Project Overview
“Neon Logic” is a cutting-edge hoodie series that blurs the boundary between organic design and digital engineering. Inspired by next-gen microelectronics and AI network schematics, this collection reflects the flow of data and power through the unseen systems that shape our world. These hoodies are perfect for tech futurists, engineers, and sci-fi streetwear fans who live on the edge of innovation.
Year of Completion: 2025
Status: Active
Graphic Design
The designs simulate intricate circuit board structures laid over clean, white technical fabric—highlighted with electric green traces, subtle magenta paths, and glowing yellow nodes. These elements evoke the anatomy of digital systems and printed wiring, fusing functional schematics with high-concept fashion. The result is a wearable interface: sleek, layered, and pulsing with synthetic intelligence. The asymmetry and layering add dimensionality while preserving a sleek silhouette.
Deliverables
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High-detail circuit path vector assets (AI + SVG + PSD)
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Precision hoodie layout files for all-over sublimation printing
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Photorealistic mockups for marketing and e-commerce
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Branded assets for online campaign launches and techwear collaborations
Tools Used
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Adobe Illustrator (grid layout + path mapping)
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Photoshop (layer effects, shadows, and glow rendering)
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Clo3D / Marvelous Designer (3D fit visualization)
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Midjourney (aesthetic ideation and interface evolution)
Results Achieved
Techwear Integration: A standout hit among AI engineers, wearable tech innovators, and gamer fashion communities.
Retail Highlight: Selected for concept capsule releases in futurewear boutiques and NFT-linked fashion stores.
Cross-Market Appeal: Successfully tested in both real-world and digital/AR wearable environments.
Challenges & Solutions
Challenges Faced:
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Ensuring circuit line precision across curved hoodie surfaces
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Managing color vibrancy and legibility in dark-light print transitions
Solutions Implemented:
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Vectorized modular node-grid system adaptable to curved patterns
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Employed high-DPI digital printing with white-ink control layers for enhanced contrast
