SELECTED WORKS 2018 - 2025
01 Terminal V
[Ver tiport & Ferry Building]
San Francisco, CA, United States
02 Under The Par asol
[A Primary School in Senegal]
Top 50; Kaira Looro 2023 - Architecture Competition
03 Discovery District
[Multi-family Residential Building Design]
Mountain View, CA, United States
04 Living Spine
[Bionical Megastructure]
Chongqing, China
05 A Maker's Part y
[Textile City Revit alization]
Best Design Award, The 7th “Western Light” Urban Design Competition
[Vertiport & Ferry Building]
Best Design Award in West Light Urban Design Competition
CATAGORY
INSTRUCTOR
LOCATION
TYPE ROLE
Transportation Hub
Simon Schleicher
San Francisco, CA, United States
Group Work Design(60%), Digital Modeling(50%), Drawings(70%)
The vertiport and ferry hall in Mission Bay, San Francisco, envisions dynamic urban space that merges transportation with social interaction. Designed as both an urban plaza and a regional transportation hub, the project fosters community engagement while addressing future mobility needs. By integrating seamless connections between air, sea, and land travel, the design promotes sustainable transport solutions.If serves as a vibrant social hub, blending funcfionality with a sense of place and enhancing Mission Bay's urban fabric.
This project emphasizes the use of mass timber, blending sustainability with modern architecture. The project is built around three core principles: enhancing nature,creating a transportation hub, and activating a social hub. By utlizing natural materials like timber, the design harmonizes with the envronment, promoting a sense of ecological awareness. As a transportation hub, it integrates air and sea travel, providing seamless connecions for urban mobility. The space alo serves as avibrant social hub, with open public areas designed to foster community interaction and leisure. The combination of nature, fransporation, and social engagement fransforms the veriport into a multifunctional urban landmark, redefining the future of travel and public space in Mision Bay.
In 1938, San Francisco’s Mission Bay was a bustling industrial hub, playing a key role in transportation. The Southern Pain the area, with rail yards facilitating the movement of goods to and from local factories and warehouses. The proximity to the waterfront further enhanced Mission Bay’s importance, as it connected with shipping routes via the Port of San Francisco, allowing for easy cargo transfer between rail and ships. While today the area is known for redevelopment and innovation, Mission Bay’s industrial past was integral to San Francisco’s transportation and economic landscape in the early 20th century.
MASSING 1 - I-SHAPED VOLUME
One single volume with east side facing flying deck and north sidefacing ferry deck. The direction of the building directly points to the Chase Center to welcome all kinds of people to enjoy their time here.
PROS: Less shading needed because of short edges in the South
CONS: Boarding area for ferries are small The volume does not respond to the green axis in the context; Contradiction between
MASSING 2 - V-SHAPED VOLUME
V-shaped volume to serve eVTOL and ferry equally. Extending theship deck enables the building to accomodate more ferries at thesame time for boarding and deboarding.
PROS: Both modes of transportation are equally served; A clear destination of the green axis in the urban context
CONS: Unresolved contradictrion between ship's routes and flight paths; Over-provided space for ferry's boarding and deboarding
MASSING 3 - L-SHAPED VOLUME
L-shaped building strengthens the welcoming gesture. Switching theferry deck and eVTOL deck to accomodate the requirements of ship'sroutes and flight paths.
PROS: Clear hierachy for the two modes of transportation served; Higher efficiency in accomodating ship's routes and flight paths
CONS: More shading required due to long edges facing the South
The "L" shape building is constituted of two volumes - vertiport and ferry building. These two main programs are connected by the central plaza, which is also the destination of green belt. The driveway goes around the inner coner of the "L" shape building to pick up and drop off passengers.
The linear core system work as stair core, elevator core, mechanical room, DOAS room and restroom. The spaces at two sides of the linear core are retail, amenities, lounge, cafe, ticketing office.
The linear cores and the tree columns at two sides of them are the main structural system. The vertiport building are two-level height but with a mazzanine floor for co-working space.
The physical model demonstrates how four branching tree-like columns support the primary beams. A steel plate at the base reinforces the four column segments, ensuring stability. Steel nodes at the ends of the branches create strong connections between the columns and the beams.
Seamless Boarding Process
Since eVTOLs are designed to take off and land vertically, much like helicopters, this allows for a smoother and more seamless boarding and disembarking experience for passengers, thanks to the quieter and cleaner operation of the aircraft.
The composition of the roof structure consists of two primary parts. The first is the linear core, made up of segmented core volumes connected by a truss system. This truss system not only reinforces the linear core but also serves as a structural support for the skylight, allowing natural light to filter into the space below. Flanking both sides of the core are integrated gutters designed to collect rainwater efficiently, contributing to the building’s sustainable water management strategy.
For sustainability considerations, fin system varies in density different facades. The south-facing façade features a denser arrangement of fins to reduce solar heat the north-facing façade uses glazing to maximize Additionally, a series of louvers and skylights at portion of the façade allow escape, promoting natural The louver system is also near the ground connection, cool air to enter and enhance cooling performance.
considerations, the density across south-facing arrangement heat gain, while façade primarily maximize daylight. of operable at the upper allow hot air to natural ventilation. also integrated connection, enabling enhance passive
Waiting area in ferry building
Co-Working Space on the Second Level
[Primary School Design]
Top 50 in Kaira Looro 2023 - Architecture Competition
CATAGORY INSTRUCTOR
LOCATION
TYPE ROLE
Primary School Design X Senegal, Africa
Group Work
Site Plan(95%), Enlarged Plan(50%), Digital model (40%)
The right to education is one of the fundamental and inalienable rights of any person, as well as a principle established in the Universal Declaration of Human Rights, yet for more than 600 million children worldwide, this right is not guaranteed due to fragile economic, political and health conditions, the presence of conflicts, natural disasters, stereotypes and socio-cultural prejudices. In Sub-Saharan Africa, most schools are not able to offer services that can protect the student, make them feel safe, and foster the development of their potential. So, We are building a new school model that can protect and foster the development of every child’s potential.
The primary school project is to be designed for the rural areas of southern Senegal. Due to its extreme climate and limited resources, the design should be sustainable, buildable and flexible. Also, the primary school is not only a place for students to study but also a community for them to communicate with each other and build their sense of belonging. In other words, by manipulating the space and materials, the school could be a classroom, a park, a community or other potential forms.
Due to its geographical location and climate, Senegal faces persistent challenges of drought, heatwaves, sandstorms, and sporadic heavy rainfull throughtout the year. Consequently, ensuring the safety and comfort of students attendng school in this region poses significant challenges. Our goal is to create a secure and empowering environment for students to learn, play, and interact beneath the umbrella.
This project incorporates key elements of umbrella. THe metal roof sheet, akin to the umbrella's canopy, provides protection to the indoor spaces, while the truss system supporing the roof emulates the stability and strength of an umbrella's framework. The trees situated inthe central corridor of the building represent the umbrella handle, signifying stability and offering students and engaging and well-lit activity space.
The design also includes a spacious walkway, with adjacent indoor spaces offering access to the walkway. The intent behind this design is to encourage students to move, interact, and play beneath the "umbrella" of the semi-outdoor space. From a plan and functional perspective, the two axial walkways effectively enhance ventilation, providing students with a high level of comfort.
Moreover, we have intergrated the potential for multiple indoor spaces ot be used in combination within our design. By emplying the flexibility of folding doors and aligning the spaces, we have created possibilities for hosting a variety of events on the campus. On weekends, the adatabiity of the indoor spaces bring additional benefits to the entire community, facilitating gatherings such as markets and fostering a stronger cohesion.
Foldable Openings
[Multi-Family Residential Building Design]
CATAGORY
INSTRUCTOR
LOCATION
TYPE
MAIN WORK
Mix-use, Residential Joseph King
Mountain View, CA, United States Group Work(Partner: Rishita Nanda) Design(60%)/Drawing(65%)
Stanford University and Stanford Research Park (SRP) have a rich history as cornerstones of innovation in Silicon Valley. With the rise of flexible working and transit-oriented development, the “Live-WorkPlay” principle has emerged as a key solution to the evolving lifestyle needs of people. SRP was originally envisioned as a collaborative hub between the university, industry, and the City of Palo Alto, aimed at attracting top scientists and faculty, providing jobs for graduates, and stimulating regional economic growth. However, with the increasing demand for housing, our strategy has evolved to incorporate mixed-use development.
The Discovery District will be a holistic and sustainable community that seamlessly blends innovation, collaboration, and natural beauty. By incorporating outdoor plazas and new bike paths connecting to The Hub at Stanford Research Park, we will strike a harmonious balance between built and natural environments. This premier destination will offer entrepreneurs, innovators, and residents a unique opportunity to live, work, and play in a thriving ecosystem. The proposed Stanford Run Innovation Station and Incubator will ensure ample opportunities for the next generation of leaders and startups to grow.
This project began with the redesign of the former Google headquarters at Stanford Research Park, replacing outdated buildings to establish a vibrant new community. Our work then focused on a specific component of the site—a multi-family residential building located at the southeast corner. The first half of the semester was dedicated to urban design, while the second half concentrated on detailed residential architecture.
Our vision was to position the Discovery District as a catalyst for reimagining the neighborhood, shifting public perception through intentional placemaking. The design aims to be both legible and purposeful, reinforcing the district’s identity as an appealing place to live and work. The mixed-use development includes two R&D buildings, an incubator, an innovation center, and two multi-family residential buildings. A thoughtfully designed landscape ties the area together, serving both Gunn High School students and local professionals.
Phase 1
R&D, innovation station and the incubator
Phase 2
Multi-family residential 1
Phase 3
Parking structure, Multi-family residential 2
T he detailed design phase focused on one of the multifamily residential building 1, exploring how architecture can foster community, sense of belonging and enhance daily living.
This project was a collaboration between the real estate team and the architecture team, aiming to strike a balance between cost-efficiency, spatial performance, and design quality. A key objective was to reduce construction costs while maximizing spatial efficiency and maintaining a high level of livability and diversity in the units. As the architecture team, we introduced a zigzag corridor strategy to break the monotony of traditional layouts. This dynamic circulation not only enhances spatial interest but also provides access to shared balconies, encouraging social interaction and creating moments of connection
Total Unit:66
Efficiency: 85%
Staircase Core: 3
Elevator Core: 2
Building Total Unit Area: 105779 sqf
Building Total Area: 6015 sqf
FLOOR PLAN
The model demonstrates a strong sense of urban integration and mass articulation. The building wraps around a defined courtyard or semi-public open space, suggesting an inward-facing communal typology often used in intergenerational or mixed-housing projects. The surrounding site model—featuring streets, pathways, and landscaped patches—indicates careful attention to pedestrian circulation and contextual response.
Shared balnonies
Alternative balconies
The variation in height across the building blocks creates a dynamic skyline while preventing visual monotony. The stepped massing responds to site conditions such as sunlight, wind flow, or adjacent structures—indicating a contextually sensitive approach. The lowering of one wing toward the courtyard strengthens spatial hierarchy, transitioning from public edges to more intimate communal cores.
Judging by the form and openings, the design allows for cross-ventilation and daylight penetration from multiple directions. The courtyard likely functions as a thermal and social core, enhancing passive cooling and community interaction simultaneously. The sloped or varied heights could also facilitate roof gardens, skylights, or ventilation shafts, reinforcing the sustainability intent.
Studio Layout 1
506 SF
Key Features: Efficient layout of kitchen & laundry; multiple closets, seperation of study area and living area
1-Bedroom Layout
705 SF
Key Features: Large walk-in closet; U-shape of kitchen with dining area
Studio Layout 2
539 SF
Key Features: Seperation of living area and bedroom; large balcony intoduce amount of sunlight to the bedroom
2-Bedroom Layout
1010 SF
Key Features: Large opening introducing sufficient sunlight; kitchen area with a small island; in-unit laundry
[Bionical Megastructure]
CATAGORY
INSTRUCTOR
LOCATION
TYPE
Urban Regeneration
Haoyan Wei
Chongqing, China
Individual Work
During the industrial revolution of the 18th century, people's desires increased with the development of technology. Humans desired to use technology to achieve satisfactionand power, which leads to the ignorance of the soul and life. With the popularization of technology, machines gradually take precedence over human life. It makes human beings become "non-human" subjected to machines. People lose their dominant position and dignity where emotional and physiological needs are suppressed.
Megastructure, which symbolizes power and desire, appeared in the city at a rapid speed. It is conducive to the efficiency, high-density and systematic operation of cities. However, urban space encroaches on and destroys the natural environment, leading to a series of urban diseases and threatening the quality of human life.
Therefore, the city and the individual need a balance point. Urban designers should reconsider the demands of human beings, return to the concern of the internal soul and ensure the efficient operation of the city simultaneously. From the perspective of urban design, this work combines megastructure with bionic architecture, aiming to solve the urban contradiction of Tucheng in Chengkou County of Chongqing, recover the local economy and improve the vitality of people.
The main road is disconnected due to its special topography. To address the problem, we extend the main Road along east and west side, which connects the natural landscape on both sides of the city and the ways to other cities.
In order to activate the riverside, this area is integrated a mix of land uses, including commercial and residential programs, Which enables it to serve as a CITY SPINE.
Structural Translation
The spine is the pivot of human body supporting the tension and compression of human tissues. Messages travel along the spine from the nerve endings to the brain. The city spine is constituted of units which coonnected by joints . At the same time, every unit has its own vertical ventilation.
“Spine”
Form & Function Translation
Skeleton-Building structure
The structural design of spine, which is connections for architeccture.
Skin & Muscle-Building
Surface
By parametric surface design in Grasshopper,
connections between single unit, could be he prototype of architectural design. This kind of structure provides flexibility and organic potentials
has a more organic and flexible surface to protect the building.
Phase Design
Activate the local economy and urban space by three Phase:
Phase 1: Develop and revitalize the special industry of Tucheng: Bacon production.
Phase 2: Solve the contradiction between the government and the real estate by combining respective interests.
Phase 3: Give the spatial rights to residents providing them with opportunities to build the community by themselves.
M A K E R'S P A R T Y
[Textile City Revitalization]
Best Design Award in West Light Urban esign Competition
CATAGORY
INSTRUCTOR LOCATION
TYPE
ROLE
Factory Renovation
Jing
Xiao Xi'an, China
Group Work
Design(95%), Digital Modeling(80%),
Drawings(60%)
In the past, the cultural form referred to the bahaviors of people and social relationships formed spontaneously from various people's activities. It seems hard to copy those cultures and to make them reappear through human practices. However, nowadays, with advanced technologies and creative ideas from humans, we could symbolize the specific culture and even make commercial productions. It is an effective and effecient way to revive the valuable history and memory.
Transforming the abandoned factory to spaces of different functions is always regarded as a reasonable and effective urban design practice to activate the creative culture industry. Since the spaces of a factory is distinguished from other space types due to its widely spaced columns and tall story height, we need to employ a particular spacial strategy in order to revive the old factory and cultural production.
Therefore, as a international cultural metropolis in China, Xi'an is a city with a long history and rich cultural connotation. At the same time, the Textile City, which located in the eastern side of Xi'an, is an old factory with huge potential to realize abundant cultural production. It is a great chance to promote economic development through culture and to introduce Xi'an to the world.
Four strategies to regenerate the facotry
Rebuild
People from all over the world comes and starts businesses in this “Eastern Market’. The revitalization of the makers' space provides employment s again, creating a society with booming economic and culture where people could communicate ignoring borders and classes.
Strategy 1
Cultural Public Space
Continue the western and eastern markets space structure in Tang Dynasty.
Strategy 2
Vibrant Living Environment
Create better and healtheir living places for workers and tourists.
Transform
The products made by the first group of makers are promoted through the Internet. Also, with the utilization of the technologies, people from all over the world communicate easily and work together.
Strategy 3
Pop-up Business
Freely composite modular spaces encouraging public participation.
Preserve
The first group of makers——the laid-off workers and nearby residents——start business with learned skills in original space in the factory, build connections by familybased spaces and workmate-based spaces.
Strategy 4
Create a international market through the coexistence of new office and old factory. International Office
Historic Preservation
The first step of spatial renovation is to reclassify the spaces, which provides the basis for retaining the valuable spatial frabic with new fucniton and eliminating unnecessary spatial forms.
Open Space-Metal Square
palace in Tang Dynasty
Circulation Space-Factory Layout
road system in Tang Dynasty
Entertaining Space-Railway
canal in Tang Dynasty
Living gradient creation
With reclassified spaces from Strategy 1, we could provide healthy living community and recreation space for the makers through organization of space according to activities and the specific design of loft.
Loft Design
Type A: 43.35m2
Business Area: 21.2m2
Type B: 50.9 m2
Business Area: 13.3m2
Pre-fabricated modular community
It is significant for makers and sellers to come up with creative ideas and show their production to customers directly, which requires more flexible and self-building spaces where they work in. Therefore, pop-up market is a suitable space form.
Pre-fabricated Modules App Design
Pre-fabricated modular community
In terms of new function such as business and office, old factory need to combine with new constructions with effeciency and diversity.
Space Generation
Scenario of International Market
Original forms of space in the factory are remained and transformed to workshops and stores, which provides jobs for local residents and revitalizes the old factory.
03 Pop-up Business
People from all over the world start their business in the central area by assembling modules and using advanced techniques, hence various culture is inherited and produced again.
The warehouses are transformed to residential building, which provides housing for both workers and tourists. The reorganized train route goes over the factory for commuting and sightseeing.
04 International Office
The makers are communicating with each other ignoring the classes and nations, which makes the 5th facotry of Textile City become prosperous in economy, culture and society.
1532 MEADOEBROOK RD, ALTEDENA, CA91001 - Non Like For Like - 3B3B
Setback: Front: 68' > 20' MIN.
Side: 18' > 8' - 6" MIN.
Rear: 40' > 25' MIN.
ADU: 10' > 4' MIN.
Height: 23' (<15' From PL), 30'; ADU:25'
Parking: Covered - 2'
Total Units: 1 SFD W/ Garage + 1 JADU + 1 Detached ADU
GSA: SFR: 1523 + 1784 = 3316 SF < 13,345 X 0.25 + 1000 = 4336.25 SF
Attached Garage: 479 SF
JADU: 492 SF
Detached ADU: 1196 SF < 1200 SF
Lot Coverage: 2494 SF + 598 SF = 3092 SF < 13,345 X 0.25 + 1000 = 4336.25 SF
4 Barmetta Way, Atherton CA 94027
AA Visiting School, Shenzhen, China
Embedded in a historic district, the murmuration-liked walking system has been created in the Bishizhou community in Shenzhen. Since most of the buildings are demolished and the area lacks of vigor, we try to build another system recreating the area in this high-density district, whcih is a walkable system connecting beyond roofs, supplementing the infrastructure and providing leisure spaces for local people and tourists.
First Prize In The 2th Green Campus Design Competition
GIS Analysis
A. DEM data
D. Catchment cost
B. Flow direction
C. Drainage basin
E. Runoff buffer zone
F. Construction suitability
Building Layout Generation
A. Generate waterpart D. Adjust to landscape
Zoning
Create open space
Sight
Build connections
Introduction To Architecture Studio, 200A UC Berkeley
Any great artwork never comes from nosense. Instead, there are strictly followed mathematic rules and great balanced proportion of points, lines and faces. By manipulating geometries of circle, rectangular through certain syntaxes, the spaces are divided into diverse but regular forms.
This project is a housing design for a hermit, which is my first studio design in CED, UC Berkeley.
Hankou,
Wuhan, China
Reveiwed and optimize the last version of urban design from SOM. Participated in urban design strategy generation and basic drawings of Urban Planning Revision Project of Hanzheng Street, Hankou, Wuhan, China.
Urban Design Strategy
Planning Green Space System
Typology
Create Waterfront Space
Tandem Urban Space
Chicago, Illinois
Interior Render; Revit Documentation
Worked with the interior studio to finish the interior modeling and renderings, such as Banya room, reception room etc.
Worked with architectural design studio with the Revit documentation of ADA regulation part.
PTW Architects, Beijing
This is a signinficant project that I participated involving the design of a versatile sports complex located in the southern region of Changsha, China. My responsibilities centered around the creation of city-scale renderings to show the whole design of Changsha Olympic Sports Center.
Mobile:15105201255
Email:zhiyanfang@berkeley.edu
UniversityofCalifornia,Berkeley
MasterofArchitecture
• GPA3.82/4.00;DesignExcellenceAwardTop1IntroductiontoArchitectureStudio;Fall2022
ChongqingUniversity
• GPA3.73/4.00;ThirdPrizeScholarship10% 20%
UrbanandRuralPlanning
Aug2022–May2025
Aug2016–Jun2021
Tripalink.Corp;LosAngeles,UnitedStates JuniorArchitecturalDesigner Jun2024–Now
● Ledthefeasibilitystudyandfulldesigndocumentation fortwosingle-familyhomesinAltadenaundertheEatonFireRebuildProgram Developed deep knowledge ofsingle-familyhousedesignbyresearchingzoningrequirements;generatedmultipledesignoptionsbased onsiteconditionsandclientpreferences.
● Monthly checked with Regional Planning, Public Health and EDISON about eaton fire rebuild building requirement,septictankupgrade applicationprocessandutilityreconnectandcost.PreparedthedocumentationandsubmittedthepermitthroughEpicLA.
● Coordinated withallkeyconsultants—including surveyors, structural and civil engineers, and MEP teams—to obtain topographic and geotechnicalsurveysandaligndesignswithzoningheightandsetbackrequirements..
● Conducted extensive benchmarking by reviewing 100single-familyhousefloorplansfromLennar,IrvineCompany,andTollBrothers, andbuiltaninternaldesignreferencelibrarythatenhancedoverallteamefficiencyanddesignquality.
Gensler;Chicago,Illinois,UnitedStates Architecture Intern
Jun2024–Aug2024
● Completed a physical model of Jackson Park Terrace Master Planning project helping the team present to the clients. Led historical researchandsiteanalysis,producingdetailedmapsandplanstosupportprojectdecision-making
● Refined Revit documentation on the ADA regulations and standard part; Developed MOPD intake presentations with updated plans improvingclientengagementandprojectclarityfortheBathhouseprojectinitiative.
● Modeled the interior furniture and materials of the BanyaroomofBathhouseprojectinSketchUp;Conductedadetailedmodelingofthe sitting, oven, ceiling and light according to their specific texture and position of material. Assigned the materials and produced renderingsonEnscape,suchasTilebarʼsLavaartPolishedCeramicandSEKIHAfromINAX.
PTWArchitects;Beijing,China
ArchitectureIntern
May2023–Aug2023
● Directed the scale analysis and dialectical reasoning fortheChangshaOlympicSportsCenterproject,encompassingthesportsschool, training facilities, and the Olympic Sports Center itself. Contributed to optimizing the volume control by adhering to the concept of a centrally radiating urban design. Engaged in urban design and architectural facade solutions for the sports school, creating over 20 perspectiveandaerialviewrenderingsforthefinalbidproposal.
● Collaborated with the team to conduct site analysis and selection for the China Badminton Association's Pingshan Training Base, refiningfunctionalpositioning,highlightingdesign-centricfeatures,anddeterminingtheoverallscale.
● Responsible for landscapedesign in theexpansionprojectoftheSu'nanShuofangAirport,includingtaskssuchasrainwaterinfiltration systems,modularlandscapedesign,andvegetationspeciesallocation.
CADG;Beijing,China
ArchitectureIntern
Jan2020–Mar2020
● Led the architectural envelope design for the dispersed layout of various venues within the Harbin Ice and Snow World project. Responsible for producing detailed sectional drawings, focusing on wall structure, material pattern differentiation, and drawing annotation.
● Assisted in thedesignoffloorplansandelevationsfortheZhuozhouGrandTheaterandgeneratedaseriesoforthographicprojections. Conductedpreliminaryanalysesrelatedtoprojectlocationandpositioningconsiderations
AREP;Beijing,China
UrbanDesignIntern
Jan2020–Mar2020
● Participated in an urban design project in Hankou, Wuhan, and proposedafeasiblespatiallayout for the commercial centerareaasa conceptual design. This concept was hand-drawn on the siteplanandultimatelyadoptedastheoverarchingdevelopmentdirectionfor theproject,significantlyenhancingprojectefficiency.
● Assisted in drafting urban master plans and site plans for the Wuhan Hui Zhan New City project through exporting in AutoCAD and polishedthelinedrawinginphotoshop.
TsinghuaUniversity Project ManagementIntern
Jul2023–Aug2023 ScenarioPilot–SystematicanalysissoftwareconductingCross-ImpactBalancesmethod
● Collaborated with Laboratory of Low Carbon Energy at Tsinghua University toaccomplishthesoftwaredevelopmentofScenarioPilot–the analysis tool featured on TsingArk Data Platform which would be launched in COP28 in Dubai Analyzing the intrinsic logic embeddedwithintheCIBmathematicalmodelandsubsequentlytranslatingitintoauserexperiencejourney
● Executed end-to-end UI/UX design utilizing Figma and Axure Scope of responsibilities encompassed the initial user personas, functionalprototypes,andformulationofthefinalUIsystemandinterfacedesign
● Directed and guided developers in producing comprehensive front-end API interface documentation, concurrently facilitating communicationregardingback-enddatastructures,suchasmatrixgenerationalgorithmlogicandimpactfactorconstraints
Debox WebDesigner
Aug2023–Sep2023 Web3socialplatformbasedonblockchainDID
● Developed and crafted 10 webpagedesign for one-year anniversaryofDebox'sestablishment,allofwhichhavebeenintegratedinto theofficialwebsite Tasksinvolvedcolorbalance,taglineconceptualization,andinteractionformulation
● Took charge of the systematic interface design for the User Manual within the Help Center, with the aim of enhancing the overall user-friendlinessandusabilityofDebox'splatform
PerfectWorldGames;Beijing,China
CreativeDesignIntern
Jul2021–Dec2021
● Designed 50 crafted H5 banners and floating windows for Tower of Fantasy. Communicated with all studios about launching processesontheAppStoreandAndroidapplicationstore'sadvertisementpages.
● Led a team in spearheading workflow optimization within the Resource Channel Department. Tasks include workflow visualization, resourceallocationandwireframeoutput,resultinginanotableenhancementofoverallteamefficiency.
2022BeijingWinterOlympicGames Volunteer Jan2022–Apr2022
● Workedwithcross-functionalteamstoinvestigate,diagnose,repair,anddocumentissuesbycommunicatinginEnglishandKorean
● WorkedforSamsunghelpingwiththeirelectronicdevicesbyrecordingtheequipmentcirculationandstandardizingdocuments.
Top50–KairaLooroCompetitionAward
DesignExcellenceAwardTop1–BerkeleyCED200AFall2022
Jul2023
Dec2022
HonorableMention–WUPENiCITYInternationalUrbanDesignCompetition2020 Jan2021 FirstPrize1/763–2thNationalGreenCampusDesignCompetition Aug2020
BestDesignAward7/189–TheWestLightNationalUrbanPlanningCompetition Aug2019
Software:Revit;Rhino;SketchUp;ArcGIS;Enscape;D5Render;V-ray;Photoshop;Illustrator;Indesign;MicrosoftOffice;Midjourney; Notion;Figma;Python;
Language:English(Tofle:104;Korean(TOPIK4/6;MandarinNative