author={M. Thangaraj and P. P. Ponmalar and S. Anuradha},
booktitle={2015 IEEE International Conference on Computational Intelligence and Computing Research (ICCIC)},
title={Internet Of Things (IOT) enabled smart autonomous hospital management system - A real world health care use case with the technology drivers},
year={2015},
pages={1-8},
keywords={Internet of Things;biomedical equipment;database management systems;health care;hospitals;medical administrative data processing;middleware;protocols;IOT enabled smart autonomous hospital management system;Internet Of Things;application services;associated system data;critical incident data validation;data mapping;database;heterogeneous networking environment;medical devices data modeling;middleware;network architecture;process flow;real world health care use case;remote device coordination;standard communication protocol;technology drivers;workflow;Data models;Databases;Hospitals;Medical diagnostic imaging;Monitoring;Standards;Data Model;Healthcare;Hospital Management;IOT},
doi={10.1109/ICCIC.2015.7435678},
month={Dec},}
@INPROCEEDINGS{iot:healthcare1,
author={R. K. Kodali and G. Swamy and B. Lakshmi},
booktitle={2015 IEEE Recent Advances in Intelligent Computational Systems (RAICS)},
title={An implementation of IoT for healthcare},
year={2015},
pages={411-416},
keywords={Internet of Things;Zigbee;cloud computing;energy consumption;health care;medical information systems;power aware computing;protocols;Internet;Internet of Things;IoT based in-hospital healthcare system;IoT empowered devices;IoT implementation;ZigBee mesh protocol;care quality;cloud computing;healthcare system implementation;in-hospital patients;information acquisition paradigm;microcontrollers;power consumption;protocol stacks;real time medical information analysis;real time medical information communication;sensors;transceivers;ubiquitous medical information access;Biomedical monitoring;Internet of things;Medical services;Monitoring;Sensors;Wireless sensor networks;Healthcare;IoT;ZigBee;eHealth},