Body Sensor Networks
Energy efficient framework for mobility supported smart IP-WSN
ICCCI'10 Proceedings of the Second international conference on Computational collective intelligence: technologies and applications - Volume Part III
Smart wearable systems: Current status and future challenges
Artificial Intelligence in Medicine
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This paper has proposed an energy consumption algorithm in 6lowpan networks. The performance results have been analyzed mathematical and simulation compression between energy and density. We have designed global healthcare monitoring system. In this system, wearable {6lowpan + biomedical (IP-BSNs)} sensor are fixed into the patient's body area networks that would be connected to the internet based gateway. The IP-BSNs has a unique IP-address to establish global connectivity between patient and doctor. The service provider (doctor), using internet based equipments such as PDA, Cell Phone etc., can communicate to the patients and can acquire data of the patient's body via that unique address, globally. The 6lowpan stack has been compressed IPv6 over Lowpan. The modified AODV protocol has been used star routing technique to establish connectivity between IP-BSNs and PAN coordinator based gateway. The system has been evaluated by technical verification, clinical test, user survey and current status of patient.