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In the realm of healthcare technology, non-invasive and real-time physiological monitoring techniques have increasingly garnered attention. With the rapid advancements in the Internet of Things (IoT) and big data technologies, personalized health management has gradually become an integral part of modern life. However, existing health monitoring devices often present issues such as inconvenience in wearing, low accuracy, or high costs. Therefore, we propose the project of a wearable Sweat Detector, aiming to provide users with a comfortable, accurate, and economical solution for health monitoring.
The wearable sweat-based biomarker detector utilizes advanced biosensor technology and intelligent algorithms to enable real-time monitoring and precise analysis of biochemical markers in human sweat. Our solution features the following:
At the initial stage of the project, we conducted thorough market research and user needs analysis to determine the product’s appearance design and functional positioning. We emphasized the product’s aesthetics and practicality, while considering the user’s wearing experience and comfort. Regarding material selection, OPD Product Design chose biocompatible, flexible, and durable materials to ensure the product’s safety and durability.
Based on the industrial design, we proceeded with the mechanical structure design, including the size, shape, and connection methods of the product’s various components. Through meticulous mechanical structure design, we ensured the product’s stability and reliability while improving production efficiency.
Hardware design is the core component of the product. We utilized advanced biosensor chips and microprocessors to achieve real-time monitoring and data processing of sweat biochemical markers. Additionally, we designed a wireless transmission module to enable real-time data upload and remote management. During the hardware design process, we focused on power consumption control and stability to ensure the product’s long-term stable operation.
Based on the above designs, we successfully developed a prototype of the wearable sweat-based biomarker detector and conducted multiple tests. The prototype achieved the expected results in terms of wearing comfort, data acquisition accuracy, and data transmission stability. Simultaneously, we optimized and improved the product based on the issues identified during testing to better meet user needs.
The introduction of the wearable sweat-based biomarker detector offers significant value to users: