5 minute read
Hospital
by Timo Tsui
Campus
Subtropical climate
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A general hospital flanked by five specialist hospitals. The campus encompasses a central garden bisected by a storm water channel. Nature is included to create a comfortable healthcare experience for patients and staff.
Conglomerate
The main hospital houses both in and out patient facilities while the 5 specialty hospitals around it houses 5 different specialised healthcare modalities owned by different owners. Concept derived from Chinese characters, the elements join together to form a campus. Creating efficiency and harmony for patients and staff alike.
Advance Design
The campus features biomimicry design using computational techniques. Providing a natural experience for the user while enhancing utility with generating and analyzing geometric data
Podium And Ribbons
The podium’s edges accentuate the dynamic form and extend the curvilinear language found in the plan to the user’s experience, unifying the campus between the General Hospital and surrounding Specialty Hospitals.
Computation To Production
All geometries are computationally generated in Grasshopper using a periodic function; the periodic character of the function permits the division of repeating modules that can be stacked in offset orders to produce a dynamic form that does not appear repetitive. This decreases construction difficulties and cost without sacrificing aesthetics. The only identifiable components are the corner pieces, which are automatically isolated for tabulation.
Fabrication Production
The ribbons are comprised of GFRC modular components that produce a dynamic geometry with repeating modules, minimising one off elements to maintain production costs.
横琴医院
ARCH-E-GENERAL HOSPITAL - LEVEL 1
Computationally Generated
A custom script in Grasshopper is written to computationally generate the whole canopy, including support columns, connecting bolts, and glass penalization, with only two curves passed as input as its guiding curves.
Shadow
Utilizing the subtropical environment with a high sun angle, the canopy creates an interactive experience with the user by casting a parallax shadow pattern as the user travels along it.
Data To Production
The computation of the over 1,500 modules incorporates solar analysis to create a cloud-like effect that reduces the building’s mass and provides shading. This provides the user with optimal sunshine and temperature conditions.
A stepper algorithm rationalizes the variable dimensions to limit the number of distinct production to 12, which we found to be required to generate a dynamic aesthetic.
Health Care Project USA
Payette Associates USA
Design/Model/Facade/Structure
Lead Megan van der Linde, Senior Associate, Payette Associates
Shuan Morris, Associate, Payette Associates
Computational Brick Facade
Computationally generated in GH, more than 100,000 bricks are individually mapped using the two available brick colours to create a gradient blend. Drawings generated to instruct masons.
Grounded Terraform
The organic-shaped lobby entrance roots the structure, lending it an earthly feel Penalized to optimize CNC milling process from cubic stock
Penn State University Maker Building USA
Design/Model/Set Drawing
Skylight
The top floor acts as a large open floor-plan that houses a communal light weight maker space.
Tetrahedral skylights pops up from the sloped roof towards the north to collect sunlight while minimizing heat gain
Ceiling Light
Dropped Ceiling provides space for MEP and Lighting. Patterned lighting accentuates the overall openness of the space and the geometry of the origami ceiling.
Plumbing Design Tool: Project Data Dashboards and Massing Tools
By conducting 10+ real estate development feasibility analyses and pre-offer due diligence, including development rights, zoning by-law policy research, and massing study, I was able to construct algorithms and scripts using Python, C#, and GH to automate and streamline the initial design process.
This includes continuing the creation of the Data Dashboard using Power BI and Excel form data collected from Rhino3D geometry generated with C#, as well as the construction of a second real-time dashboard that gives design-oriented feedback in Rhino GH.
Mass stacking tools produce and input massing bays with minimal input, hence improving workflow productivity.
In addition, I worked on and refined internal C# scripts that generate building components from massing modules, such as balcony structures.
Overall by streamlining production processes and implementation of computational tools productivity for project acquisition work quadrupled.
Plumbing swiftly iterate It generates when designing loop to the to hours.
https://www.linkedin.com/posts/ic-intelligent-city_digitaltechnologyhousingsolutions-design-activity-6895076859080515584-WZAq
Plumbing Design Visualization Tool
Plumbing layout tool in Rhino Grasshopper is used to iterate through and visualise plumbing layout design. generates real-time visualisation and collision detection designing layouts, giving an immediate feedback the designer that reduces project times from days hours.
Online VR experience
Created an interactive virtual reality (VR) experience that allows the user to travel and interact with the building using stereoscopic images that provide 3D immersion in the Meta Quest 2 along with a web-based version. The experience was utilised as a primary marketing tool.
https://www.linkedin.com/posts/ic-intelligent-city_digitaltechnologyhousingsolutions-design-activity-6895076859080515584-WZAq
Exhibition Berlin
UNStudio Amsterdam
Design/ Research/ Administration/ Construction
TEAM Ren Yee Head of Innovation Strategy and Forecasting, UNStudio
Yoonjin Kim GSD
Marisa Cortright Business Development Officer, UNStudio
For UNStudio’s award for Architect of the year from A&W Magazine Research on the future of office and living design. When automation take over jobs, the future turn our focus back onto human faculties
Reflection
Reflective motifs and all mural lets the user look back at themselves and other people around them, to reflect upon the human faculties
Broken Bridges Hong Kong
First Prize, Awarded To be built
University of Hong Kong Hong Kong
Design/Model/Set Drawing
Team Gao Yan, Assistant Professor, HKU Vagina Goh
Huang Wen-ying
Museum
LAAB Architects|Art
Hong Kong
Digital Craft/ Design/ Construction/ Fabrication
Clients include Hermes, Hong Kong Arts centre, Fringe Club
M+ Museum
Digital To Craft Production
Computational design is used in the creation and building of art works, storefronts, and interior design. Digital fabrication techniques like CNC milling, laser cutting, and 3D printing are used on a daily basis. By combining digital and manual construction processes with in-house construction trades we are able to create bespoke work for high profile clients. Projects are created with Rhino3D and Grasshopper
Enter the Boid Academic
Team Jiho Song
Kally Wu
A virtual reality experience built in Unity that puts you in the role of a flocking member of the well-known Boids programme and features surrealistic aesthetics.
Object, 2013
Computational Design, Digital prototyping, digital design to production of the Butterfly Bracelet and Coral Light Pendent for LAAB Architect’s studio showcase.
Rhino Voice Control Program
Program in
To conduct modelling operations in Rhino 3D, the user must be actively engaged with a mouse and able to type commands into the command line box. This forces the user to awkwardly choose between typing efficiently by releasing the mouse or typing with one hand. This also contributes to bad ergonomics.
Therefore, if it were possible to eliminate typing and instead input via speech, the user would be able to model using only one hand.
Specific Rhino instructions, such as “DupSrf”, will not be recognised by existing speechto-text systems meant for conventional, everyday language. Therefore, a bespoke tool is required.
With C# in Visual Studios, the tool uses Microsoft’s native text to System.Speech. Recognition namescape, but common terminology and substitutes it with Rhino Commands. The application also performs Rhino-optimized macros, such as entering “return,” “space,” and numbers at required places.
The user interface is a Windows form; users can turn the application on and off and check the history of recognised instructions. When activated, Always On Top can be enabled for the programme.
