Explored how wearable technology could allow users to actively decorate and personalize their clothing through a mobile device, transforming garments into dynamic, user-controlled visual interfaces.
Ideation
Sketches and color studies tested how flexible screens and illuminated linework could be placed on the body to remain readable in motion while supporting app-based visual customization.
Development
The design combines stretch nylon-spandex with flexible display panels positioned on the chest, back, and shoulders. A companion mobile app concept enables users to design, select, and upload visuals directly from their phone, updating the garment in real time.
Final Outcome
A wearable tech bodysuit that allows users to decorate embedded screens using a mobile app, turning the garment into a customizable digital canvas while maintaining comfort, flexibility, and performance-ready wearability.
Smart Slides
Research & Insights
Explored how everyday footwear could integrate wearable technology without sacrificing comfort, stability, or ergonomic support, while still allowing for personal expression.
Ideation
Early sketches and form studies tested how a flexible display could live on the slide strap, how lighting could enhance visibility, and how ergonomic features could be subtly integrated into a familiar silhouette.
Development
The slides were developed using a silicone base with rubber reinforcement for durability, a flexible display embedded into the top strap, and a companion mobile app that allows users to customize on-strap visuals and adjust strap fit digitally. Additional functional features include arch support, toe protection, and replaceable heel adhesive pads for stability.
Final Outcome
A pair of everyday slides that function as customizable wearable interfaces, allowing users to personalize the strap display through a mobile app while benefiting from ergonomic support, stability features, and a clean, Apple-inspired design language.
Apple Chair
Research & Insights
This project explores how furniture can function as both seating and visual atmosphere. Research focused on how color, form, and light influence mood in homes and commercial spaces, particularly in cafés, retail environments, and creative studios where visual identity matters.
Ideation
The concept began with fruit-inspired forms, chosen for their playful geometry and instant emotional recognition. Early sketches explored how organic shapes and soft illumination could transform a simple chair into a statement piece that enhances a space rather than blending into it.
Development
The chair was developed with smooth, rounded forms and integrated internal lighting to create a soft glow. Color choices and surface finishes were refined to ensure the chair feels inviting, sculptural, and functional both during the day and in low-light environments.
Final Outcome
A sculptural, light-emitting chair designed to bring personality and warmth into a space. The Fruit Chair functions as seating, ambient lighting, and a visual focal point—making it suitable for homes, cafés, creative offices, or branded interiors.
Toe Straightening Sock
Research & Insights
Research focused on identifying common pain points in existing toe correctors and separators, including pressure discomfort, rigid construction, limited adjustability, and poor wearability during extended use. Many current solutions prioritize correction over comfort, which often discourages consistent daily wear. This revealed an opportunity to create a more wearable, user-friendly corrective solution that balances alignment guidance with comfort.
Ideation
Early ideation explored soft-goods alternatives to traditional rigid or silicone correctors. Wearable formats were prioritized to better integrate corrective support into daily routines. This process led to the concept of a sock-based system combined with modular components, allowing users to customize corrective force while maintaining comfort.
Development
The final concept evolved into a sock-based design that covers all toes except the big toe, allowing controlled movement. A vertically oriented rectangular panel with the loop side of a hook-and-loop fastening system was integrated along the medial arch of the sock. A detachable corrective module attaches to this panel and contains a thin stainless steel support plank to provide structure without excessive rigidity. An adjustable toe belt connects to the module to gently guide the big toe outward.
Final Outcome
The result is a modular, sock-based toe corrector designed to improve comfort, wearability, and adjustability. The soft-goods construction reduces irritation, while the detachable corrective module allows users to control tension or remove support as needed. This design offers a more comfortable and adaptable alternative to traditional toe alignment products, supporting long-term wear and user compliance.
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