IoT Transforming Healthcare :
The Internet of Things (IoT) is permeating our environment, with anything from tweeting plants to talking refrigerators. IoT stands for internet-enabled, interconnected devices that can exchange information with one another and with other systems and devices. According to International Data Corporation (IDC), there will be over 55.9 billion linked devices by 2025, and these sensor-enabled smart devices have the potential to enhance our quality of life.
IoT implementation is already having a significant impact in a number of different areas, including healthcare, agriculture, manufacturing, and mining. For instance, IoT sensors are affixed to patients’ bodies in the healthcare industry to monitor them. This aids in a quick intervention that may be essential in the case of a serious and time-sensitive issue. For a nation like India, with a doctor-to-population ratio of 1:834, using technology to increase efficiency in the healthcare system is essential.
By enabling them to treat patients more effectively and remotely, IoT devices have the potential to empower medical professionals. By recording their vitals, these smart devices enable doctors to continuously check the health of their patients from a distance. Remote health monitoring enables patients to remain at home, which is far more comfortable and lowers the cost of hospitalisation. For some of the most prevalent chronic illnesses that affect the elderly, like cardiovascular disorders, remote patient monitoring can show to be quite effective.
Hospitals and medical centres have begun to embrace the use of IoT devices to deliver remote healthcare services across the nation. A multi-specialty hospital in India recently began tracking patients recovering from risky surgery using a remote monitoring solution. The gadgets collect information about the patient, including heart rate, oxygen saturation, sleep quality, steps taken, and pain score, which is subsequently transmitted to nurses and medical professionals via an online monitoring system.
Deeper insights can be gained by analysing and gathering data over time. For instance, data can be uploaded to the cloud, where machine learning (ML) and artificial intelligence (AI) can be trained to sift through massive amounts of data over time in search of patterns and insights. This can aid in more accurate forecasting and possibly prompt intervention to lessen or even stop possible pandemic outbreaks.
But along with these enormous opportunities come huge difficulties, like managing and storing data. By 2025, data created by these gadgets would total 79.4 zettabytes, predicts IDC.
It is now essential for many IoT applications that data be vetted, examined, and even altered at the point of generation. In order to deliver quick and useful insights at the device level, edge storage controls data capture and offers the computational capabilities to aggregate and analyse that data in real-time. The balance between edge computing and cloud computing is shifting, though, and this is the most important trend in IoT. The avalanche of data produced by IoT requires a variety of storage solutions, including Industrial SD Cards, Commercial SD and microSD Cards, NVMe-powered SSDs, and high-capacity HDDs. Insights can be gained from IoT data by efficiently handling it and combining it with the appropriate storage infrastructure.
Healthcare could become more effective, inexpensive, and even individualised thanks to IoT. However, data will be essential in making this happen. As a result, the necessity of the proper storage infrastructure will only increase. Storage must not become a bottleneck in the development of the healthcare sector.
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