Enthusiastic industrial designer specializing in footwear, fashion, and technology-integrated products, with a passion for sports and enhancing human experiences. A keen observer dedicated to helping people through innovative design, adaptable across industries, especially in medical and global problem-solving contexts.
The device features ergonomically placed controls, intuitive Start, Pause, and Power buttons, and a digital display for real-time feedback on temperature and time. Its compact, user-friendly design ensures easy operation, visibility, and comfort during extended use.
The brace is smartly designed with a three-strap criss-cross arrangement, ensuring a snug and secure fit. The arrow-like notches guide proper usage, making it easy to wear.
It provides comfort and effective massaging, aligning well with user expectations. Its fashionable design and secure fastening mechanism make it both functional and aesthetically appealing, ensuring stability during various activities.
The device features pneumatic pressure massage, where air chambers deliver sequential compression that mimics natural muscle contractions, promoting optimal blood circulation and reducing the risk of blood clots. Its ergonomic, lightweight, and form-fitting design ensures comfort during extended use, providing users with a non-intrusive and effective therapeutic experience.
DVT is a serious medical condition where blood clots form in the deep veins, often in the legs, leading to potentially life-threatening complications like pulmonary embolism. Current preventive measures are limited and often reactive rather than proactive. Our device addresses this critical health issue by offering:
Preventive Care: encouraging early intervention to reduce the incidence of DVT.
Improved Quality of Life: Enhancing circulatory health for at-risk individuals, including the elderly, post-surgical patients, and frequent travellers.
It is cost-efficient to prevent DVT because the treatment costs are significantly higher than prevention measures. According to the data:
Without thrombolysis/interventions, DVT treatment costs range from £1,000 to £2,400.
With thrombolysis/interventions, costs can soar from £2,500 to £10,450.
Prevention not only reduces these high treatment costs but also avoids additional long-term healthcare expenses associated with complications like pulmonary embolism. By focusing on early intervention, healthcare systems can save money while improving patient outcomes, especially for high-risk groups like the elderly and post-surgical patients.
Efficient patient monitoring smart care:
Implemented printed electronic sensors in a smart healthcare setup in a nursing home and patient care environment to improve quality of life in early detection of ailment onsets to bridge the time gap of action to tend to the patient, especially in an era leading to an increase in the population of the elderly.
The product involves the integration of printed electronics, IoT, and Lora-based communication in a smart healthcare setup.
Modular weighted vest:
The weighted vest is designed as a modular, sleek, and functional fitness garment, enhancing exercise routines with added resistance while ensuring complete freedom of movement.
This vest incorporates adjustable weights and ergonomic features to support back posture and provide comfortable fitting, making it ideal for weight loss enthusiasts, callisthenics practitioners, and gym-goers.
Group Project on Moon Rover RC Car:
Participated in a group project to create a remote-controlled moon rover toy.
Integrated 3D printing technology and designed novel tires for navigating uneven terrains.
Bird Sound Identifier:
Developed a product concept integrating machine learning for bird sound identification.
Designed the data architecture and managed product development.
Augmented Reality Boxing Trainer Eyewear:
Conceptualized an augmented reality boxing trainer eyewear product, providing real-time feedback and training enhancements for boxers.
Bachelor’s Final Year Project:
Explored the application of artificial intelligence in designing, forecasting, and manufacturing in the footwear industry.
Investigated how AI can enhance the design process and improve efficiency in the industry.
Luxury Footwear Collection:
Handcrafted a premium luxury footwear collection, combining high-end leather materials and sophisticated craftsmanship.
Effortless Striking Pincer Hammer Innovation:
Ideation of an innovative concept for the effortless striking pincer hammer, enhancing safety and efficiency in footwear manufacturing and reducing hand injuries in the industry.
Sustainable Footwear Collection:
Created an innovative sustainable footwear collection utilizing materials like recycled plastic and hairbands, recycling them to reduce waste and prevent the burning of waste
leading to large-scale emissions of air-polluting gases.
Athleisure Footwear Collection:
Developed a stylish and functional athleisure footwear collection that bridges the gap between sports performance and casual wear.
