1. Injectable Polymer hydrogels a bio tissue synthesis for wearable IoT sensors
- Author
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S. Sam Peter, G. Priyanka, N. Nataraj, and V. J. Aiswaryadevi
- Subjects
010302 applied physics ,chemistry.chemical_classification ,business.industry ,Computer science ,Continuous monitoring ,Wearable computer ,02 engineering and technology ,Polymer ,021001 nanoscience & nanotechnology ,01 natural sciences ,Smart polymer ,Artificial skin ,chemistry ,Embedded system ,0103 physical sciences ,Self-healing hydrogels ,0210 nano-technology ,business ,Internet of Things ,Wearable technology - Abstract
Human health are to be monitored for glucose level, blood pressure level and intimated at the right time for taking the necessary pills or food. Defense forces, Diabetes victim and victim with heart attack must be given alert on their BP level and accordingly they can react for taking the appropriate pill or food. A victim may go low in his /her BP level while sleeping more vulnerable to this kind of situation which requires salient tracking and alerting system. Smart polymers combined with Biomimetic Elastomers forms the Injectable Polymer hydrogels. Moreover, many IoT devices have been discovered. A study throws light on a fact that most of continuous tracking observations, human skin suffers a bone disorder called Osteoporosis which ultimately leads to deformation of bones. But hydration loss must be reducible for a bi tissue to be discovered; thereby bypassing the drawbacks caused due to standalone IoT sensors. Injectable Polymer hydrogels is already used for plants and animals for avoiding damage to them during research experiments. The polymers must be molded to the required consistency for synthesizing wearable sensors eliminating health hazards. The conventional IoT system is substituted with the biotechnological solution to enhance continuous monitoring and alert system for victim and elderly aged people. Injectable Polymer hydrogels an artificial skin protein constitutes the composition of nutrients and proteins available in the form of powder can be used for manufacturing the wearable devices to maintain the conductivity range in such a way that it does not affect the human skin. It is proposed to synthesize the artificial skin gel in a relative state that it produces accurate results with sensor data transfer also. The solution proposed here provides the safe usage of irremovable monitoring and tracking of health status. more...
- Published
- 2021
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