D I G I T A L D I A G N O S T I C S
The global market for wearable medical devices is transforming how we prevent , diagnose and treat illness . Wearable medical devices rely on sensors , connectivity features and advanced technologies to monitor health data and provide real-time updates for remote patient management . These devices are being used for a range of medical and healthcare applications including vital sign monitoring , glucose monitoring , cardiac monitoring , sleep tracking , activity tracking , medication adherence , pain management and more .
Wearable devices support patient self-care , but they are also becoming essential tools for healthcare professionals to perform health monitoring and early detection of medical conditions . As a result , the healthcare industry is embracing wearable devices on a collective mission to usher in a new era for preventative health and provide more personalised patient care . Global demand for wearable medical devices is expected to grow at an impressive 27.4 % compound annual growth rate ( CAGR ) from a market size of US $ 29 billion in 2022 to US $ 325.7 billion by 2032 , according to Research and Markets .
However , as these devices and their components become smaller and more powerful , testing and validation become increasingly complex in the design phase . Many factors must be tested during the development cycle to ensure that wearable healthcare devices can operate reliably , effectively and securely in the real world . Here is a closer look at the top three factors for designing wearable healthcare devices that users can depend on .
Reliability
The wearable healthcare device market has exploded , with increased interest , improved attitudes and research proving their success , Marie Hattar , SVP , Keysight Technologies , explores the three pillars for designing a successful product .
The development cycle requires rigorous testing and validation processes to ensure that wearable healthcare devices remain trustworthy . The devices must consistently provide reliable performance and accurate data , but that can be challenging due to the diversity of applications . Devices such as smart rings , blood pressure-monitoring bracelets and brainwave-reading headbands leverage advances in biofeedback to track physical and even emotional responses , including stress , alertness and drowsiness through eye movement .
The reliability of wearable medical devices also requires batteries that can stand the test of time . Advanced battery test and emulation software is being used to create profiles of actual batteries , which can then be
TOP THREE FACTORS FOR DESIGNING SECURE WEARABLE HEALTHCARE DEVICES
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