Context Monitoring of Patients using Wireless Network

In many hospitals, doctors attend to patients either once or twice per day. A situation may arise in which the patient's health worsens during the time if a doctor is unavailable to the patient, and the patient may die as a result. Most problems in today's world are caused by a lack of eff...

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Bibliographic Details
Main Authors: Chirchi, Vanajaroselin E, Vivekanand, Chettiyar Vani, Grace, N. Vini Antony, Saranya, R, Venkataramana, S, Praveena, K.
Format: Conference Proceeding
Language:English
Subjects:
Cloud
Cloud computing
Communication system security
Glucose
Health
Heart Rate
Internet of Things
Medical services
Sensor phenomena and characterization
Sensors
Temperature sensors
Wireless networks
Wireless sensor networks
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Summary:In many hospitals, doctors attend to patients either once or twice per day. A situation may arise in which the patient's health worsens during the time if a doctor is unavailable to the patient, and the patient may die as a result. Most problems in today's world are caused by a lack of efficient therapy and appropriate monitoring within the required time period. To solve these issues with the current method, this research study proposes a health monitoring framework using wireless technology, in which the patient's health is followed and communicated to the physician throughout the entire day. The Internet of Things (IoT) is an emergent technology that uses wireless networking phenomenon to transmit data. The advantage of using IoT-based healthcare monitoring systems is that they can assess many physiological characteristics of the human body and is simpler, more accurate, and more precise than traditional methods. Sensors are utilized to measure the patient's bodily functions over a wireless network. The data from the sensors is gathered and communicated to the cloud through a Wi-Fi module linked to the microprocessor. The data is stored in the cloud, and feedback mechanisms are done on the stored data, which may be analyzed distantly by a physician. Virtual monitoring relieves doctors' workload and offers patients accurate health conditions. The proposed system results suggest that the physiological sensor is more effective in terms of availability and portability. The proposed system is easy to use, will save money, and will change how hospitals work in the future.
ISSN:2767-7788
DOI:10.1109/ICICT57646.2023.10134482