The Medical Assistive Device is a versatile solution catering to consumer products, healthcare, rehabilitation, and medical research domains. With its wide settings of resistive forces, the device aids individuals in rehabilitation, strength training, and range-of-motion exercises. Its innovative force measuring solution accurately captures exerted forces, delivering precise feedback during therapies and exercises. Through continuous optimization based on user feedback from the MVP phase, the device has been refined to meet users' needs and expectations. It provides a streamlined user experience, ensuring maximum benefit and progress during rehabilitation and therapeutic sessions. The device's compact and ergonomic design optimizes manufacturability, facilitating mass production for widespread adoption.
Develop a Medical Assistive Device that caters to consumer products, healthcare, rehabilitation, and medical research sectors. The goal is to create a versatile device with wide settings of resistive forces, an innovative force measuring solution, and power-efficient operation. Utilize user feedback from the MVP phase to optimize the device, ensuring it meets users' needs and expectations while enhancing manufacturability for mass production.
Wide Settings of Resistive Forces: Design a device capable of providing a broad range of resistive forces, accommodating various rehabilitation and therapeutic needs. Innovative Force Measuring Solution: Implement advanced force measuring technology to accurately capture data during exercises or therapies, providing valuable feedback on user performance and progress. Optimized User Feedback: Utilize user feedback from the MVP phase to refine and enhance the device, ensuring it meets users' needs and expectations while enhancing manufacturability. Compact and Ergonomic Design: Develop a compact and ergonomic device suitable for consumer use, healthcare facilities, and medical research institutions.
Development of a versatile Medical Assistive Device with wide settings of resistive forces, pressure sensors for measurement, and power-efficient operation for various applications. Integration of innovative force measuring technology to provide accurate feedback on user performance and progress during therapies and exercises. Optimization based on user feedback from the MVP phase to enhance functionality, user experience, and manufacturability. Design of a compact and ergonomic device suitable for mass production and widespread use in consumer settings, healthcare facilities, and medical research institutions.