hands-On
Experiments 3D printing
Robotic Production
Robotic Production Prototype
Experiments-Origami Tessellation StructureThe connecting nodes of the tessellation were secured by liquid superglue according to the desire form design in order to have a structural stand.
Experiments-Understanding of computation aid & Materials-translating natureâ&#x20AC;&#x2122;s algorithm into a better generative system and 3d print production.Understanding of 3D print flexible material:TPE
Test 1- Robotics arm printing [1] Arduino set up > [2] Extruder set up > [3] Silicon Print > [4] Control + Inspect > [5] Prototype trial.
Experiments-Understanding of computation aid & Materials through KUKA prc robotic arm production. The durability and versatility were studied in these prototype variations with different parameters control in the software then the G-Code .
Architecture Researchs
[9]
[10]
E|A|S Modular Unit Module [4]
Overall Concept A design solution is proposed in which the starship is attached to a C-type asteroid and whose architecture evolves over time.
Module [1]+ [2] The Crops Units A Future interstellar mission will require fresh crops for healthy individuals.The interiors wall of the modules were divided into segments of triangular tessellation to ease the crop’s plantation and control in the variation of crop types. The crops will be planted in a bag support system.
For more information please visit European Space Agency {ESA] website: https://www.esa.int/ESA_Multimedia/Images/2018/04/TU_Delft_E_A_S_Evolving_Asteroid_ Starships_project
Module [3] The Garden Units
https://indico.esa.int/event/309/attachments/3517/4661/Evolving_Asteroid_Starships_-_ Angelo_Vermeulen.pdf
Crops are harvested by the astronauts and inserted into the transit provided to the center of the production core in the starships and later will be distributed to the cluster of community modules.
https://seads.network/project/eas
Module [4] The Melissa Units The Micro-Ecological Life Support System Alternative (MELiSSA) is a European Space Agency initiative (ESA) with the aim to develop the technology for a future regenerative life support system for long term human space missions. Initiated in 1989, the design is inspired by a terrestrial ecosystem.
E|A|S
Evolving Asteroids Starship
Location
Asteroids, Outerspace
Year
2018
Type
Group Research Project
Team
AngeloVermeulen [ SEADS Leader / Co-founder] Arise Wan | Joris Putteneers [ TU Delft D-START / SEADS Member] Europen Space Agency | ESA
Architecture Researchs
The hostile and unpredictable environment of deep space requires a new conceptual approach for interstellar flight, one that differs radically from any current design in aerospace. The Delft University of Technology Starship Team (DSTART) simulates this concept using an array of different techniques. The ecosystem dynamics are approached using agent-based modeling, while the evolving architecture of the starship is approached with genetic algorithms. The starship simulation relies on four distinct timelines. A first timeline provides real-time updates on the state of the starship’s regenerative ecosystem, with a focus on population sizes, mass fluxes, and radiation impact. ESA’s MELiSSA project was used as a conceptual blueprint for the ecosystem. A second timeline deals with the growth of the starship architecture, taking into account material supplies, mining rates, 3D printing speeds and wear of existing structures. The third timeline forecasts the impact of future particle collisions and interstellar radiation as assessed within the sensing horizon. The fourth and final timeline is concerned with the evolution of the starship architecture as a response to this forecast.
[11]
M o d u[1] le [3]
Module [1] + [2]
[12]
E|A|S
Evolving Asteroids Starship Exterior
Module [4]
image by Joris Putteneers [SEADS member]
image by Arise Wan [SEADS member]
Other Exhibition :
*Exhibition@ Vita Kuben gallery UmeĂĽ.[SE] *Supernova Conference Antwerp [BEL] *IAC 2018 | International Astronautical Congress.[DE]
Module [1] + [2]
Breda photo 2018 Exhibition [NL]
image by Arise Wan [SEADS member]
Architecture Researchs
image by Angelo Vermeulen [ SEADS Leader/Co-founder ]
[13]
[14]
Key Plan
Berlin-Mitte Der Neubau des BMU beruhigt mit seinen klaren Gebaudekanten die Staddtraume Stresemannstrasse,Erna Berger-Straße und NiederkirchenStraße und stellt den Solitarbau des denkmalgeschutzten Arbeitgeberhausesfrei.
Federal Ministry for Environment, Nature Conservation and Nuclear Safety of Germany [BMU][1st Place] Location
Berlin, Germany
Year
2019
Type
International Competition
JSWD Team
Tina Schutter Sebastian Fuchs Arise Wan Karim Amer Federick Jasper [Chef] Christian Mammel [Associate] Guido Litjens [Leader]
Architecture Competitions
On the federally owned property in Berlin’s Mitte district, an extension building is planned for the BMU [Bundesministeriums für Umwelt, Naturschutz und nukleare Sicherheit in Berlin]. which is to serve as a sustainable lighthouse building for the federal government. JSWD proposes a low-tech house that forms a block edge with an amorphous folded building structure towards the green core. The generous, identity-creating open space offers a high quality of stay and is the basis for well-lit workplaces. The roof landscape designed over two floors is accessible to all employees. Trees and bodies of water support a good microclimate. The multi-storey facade structure made of rammed earth and recycled concrete “grounds” the BMU in the stone center of Berlin and at the same time conveys the demand for environmentally conscious building. https://www.competitionline.com/de/beitraege/184126
[15]
EG | M 1:200
[16]
Facaden Radiation Analysis June
Elevations +Sections + Details
Facaden Radiation Analysis Dec
Fassadendetail | M 1:50
Architecture Competitions
Fassadendetail | M 1:50
[17]
[18]
Key Plan
City-Ost, Dortmund, Germany Dauf dem Sockel des auf Bestandshöhe konsequent ergänzten Gebäudes des Schauspielhauses platzieren die Verfasser einen den Straßenraum (hilltropwallStraße) überkragenden quadratischen Kubus. Durch diese städtebauliche Setzung entsteht zunächst ein spannender Dialog zwischen den Solitärbaukörpern von Schauspielhaus und Junger Bühne. Unter der Auskragung spannt sich ein gläsernes Foyer auf, das durch Fortführung von Bauflucht und Bodenbelag einen vollkommen schwellenlosen Zutritt zum Neubau ermöglicht. Durch die Respektierung der Gebäudegeometrie des Schauspielhauses verdreht sich die Junge Bühne leicht zur Hövelstraße und öffnet geschickt den Blick auf das Gesundheitshaus. Diese Grundidee gibt dem Stadtraum eine neue Prägnanz, die sich sinnvoll aus dem Bestand entwickelt. Aus denkmalfachlicher Sicht geht der Entwurf überzeugend auf die komplexe stadträumliche Situation ein, indem er historische Sichtachsen und Blickbeziehungen respektiert. Die unteren Geschosse nehmen die Fluchtlinie der Aufweitung des Walls zwischen Bühnenhaus und ehemaligem Postscheckamt auf. Durch das Vorziehen der bergeschosse wird der Blick auf das Gesundheitshaus in besonderer Weise freigegeben. Obwohl das Gebäude eigenständige Architekturformen wählt, bildet es einen integralen Bestandteil des gesamten Theaterkomplexes und konkurriert nicht mit der Nachbarbebauung
EG | Groundfloor
Junge Bühne in Dortmund [JBD] [1st Place] Location
Dortmund, Germany
Year
2020
Type
EU Competition
JSWD Team
Tina Schutter Arise Wan Abraham Klagsbrun Jennifer Maldener Federick Jasper [Chef] Christian Mammel [Associate] Sidokth [Leader]
Architecture Competitions
New building for an integrated children’s and youth theater with children’s opera 1st prize competition 2020. The new construction of the “Junhen stage” is to be built directly at the Dortmund theater. JSWD’s design is convincing in that it respects historical lines of sight and gives the urban space a new focus. The concept develops sensibly from the existing one. Despite its independent architectural forms, it forms an integral part of the entire theater complex.The concept envisages a square, glass cube that will be placed on the plinth of the theater that has been extended to the existing height. Visitors are led from the main entrance via a sculptural flight of stairs past the cash desk and cloakroom to the studio and on to the main stage. The two stages and the rehearsal rooms are stacked on top of each other. https://www.competitionline.com/de/beitraege/193484 3.OG
[19]
4.OG
[20]
5.OG
UG
Elevations + Sections + Details
Section AA
Fassadendetail
Elevation Architecture Competitions
[21]
[22]
Key Drawings
Unter den Linden, Berlin, Germany Die Komische Oper Berlin wird erweitert und saniert. Über Jahrzehnte hinweg war die klare Gebäudeform des 60er Jahre Baus mit seinem innenliegenden Theatersaal aus dem 19. Jahrhundert an der wichtigsten Berliner Straße Unter den Linden unterrepräsentiert. Die Anbindung erfolgte über eine nicht sehr urbane Situation mit minder genutzter Platzfläche an der Glinkastraße, der Zugang selbst wird erst in der Behrenstraße überhaupt sichtbar. Zudem ist der Bestandsbau in großen Teilen technisch sowie funktional nicht mehr zeitgemäß und entspricht seit einer Sanierung in den 90er Jahren nicht mehr dem ursprünglichen architektonisch sehr starken und klaren Erscheinungsbild. Somit weiß die Komische Oper Berlin aktuell mit ihren künstlerischen Inhalten zu überzeugen, nicht aber mit ihrer Einbindung in diesen wichtigen Stadtraum und ihrem baulichen Zustand. Der vorliegende Entwurf ändert dies. Der Bestandsbau wird freigestellt und die Fassade in seinen klaren und kubischen Ursprungszustand aus DDR Zeiten zurückversetzt. Wo möglich, wird die Gestaltung der 60er Jahre wiederhergestellt und der innenliegende, neobarocke Theatersaal in seiner Ausprägung erhalten. Dem Bestandsbau vorgestellt wird der Erweiterungsbau in Form eines klaren Riegels mit deutlichen Zugängen zur Behrensstraße und zur Straße Unter den Linden. Der Bau schließt das Ensemble aus Hotel, Oper und Funktionsbau zu einem städtischen Block, und rahmt dabei die Oper, ohne an sie anzubauen. Zwischen Oper und Erweiterung liegt eine bauliche Fuge auf Höhe des Pausenfoyers, die neue Lindengalerie, die zwischen Geschichte und Zukunft vermittelt und diese zu einer einzigartigen Theaterlandschaft verbindet.
Komische Opera Berlin [ Honourable Mention] Location
Berlin, Germany
Year
2020
Type
International Competition
Team
Tina Schutter | Luisa Jung Zhang Yunke | Arise Wan Julian Wachsman | Sebastian Fuchs Abraham Klagsbrun | Jennifer Maldener Christian Mammel | Guido Litjens Federick Jasper | Tino Jasper GINA Barcelona
Architecture Competitions
2.OG | Rang & neue Lindengaleris
The existing building is cut open and the facade is set back in its clear and cubic state from GDR times. Where possible, the design of the 1960s will be restored and the interior, neo-baroque theater hall will be preserved in its form. The extension is presented to the existing building in the form of a clear bar with clear entrances to “Behrensstraße” and “Unter den Linden”. The new “Lindengalerie” is located between the opera and the extension at the level of the break foyer. This structural light gap enables a new public in front of and behind the stage and thus helps the important cultural component of Berlin to gain new strength. For decades, the clear shape of the 1960s building with its interior theater from the 19th century on the street “Unter den Linden” was underrepresented. Our proposed ensemble of old building and extension frames the listed building with a clear architectural gesture. The “Komische Oper Berlin” is finally getting an adequate address with a high architectural recognition value. https://www.competitionline.com/de/beitraege/199393
[23]
Schnitt AA
[24]
01
Ideas Central Core / Lift 01 Void for stack ventilationwhen it is not in operation 4 division of Lift platform forHumans Combine platform for UnitsTransportation
Location
Greenlungs Systems 02
Malaysia / Chicago City,USA were one of the cities needed to cater the growth of urban cities due to the
to allow social interaction gardenin the space where it â&#x20AC;&#x2DC;s used the most
raising opportunity for the peoples.
Eliminate the common dead and narrow central core. It has potentials for interaction space.
Metabolism
02
Through the understanding of Metabolism [biomimicry],an organic biological growth which include the process reaction of transporting and digestion substances for life sustaining purpose had siezed a potential use in our future building system. To further developement in this notion , the biological growth from varies species of plants [Plantae Vascular/Transpiration System]were translated to computation simulation process called L-system and turtle interpretation of string symbol [F,-,+].The simulation indicated varies types of growing algorithm define in a production of rules.Hence In this final simulation , the production of rules :F=F[+F] F[-F]F were chosen to run the final experimental simulation which will be used to injecting into the
Structural Growth 03 Biological growth of building structure [ Fractal System implementation / Branching] for extension of units
building design system.
Project NeuHaus [Affordable Housing by LAFARGE.MY [2nd Place] & AIA.USA [Participation] Location
Malaysia
Year
2013
/ /
USA 2016
Type
National Competition [2st Place] International Competition [Participation]
Team
AriseWan [Leader] Tan Boon Kuan Lysette Niragira Alian Chan Lee Bin Li
Architecture Competitions
Neuhaus aims to spark a change to the housing industry, creating a more livable and sustainable home for everyone around the world, but our team will aim to focus on a specific city / country to develop a prototype. Therefore we had selected Malaysia / Chicago City,USA . It is estimated in Malaysia that by 2030, there will be an additional 8.56 million urban dwellers, totalling up to 27.6 million, representing 77.6% of the entire population. 850,000 affordable housing units are needed to cater the growth of urban cities. Current housing flats fail to create a sustainable community. They are perceived to be cramped, poor and dead. Neuhaus is designed to provide constant regeneration, allowing occupants to expand their house based on their needs . Pockets of shared space spreads throughout the entire structure, allowing users to interact with one another. This will instill a sense of attachment towards the place making affordable housing a more desirable place to live in.
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In terms of security, informal surveillance is created by the presence of the people in the pulbic spaces and configuration of individual units that are facing toward.
03
[26]
MasterPlan
Location Pulau Pinang, Malaysia consist of tropical rainforest bodering on a tropical monsoon climate,though Penang does experience slightly drier conditions from December to February of the following year. The climate is vey much dictated by the surrounfing sea and the wind system.There are 3 main geological formations in Penang i.e the orthoclase to intermediate microcline granite and the Mahang Formation(mainl ferruginous slate).Penang island has no sedimentary rocks and most of the island is underlair by igneous rocks which are granites.
Boulders Valley Resort 5-star Camping / Glamping Location
Pulau Pinang, Malaysia
Year
2014-2016
Type
Commercial Project
Tetawowe Team
Teh Tat Sing [Chef] AriseWan [Project Architect] Doris Quek Christy Tan Howie Lam Amazing Discovery Sdn. Bhd[Developer] Architecture Works
In this project ,the assigned task were to design and plan the overall masterplan of a 24acres Jungle resort named â&#x20AC;&#x153;Boulders Valleyâ&#x20AC;?, with 25 significant units of Glamping [glamarous camping ].In this particular project,extra consideration of deforestation ,landscape and maintaining the environment were being priortize due to the alluring exisiting natural elements of the surroundings.The site consist of approximately 100 of large appealing boulders and varies of local tropical trees.Thus, most of the building design and structure were design with profound analysis and site measurements accordingly to the coordination of the existing boulders and trees.Hence the overall architecture end outcome will be naturally blended to the nature,maintaining the wonders of the nature meanwhile co-exist with a glimpse of architecture beauty. https://bouldervalleyglamping.com.my/the-tent
[27]
[28]
Key Drawings + Details
Boulder’s Valley site inspection
Glamping unit | Safari tent’s Construction
Glass House Communal Camping Structure Construction inspection.
Glamping unit | Safari tent’s Interior
Glamping unit | family tent’s Interior Architecture Works
Glamping unit | Safari tent’s Exterior
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[30]
MasterPlan Development data
Roof area 2961.47 sq meter
Total no.of mushroom 60 units
Future Location _Kuala Lumpur, Malaysia > 2016
Total length of walkway
Tokyo, Japan > 2020 Seoul, Korea > 2020 London, UK > 2022
0.5 Kilometers
Mushrooms are modular portable living space that are able to expand rapidly around the globe. Such modular living space has an easy setup and it utilises and maximizes unused space within the city such as rooftop] for accommodation space.
Total no.of trees
Mushrooms shall emerge around the city with an alm to provide a revolutionary accommodation space experience for travellers can locate for the nearest Mushroom and to conduct self check in and check-out easily via mobile applications.
280
Mushroom@TREC KL Location
Kuala Lumpur, Malaysia
Year
2014-2016
Type
Commercial Project
Tetawowe Team
Wong Wei Ping [Chef] AriseWan [Project Architect] Capsule Transit Sdn Bhd [Developer] Container Sdn Bhd [Developer]
In this project, the hotel project called “Mushroom” had been allocated to an architecture duty which the following project approach were to cultivate the new possibility in architecture ideology and construction technology practically. It was inspired by the concept of how mushroom species grow or expand rapidly on most surfaces. Mushroom hotel will be introducing a fresh scheme of human living where building structural with form of capsule units could be place onto most of the existing wasted space such as roof top in the meantime, it also endorsed a new construction method of building a shelter to the society. In the other way, it is sustainable in a way for future development targeting any unused space. The project’s future plan are to be located in several cities such as Kuala Lumpur [Malaysia], Tokyo [Japan], and Seoul [Korea].
Architecture Works
[31]
[32]
Key Drawings
Mushroom Construction inspection
Mushroom Prototype inspection Architecture Works
[33]
[34]
Key Plan
House 6331 Location
Seattle, USA
Year
2016-2020
Type
Renovation
5ft2 Studio Team
Architecture Works
Peik Li Pang [Owner/Project Architect] AriseWan [Architect]
In this project , the architecture aimed to optimize comfortability and also to preserve some of the local style of the suburbs of Seattle. The overall structure is mostly wood construction which was beneficial for a warm space due to the material properties and colours. The house rest on quite a challenging terrain slope that enable interesting structural details within the house. In addition the site surroundings were magnificent, therefore it can act as an advantage to the surface of the houseâ&#x20AC;&#x2122;s architecture openings, mainly wide open to frame the beautiful views. Built-in furniture will be designed such as bookshelves to match with the railing structure in the staircase. http://www.5ft2studio.com/get-in-touch/
[35]
[36]
Ēngines of
Ēternity
[ ĒoĒ ]
Data Sculpture Ideas / Art / Handsketches Detail [1]
Location
Digital Future
Hybrid Intelligence Suits / Art / Handsketches Spacesuits [1] Location
Europe / USA / ISS
Online Platform, Worldwide
Year
2019-2020
Year
2020
Type
Group Research
Type
Lecture / Workshop
Team
Team
Angelo Vermeulen [SEADS Leader / Co-founder] AriseWan [SEADS Artist /Architect]
Sina Mostafavi [Leader/tutor] Benjamin Kemper [Tutor] Adib Khaeez [ Tutor] AriseWan [ Guest Tutor/Artist]
Participantions/ Tutors / Students from TU Delft, ETH Zurich, DIA, Barlett school of Architecture, Cornell University, University of Tokyo, University of Beijing, Politecnico Milano, University of Tehran.
Karine Van Doninck [Associate Professor of University of Namur] [Scientist / Founder of LEGE Lab] Detail [1] The project is a collaboration between SEADS and scientists of the laboratory of Prof. Karine Van Doninck working with rotifera, microscopic aquatic animals with the unique capacity for endless self-repair and cloning. In a series of scientific experiments conducted by the University of Namur, rotifers are sent to the ISS to investigate their DNA repair mechanisms and cloning in the conditions of outer space. Because of the conceptual synergies with the theme of immortality, rotifera are used here as a metaphor for a larger discussion on the history and future of human culture
[HI-Cy] Hybrid Intelligence Cy-Matters explores the notion of multi-materiality in computational design and digital fabrication, with the goal to design and prototype hybrid informed material systems.”Cy” refers to the occupant of space as a Cy-org in a Cy-Locus. Org refers to multi-meterial solution as extended wearable organisms, while Locus refers to integrated multi-material components in symbiosis with the human embedded in space.
Detail [2]
https://seads.network/project/engines-of-eternity
Virtual Gallery:
Diving suits [2]
https://try.at.studio/hi-cy-final
Detail [2]
Detail [3]
Detail [3] Art Works
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Art Works
