Shin Tan - Architecture Portfolio

SHIN TAN

Skills

AutoCAD

Rhinoceros

Sketchup

Autodesk REVIT

Lumion

Enscape

VRAY

Photoshop

InDesign

Illustrator

Premiere Pro

Microsoft Suite

Education

Universiti Tunku Abdul Rahman (UTAR), Malaysia

BSc. Architecture (Hons.) with Merit

Experience

Architectural Designer

B+P Architects and Planners, Taipei, Taiwan

11.22 - 06.24

Assistant Architect, Social Media Manager

Tetawowe Atelier

09.21 - 08.22

Architecture Intern, Social Media Manager

Tetawowe Atelier

09.18 - 01.19

Certification

Board of Architects Malaysia (LAM) Part 1

Languages

English

Chinese

Malay

French

ANLE APARTMENT

Professional Work Office :

B+P Architects

Chiayi, Taiwan

Jeff Tsai, Jason

Ongoing, under construction

Apartment / Residential

4500m ²

1 year 7 months

Located in downtown Chiayi City, this micro apartment complex draws its initial design inspiration from the concept of a staircase in an old apartment connecting the neighborhood, as well as the entrance and front balcony of the residents. The design features a red vertical staircase that connects the public spaces on each floor. The entrance is reimagined as more than just an enclosed transitional space; it becomes a breathable balcony, a place to chat with neighbors, and a space that faces the household tasks within the home. This redefines the relationship between the entrance, the interior of the home, and the neighborhood.

The office has been working on this project since 2020 and underwent 2 major design revisions. I was involved in the 2nd design renewal phase. The scope of works include; design development, presentations, construction drawings, 3D modelling, rendering, material study, and discussing with external contractors (civil engineer, mechanical engineer, suppliers, and the clients). I learned how to better design for the sensitivity of the occupants in a low rise apartment building. Next, I learned how to multitask a lot of different tasks at once and how to manage a project. Furthermore, I learned how to make my ideas into tangible reality.

DW1

3.

SPROUT HOUSE

Residential Masterplan proposal for the Concept Home 2030 competition.

Professional Work

Office : Tetawowe Atelier

Site : Technology Park, Bukit Jalil, Malaysia

Contributors : Wei Ping, Tat Sing, Alex, Huey Mun, Claire, Angellyn, Sean, Andrew, Ken

Status : Design proposal

Type : Residential / Community

Size : 900,000m ²

Involvement Duration: 1 month

The Concept Home 2030 Competition invites architects to reimagine the potential Malaysian livingstyle in 2030 and share their vision of the quintessential Malaysian terrace home. Architects were invited to explore the opportunities provided by the emerging trends of housing technologies and the increasing need for environmental sustainabilit to conceive joyful homes for the future gneeration through this Sime Darby Property and Pertubuhan Akitek Malaysia collaboration.

Unfortunately we did not place first, but I really enjoyed the process of our visions coming together and working hard together. It felt proud and satisfying to compile the teams’ efforts into a final report. And of course, I learned about residential housing in the micro and macro scale in a tight time frame.

I. CONCEPT

The Sub Unit - The Sprout

The homes are embodied by their fixed core consisting of service areas and staircase, with the main rooms and spaces that extend off it being varied depending on whose house you are observing - similar to a tree with its trunk branching into flowers and leaves. As the building can be made to grow adjacent to its occupants it is, in a sense, just as “alive” as the people that inhabit it.

A Dynamic Ecosystem

Similarly, the surrounding neighbourhoods and communal spaces that exist along with the dwellings make up a larger habitat - a dynamic, interactive ecosystem that consists of all of the humans, plants, and animals.

Modularity

Uncertain and extended lockdown dates, ever-changing standard operating procedures, and setbacks in deadlines all create a need for more efficient construction - being able to build quickly within very narrow windows of opportunity. A focus on modular design and prefabricated components will allow for effective and fast assembly of repeatable building design elements, useful for more high-density dwellings like terrace houses.

The variety in dwelling unit typologies also creates varied streetscapes and elevations, creating spatial variety within a standardised grid. This also negates tedium and repetition of similar building typologies.

While not necessarily bleeding-edge building technology by 2030 standards, relatively modern materials like cross-laminated timber can be utilised in more interesting ways, to push the boundaries and limits of their conventional uses in construction. These will be used to create the key modules that will make up the primary design elements of our houses, with their strong core components and their ever-evolving rooms and spaces.

Hybrid Home Living

The COVID-19 pandemic changed the way people lived in 2020, and likely the years to come as well. With the public encouraged to stay home, the house became where most people spent the majority of their time.

However, the adversity of remaining indoors resulted in some unexpected outcomes as people adjusted to this; many workplaces would require employees to work from home (or conversely, would adapt to operate remotely), and several small, local home-based businesses were established - with some eventually flourishing. Families would also spend more time together, becoming more dependent on each other for companionship.

As with the people, housing developments of the future will similarly have to adapt and evolve to accommodate the new normal, as one’s home is now more than just a place to eat and sleep at the end of a day at work - it must be fully capable of functioning as a well-rounded space for both working and living, as well as any individual and familial activities. As such, dwellings in 2030 must have a stronger emphasis on quality of living.

The (dump) Site

With a boom in housing developments as the population steadily increases, the amount of readily-available land will decrease by 2030. Thus, we will turn to a former landfill that can be mined and reclaimed, before then being given a new breath of life as a prospective housing and community site. Landfills are usually owned by municipalities or by people who are no longer managing them, and thus can be very attractive for redevelopment.

Despite the negative public concerns that are often raised about landfill development projects, many of the major challenges to repurposing a landfill now have engineered, architectonic solutions. By redeveloping this site, we will have the opportunity to install better environmental controls than there were previously, and thus the development itself will become more protective of the environment than if the site was left alone.

With the aftermath of the pandemic in mind, this adaptive reuse approach becomes an increasingly viable design approach; being a much more efficient and sustainable approach to designing and building.

Vast numbers of land have been used as dump sites; the boundary of the dump site cuts off nature. Through the green arteries and highway ideas, the cut-off nature can once again slowly get closer to our cities.

II. STRATEGY

SPROUT HOUSE - CORE

A home for one, for a pair or for a family; A home for all.

MULTI AND INTERGENERATIONAL LIVING

The “core” concept of Sprout House: a base component that can be easily expanded upon

Sprout House creates sustainable design schemes through multi-generational and intergenerational living. Like the idea of a sprout, these flexible and adaptable units accommodate dynamic shifts or growth of familial and social structures to allow the transformation of the occupant’s household model. There are three main typologies: 1-bedroom, 2-bedroom, and 3-bedroom units to accommodate more diverse household scales in the future.

DIVERSITY AND INCLUSIVITY THROUGH FLEXIBLE TERRACE TYPOLOGY

While the common type of new terrace households with 3-4 bedrooms seems to be oversized for an average family household in Malaysia, Sprout House’s flexible and adaptable scheme allows for a more diverse household scale. Taking into consideration that a majority of demographics consists of singles and small families1, Sprout House allows the interchangeable number of bedrooms to fully utilize occupant’s demands. Other types of rooms such as leisure rooms, workshops, home studios or greenhouses then emerge to allow a hybrid living experience in the terrace typology.

III. 4 PILLARS

A. SUSTAINABLE SOLUTION

Sustainability in architecture aims to reduce negative environmental impact, significantly improving people’s health and ultimately affecting social and mental well-being. Sprout House in Sproughtown seeks the most efficient and deep-rooted solutions to help improve people’s lives in 2030. The sustainable solutions that are implemented range from a small to large scale, as Sprout House is a component of Arterial City. When people move into Sprout House, they will be part of the community as a whole. The sustainable measures in the area are car ownership, waste management in site context, renewable energy, construction method, choice of building materials, and symbiotic living.

Apps to connect to nearby transportation

BIPV Solar Panels intergrated street lamp

CAR OWNERSHIP

By 2030, society will no longer be abiding by the American Dream where everyone owns a car in their front yard. Vans, carpooling, driverless vehicles, planned trips within the community, and buses will be the new norm. Technology and fields of thinking would have advanced; owning a car will not be mainstream anymore. Instead, with the help of Internet of Things (IoT)2, transportation will be a lot more convenient and efficient. IoT is the network of physical objects that are connected with sensors, software, etc. with the motive of connecting and exchanging information through the internet.

Car ownership will be controlled with a maximum of 1 electric car per lot in Sprout House. Users will be encouraged to use an app that allows the community to sync their schedules and conveniently share vehicles. The community will create their order in various capacities. They will be encouraged to share vehicles, take the community van, or commute by bus. This way, it reduces traffic jams and air pollution. The future in Sproughtown is convenient and interaction amongst neighbours is common.

RENEWABLE ENERGY

Solar panels will be placed on the roofs of our modular units. Since Malaysia is on the Equator, Sprout House will take advantage of the abundance of sunlight. There will be rainwater harvesting systems as well.

CONSTRUCTION METHOD

The method of construction is sustainable as the Sprout House is a prefab modular unit. By 2030, most buildings should use this method as opposed to the traditional building method. It requires less time to construct, less material wastage, and less pollution due to construction and transportation.

2 Morgan, J. (2017, April 20). A Simple Explanation Of “The Internet Of Things.” Forbes. https://www.forbes.com/sites/jacobmorgan/2014/05/13/simple-explanation-internet-things-that-anyone-can-understand/?sh=7e55852a1d09

B. MODULAR, CUSTOMIZABLE, AND EXPANDABLE

Sprout House seeks to provide dynamism, versatility and playfulness in arranging and customizing these modules, redefining the meanings and rituals of home living in 2030.

Preset building modules are constructed using the cross-laminated process

With the sizes predetermined, less time and fewer materials are wasted

Fast-growing tropical trees are planted, grown, and harvested for timber

Reserve land can be used to plant and grow more trees, continuing the cycle

The modules are transported to site and installed for as new or expansions

ADAPTABLE TO DIFFERENT STAGES OF LIFE AND LIVING PREFERENCES

Sprout House typology is composed of modular units that allow for personalization and future extensions. The typical housing unit starts with the primary service core module, including the washroom and bathroom. Secondary modules include living room, kitchen, bedroom, and master bedroom inserted based on personal living necessity and preference. The number of modules increases as the structure of the family increases, where tertiary modules such as balcony, rooftop glasshouse and extended outdoor platforms are provided for further extension or plug-ins at the rooftop.

MODULARITY OF ROOF

A flat roof provides the opportunity for these modular plug-ins at the rooftop, increasing the possibility of multiple rooftop typologies. In 2030, the idea of neighbourhood living will be envisioned not just at street level, but also at the rooftop level.

MODULAR PRECAST CONCRETE CORE

The service core with facilities of the Sprout House is made of precast concrete. It will be cast off-site and brought in to increase sustainability and construction time.

C. MODERN METHODS OF CONSTRUCTION

CROSS LAMINATED TECHNOLOGY (CLT)

The Sprout House will adopt Cross Laminated Technology (CLT), where it will redefine construction innovation in Malaysia in 2030. Modular constructions such as Industrialised Building System (IBS) and Modular Construction System (MSC) have been promoted in the construction industry in Malaysia6 and CLT will be a breakthrough to the existing construction industry. CLT functions as monolithic building components, which function as load-bearing walls, floor, roofs and wall panels. The traditional way of building construction such as formwork, scaffolding or precast concrete will be replaced with CLT, which is more durable, faster and cost-effective.

VALIDATION OF CLT IN MALAYSIA

CLT was categorized into Mass Timber Building, and it was invented in Europe 20 years ago. There are a substantial number of CLT projects in Europe, Japan and Australia. However, CLT is not widely adopted in the Malaysian construction industry due to a few misconceptions about the usage of timber construction7. A group of researchers consisting of Sapulut Forest Development Sdn Bhd, Timber Association Sabah, Forest Research Institute Malaysia and others have provided an insight in expecting CLT to be the future construction innovation in Malaysia. Therefore, Sprout House aims to project this

CONSTRUCTION BENEFITS

1. Durability & Strength

CLTs are lightweight and are glued at 90-degree angles to provide maximum strength and durability. With the absence of column and beam, CLT acts as monolith load bearing walls and floors that can support heavy loads.

5 CLT House by FMD Architects. (2019). [Photograph]. Arkitekter. http://sh-arkitekter.no/portfolio/villa/midtoddveien-villa/

2. Productivity and cost-efficiency

CLT will come in prefabricated modular components to be transported and assembled on-site. With the 20’ x 70’ narrow site constraint, off-site fabrication of the modules will reduce carbon emissions and construction waste, while reducing construction disturbance to the neighbourhood. While compared to the traditional construction of concrete, steel and masonry, it is more productive and cost-efficient as it eliminates the need for erection of structural system formwork and scaffoldings11. With just four load-bearing walls, the services and furnishing of the house are ready to be installed.

3 Reduce environmental impact

The use of CLT reduces the generation of CO2 emission as timber itself can absorb CO2 while the production of CLT is renewable and requires less energy compared to concrete and steel.

4. Improve building performances and living comfort

CLT functions as a structural component that is versatile to be paired with finishes and materials13 to improve waterproofing, thermal performance, seismic fireproofing and acoustic comfort. The layering of coating, finishing and retardant, helps to prolong the serviceability of Sprout House as a CLT home while improving its living comfort.

COMPLIANCE AND CONTROL OF THE SITE AND BUILDING CODES

Building code and regulations compliance can be a meticulous process, and the CLT construction system helps to ensure better control of each building's modules to meet the housing model standards in 2030. While the CLT structural system is recognized by the 2015 International Building Codes for many cities12, the Sprout House housing scheme anticipates CLT to be recognized in Malaysia construction industries. By using prefabricated materials and pre-calculating the energy efficiency and building performance off-site, it ensures control of quality compliance of building codes or regulations of Sprout House

6 Salmiah, A., & Mohd Rafazi, A. (2015). Modular Construction System in Malaysia: Issues for Research in Sustaining an Affordable Home Project. Proceedings of Postgraduate Conference on Global Green Issues (Go Green), UiTM (Perak), Malaysia, 1–11.

7 Cross laminated timber the future for Sabah | Daily Express Online - Sabah’s Leading News Portal. (2019). 2021. https://www.dailyexpress.com.my/news/130448/cross-laminated-timber-the-future-for-sabah/

10 Lestari, R. Y. (2017). CLT (Cross Laminated Timber): Produksi, Karakteristik dan Perkembangannya (CLT (Cross Laminated Timber): Production, Characteristics and Development). Jurnal Riset Industri Hasil Hutan, 9(1), 41–55. https://doi.org/10.24111/jrihh.v9i1.3126

11 Lim, C. (2014, October 15). New timber technology a game-changer for Singapore. Eco-Business. https://www.eco-business.com/news/new-timber-technology-game-changer-singapore/ 12 Flint, R. (2021, September 21). 5 Reasons Wood Would be Good for Your Next Project. WGI. https://wginc.com/5-reasons-wood-would-be-good-for-your-next-project/

(2021). Rothoblaas. https://www.rothoblaas.com/mass-timber

D. TECH-INFUSED/ A HOME BRAIN

The implementation of innovation and technology can help optimize the efficiency of living in a terrace home and a neighbourhood as a whole. Along with other technological components like CCTV and smart home technologies, the IoT (as mentioned in 3.1 Sustainable Solution, Car Ownership) will be used as base technology in 2030. The COVID-19 pandemic has taught us that our first line of defence should be disaster and crisis prevention on a physical scale. Moreover, apps can help to improve the interaction between communities. There are endless possibilities that are applied with IoT in Sprout House - Sproughtown

1. Vertical hydroponics, capsule/ cartridges

There will be vertical hydroponic systems in Sprout House, where the level of water is regulated with sensors that detect the adequate amount of water and sunlight is provided.

2. Smart Home Systems

One app controls all smart home systems in the house15. For example, CCTV, smart door locks, and alarms for security. Also, there will be stereo, electrical appliances, lighting, air conditioning, and curtain track sensors to make sure that they are turned off when not in use, or turned on during certain times of the day.

Vertical hydroponic system with water and sunlight sensors

CCTV, smart door locks, alarm, curtain and track sensors

Internet of Things (iOT) that connects smart home devices to phone applications for monitoring and surveillance

LARGE SCALE

1.

Flood Monitoring

Since the site is close to the sea, it may be subject to floods. Thus, it is important to have flood prevention systems. Sensors will be installed around the perimeter offset16 of the whole site, thus, when the water level exceeds the safe amount, it will trigger an alarm to warn the residents of Sproughtown

2. Mutant Gas Leakage from the Ground

An issue when prepping landfill sites for building are gases that emanate from the site. Vapours from the decomposing material work their way into surrounding soil and then up and out of the ground19

Contractors can install a permeable layer of gravel, which provides a pathway of escape for gas, and then a membrane underneath the slab of a building. The gas can then be piped out from underneath the building, up the sides, and then released at rooftop level. Conversely, the methane gas can be trapped and collected to reuse for power generation, if the landfill generates enough.

IV. CONCLUSION

3. Disaster

Management & Information

An evolution of the apps and online portals that were developed and launched to monitor and negate the spread of the COVID-19 pandemic, these alert and notification systems can be integrated with new smart home technologies and IoT systems20 . With these gadgets and sensors being an integral part of living in 2030, threats can be detected and tracked much earlier. The public can be informed quickly and more effectively of any threats to health and safety and can then act accordingly in response.

The COVID-19 pandemic affected the way we lived since 2020, it became a turning point in how we design and interact with houses. As people will inevitably spend more time at home, they will similarly also pay to live in; and thus, will eventually require the users to be more closely engaged with the building process of their home. This new emphasis on user experience and mindset will truly allow both the user and home to evolve simultaneously.

Our proposal aims to allow users a more customised and personalised experience in the process of homeownership, to do away with the notion of traditional “one size fits all” houses. It includes the core components of a sub unit - the Sprout, a dynamic ecosystem, hybrid home living, the (dump) site, and modularity. We believe that a shift from the typical turnkey houses to a more flexible direction for users is inevitable. Thus, we aim to provide people with a core component, the Sprout House, with the freedom to choose from a varied palette of rooms and spaces that can accommodate both current and future planning. In addition, those who live in Sprout House will integrate with a lively communal neighbourhood that was unified through a wildlife crossing and neighbourhood facilities.

The future is so close, yet so far. The only constant variable in life is change, and in 2030, the Sprout House will strive to adapt to a diverse and unique character of each unit, yet connect to form a larger habitat - a unified ecosystem that is dynamic to serve the community and land we live in. Sprout House, Sproughtown, will serve the needs of people in the future, where our values can be enhanced through simple living and wholesome interactions.

16 Flood Monitoring System With IoT Sensors. (2021). [Photograph]. Https://Www.Renkeer.Com/Flood-Monitoring-System-with-Iot-Sensors/.

17 Flood Warning Systems. (n.d.). Environmental Measurement Systems. https://www.fondriest.com/environmental-measurements/environmental-monitoring-applications/flood-warning-systems/

18. IoT-Based Gas Leakage Monitoring. (2019). [Diagram]. Https://Create.Arduino.Cc/Projecthub/Matroll/Iot-Based-Gas-Leakage-Monitoring-57729a.

19 Okonkwo, Peter & Obi, Amarachukwu & Solomon, Idoko. (2021). Design and Construction of Cooking Gas (LPG) Leakage Detector.

20 Kamal, Safiza & Shibghatullah, A. & Othman, Zahriah. (2009). Disaster Management in Malaysia: An Application Framework of Integrated Routing Application for

ence of. 716-719. 10.1109/SoCPaR.2009.144.

HOUSE OF DENTIST

A dental clinic located in the mountainous side of Chiayi City, Taiwan

Professional Work

Office :

Site :

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Type:

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Involvement Duration:

B+P Architects

Chiayi, Taiwan

Jeff Tsai, Hsuan Min

Ongoing, PD Stage

Clinic / Housing

Size : 20,000m ² 1 year 7 months

This new dental clinic is designed as part of an urban renewal project, developed under the Dangerous and Old Building Reconstruction Plan.

Situated on a narrow and elongated site, the plot faces roads on both sides, providing opportunities for openings on both sides of the clinic. However, since the site faces south and west, the main openings are oriented towards the north and south, reducing the size of the west-facing openings to mitigate heat and glare from the afternoon sun.

I was in charge of designing and drawing the submission and as-built construction drawings of the second design phase. I had to mediate between the architect (my boss), HVAC, mechanical, and electrical engineers. Next, I prepared presentations, renders, and wrote material specifications to propose the interior design layout to the client.

FARMERCY

Farm + Pharmacy, a modern, green hub in the hills of a technology park in Bukit Jalil, Malaysia.

Professional Work

Office : Tetawowe Atelier

Site : Technology Park, Bukit Jalil, Malaysia

Contributors : Wong Wei Ping, Huey Mun

Type : Public / Community

Status : in progress

Size : 20,000m ²

Involvement Duration : 1 year

The client collaborated with Tetawowe and a few other farm-tech related businesses to rejuvenate an existing abandoned site in Technology Park Malaysia, Bukit Jalil. The site is part of the government-organized science park responsible for research and development of knowledgebased industries.

The projects in progress are part of a bigger masterplan, also proposed by Tetawowe Atelier. I was involved in the conceptual design and parts of the construction of Phase 1 and Phase 2 of the project. Phase 1 was an aquaponic farm and research centre. Phase 2 is a series of 3 platforms that was used to raise chickens. The scheme was to create a commerical and communal space for people to learn about vertical farming and a sustainable lifestyle.

This project was fun and imaginative. It felt refreshing to design for a client who did not fund a project solely based on profit, but passion towards sustainability and a greener future.

HONDA MOTOR

Several Honda Impian X motorcycle showroom designs across Malaysia.

Professional Work

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Involvement Duration:

Tetawowe Atelier

KL, Johor, Penang, & Kedah, Malaysia

Claire, Angellyn, Alex

Completed

Interior Design Varies 1 year

Tetawowe Atelier won the Honda IMPIAN X Motor Design Competition, hence they are responsible for the interior design of all 150 outlets and more across Malaysia.

I was involved in 8 outlets, assisting my colleagues at different stages of design and construction.

The jobscope for each Honda outlet includes; measuring and producing plans of the site, negotiating with dealers, producing 2D and 3D design proposals, visiting the site to observe construction progress, and post-checking equipment and completed designs to make sure it adheres to Honda’s standards.

1. Site inspection and measurement

We visit the site and make measurements manually. We will ask the dealer to provide us with the CAD drawing if available, before going to the site. While measuring, we inspect the site to see if it meets the size required from Honda. We also note anything that might affect our design, for example the position of existing columns and beams, ceiling conditions, etc.

2. 2D Drawings and 3D renders

The timeline for the project is as followed: 1 week to draft the design and discuss with the client to confirm the design. 2 weeks to produce all 2D Drawings and 3D Perspectives. There is constant communication between my colleagues, the dealers, Honda representatives, and I.

3. Construction begins

Once the 2D drawings and 3D perspectives have been confirmed by both the client and Honda representative, we will then proceed with construction. The dealers will text us about any issues they face regarding the design and we will have to amend the drawings and 3D model if necessary. We will visit the site, if needed, to oversee the construction process. This process usually takes 1-3 months.

4. Inspection

After the store has been completed, we will visit the site once again with a HONDA checklist to make sure that everything is right and in order according to Honda’s guidelines. We will then point out to the dealers if anything needs to be changed or improved as a representative from Honda will visit the site at a random time in the near future.

THE ORIGIN

The 42nd YODEX Design Exhibition, located in the largest exhibition space in Taipei, Taiwan.

Professional Work

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B+P Architects

Nangang exhibition centre, Taipei

Jeff Tsai

Completed Installation

30,000m ² 6 months

Yodex has been held since 1981, it is the largest student design exhibition in Taiwan. I was in charge of everything in this project from management, exhibition curation, graphic design, budgeting, installation design, to overseeing the construction process from start to finish. We had 6 months to plan for the event that was held on May 19, 2023. The construction duration was 2 days.

With “Origin” as the theme, this year emphasized potential development by returning to the basic mindset of exploring contemporary trends that connect the industry and academia. Apart from displaying graduation exhibits from various schools, areas for special exhibitions, curation, and short stops are built for new designers in the industry and academia. “The Origin” reflects on how everything starts from a simple point, then becomes a line, then transforms into a shape. Just like how the students in the exhibition showcase their graduate designs, it is to remind them how far they have come. Hence, the curved lines were inspired by a dot with ripple effects, revolving around the origin.

This exhibition was fun and challenging. I got to experiment with different construction methods and be free with my design. I learned a lot of contruction and budgeting related aspects of design in a very short time frame.

1F

新一代。原點

The Origin

• YODEX Industry-Academia Collaboration Student Design Works Divided in 4 Zones

1F

新一代。新一代

The Timeline

• 2020-2023 YODEX Exhibition Themes

• 2023 Young Golden Pin Award Nominations

• 2020-2022 Golden Pin Awards, Categorised

The Curator

• 2022, 2023 YODEX Design Theme and Process

• Special Exhibition Area

The Dotted Salon

• 36 Industry Leaders’Advice (Voice Recording)

• Graduating Students’Interviews

• Forum / Workshop Space

• Taiwanese Design Industry Data and Analysis

thank you