Industrial Design Student | Merging Aesthetics with Practical Product Development

Developed a full exterior aesthetic redesign (skin/shell) for a vehicle.

Redesigned a living room sofa system to provide full accessibility and comfort for users in wheelchairs.

Conducted in-depth analysis of the PlayStation 5, creating detailed sketches, mood boards, and marketing collateral.

Conducted human factor analysis and developed a portable camping chair.

Redesigning a shopping cart to improve user comfort, accessibility, and maneuverability in retail environments while maintaining manufacturing feasibility. PROBLEM Traditional shopping carts are widely used but poorly optimized for user comfort and accessibility. USER ANALYSIS Target Users: Everyday shoppers Elderly users Users with mild physical limitations Observations: Users tend to lean forward due to poor handle positioning High load causes wrist and back strain Navigation becomes harder in crowded aisles Insights: Handle ergonomics directly affect user fatigue Weight distribution impacts control and stability Accessibility is often ignored in standard designs CONCEPT DEVELOPMENT Explored multiple design directions focusing on ergonomics, usability, and structure. Iterations Included: Different handle angles and grip forms Wheel positioning and base width variations Basket depth and load distribution concepts Design Decision: Selected a concept that balances: User comfort Structural simplicity Manufacturing feasibility Focus was not just form — but real-world usability DESIGN SOLUTION Final Design Features: Ergonomic Handle Angled for natural wrist position Improved grip comfort Optimized Weight Distribution Lower center of gravity Reduced pushing effort Enhanced Mobility Improved wheel alignment Smoother navigation in tight spaces User-Friendly Structure مناسب لمستخدمين مختلفين (including elderly users) التصميم بيقلل الإجهاد ويحسن التحكم بدون تعقيد FEASIBILITY & MANUFACTURING Materials: Steel frame (durability) Plastic basket (lightweight & cost-efficient) Manufacturing: Uses standard industrial processes No complex or expensive fabrication required Cost Consideration: Designed to stay within current market price range تحسين الأداء بدون زيادة تكلفة ملحوظة Key Issues: Uncomfortable handle height and grip angle Uneven weight distribution causing strain Difficult maneuverability in tight spaces Lack of consideration for elderly and physically limited users Design Challenge: How might we redesign a shopping cart to be more ergonomic, inclusive, and easy to use without increasing production cost?

Project Overview Automated Glass Handling System Academic Project Designed a system to safely transport and store large glass panels inside factories, reducing manual handling and improving worker safety using a semi-automated hydraulic and suction mechanism. PROBLEM Handling large glass panels in factories is a high-risk process that يعتمد بشكل كبير على التدخل البشري. Key Issues: High risk of injury أثناء حمل الزجاج صعوبة في التحكم في الألواح الكبيرة بطء في نقل وتخزين الزجاج احتمالية كسر الزجاج بسبب التعامل اليدوي Design Challenge: How might we reduce human intervention in glass handling while improving safety, efficiency, and storage داخل بيئة صناعية؟ USER ANALYSIS Target Users: Factory workers Glass manufacturing operators Observations: العمال بيستخدموا مجهود بدني عالي التحكم في الزجاج بيكون صعب وخطر الحركة داخل المصنع بتكون محدودة بسبب الحجم Insights: تقليل التدخل البشري = زيادة الأمان لازم النظام يكون سهل الاستخدام مش معقد التحكم في الحركة أهم من القوة نفسها CONCEPT DEVELOPMENT Developed the concept starting from scratch, focusing on reducing manual handling and improving workflow efficiency. Design Approach: دمج نظام Hydraulic movement استخدام Suction mechanism لتثبيت الزجاج تصميم Structure يسمح بسهولة الحركة داخل المصنع Iterations: أشكال مختلفة لآلية الحمل تجارب على توزيع الوزن تحسين زاوية الحركة والتحكم Full design process was developed independently from concept to final solution. DESIGN SOLUTION Final System Features: Hydraulic Lifting System يتحكم في رفع وخفض الزجاج بسهولة يقلل المجهود البشري Suction-Based Grip يثبت الزجاج بأمان بدون انزلاق يقلل خطر الكسر Mobility داخل المصنع سهل الحركة في المساحات الضيقة يحسن Workflow Storage Optimization يسهل ترتيب وتخزين الألواح يقلل الفوضى داخل المصنع النظام بيشتغل شبه أوتوماتيك — العامل بس بيوجهه FEASIBILITY & REAL-WORLD APPLICATION Materials: Metal frame (heavy-duty use) Industrial suction components Hydraulic system Manufacturing: قابل للتنفيذ باستخدام تقنيات صناعية موجودة لا يعتمد على تكنولوجيا معقدة Practical Value: تقليل الإصابات زيادة الكفاءة تقليل الخسائر (كسر الزجاج)