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A wireless sensor network is a computer network made of multiple autonomous devices spread in space that employ sensors to collaboratively monitor the physical or environmental conditions of various locations.
WSNs have risen significantly in recent years and have enormous potential in a wide range of applications including environmental research, medical sciences, telecommunications, education services, agricultural, surveillance, military services, and so on.
It also supports new firms in performing a favourable review of their plans since it includes a wide range of topics market members should be aware of in order to remain serious.
The Europe Wireless Sensor Market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2026, registering a CAGR of XX% from 2022 to 2027.
EnSilica has introduced the market’s first single-chip wireless sensor for medical and wearable devices.
The eSi-MediSense may drastically reduce expenses by merging everything into a configurable single chip: for example, a health monitoring watch can be reduced in price by more than half.
The ultra-low-power platform can work with a variety of processor and DSP configurations, and it includes an optional machine learning accelerator, such as the Arm Ethos-U55, which allows artificial intelligence to be designed into medical sensors, reducing the frequency of wireless communication and extending battery life.
The wireless sensor platform can monitor ECG, heart rate, respiration rate, pulse oximetry, and temperature with accuracy and reliability. There is also a flexible interface for electrochemical measurements such as amperometric, voltammetric, or impedance measurements.
Recyclable smart plasters; physiotherapy monitors to follow orthopaedic healing, aberrant cardiac issues, or give non-invasive glucose monitoring are examples of applications.
It can highlight the need for medical intervention on its own by continually monitoring predicted vs unexpected activities.
