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The heterogeneity of e-health systems encourages the use of standards such as Health Level 7 (HL7v3) to ensure interoperability. Many actual implementations address this problem by unoptimized high level programming of top-range portable computing platforms. However, this approach could pose excessive demands on battery-powered mid-range terminals....
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... They demonstrate the viability of this approach through simulations of the target hardware platform [8]. ...
Abstract
E-health is a large domain of research and applications of Information and
Communication Technologies (ICT), not only in Medicine, but in the broad field
of healthcare, including homecare and personalized health. E-health can be broadly
defined as the application of information and communication technology (ICT) to
health and healthcare. A web application typically comprises of front end (web
pages) and a backend (database) with which user interact through the browser.
Therefore, in this project, interactive web-based E-health record management
system was designed to serve the citizens in the first instance and the second-class
doctor and to organize an electronic card for each citizen, including information
about the patient and when using the system, access to the site of the health center
electronically and contact the doctor concerned. The sick citizen can also book an
appointment to visit the doctor surgical procedures or the date of examination
through electronic medical devices and also the possibility of contacting
ambulances and to know the numbers of phones in the event of emergency and
urgent situations.
In the system that was designed, KDD, data warehouse and OLAP were used
to achieve an individual medical analysis and then a community analysis for
community health management to be processed scientifically and accurately using
modern communication devices to establish communication between the patient
and the doctors and the workers in health sector to provide time and effort for
remote and rural areas.
Also, in order to provide correct access to the records of the patient and the
proposed system data and information, suggestion of authentication method is
presented. The proposed authentication method uses MD5 hash function, triple
DEC encryption method and mathematical calculation.
The recent trends of remote monitoring and controlling prove that embedded system has drastically changed the data acquisition. In today's busy life it becomes very difficult to monitor data continuously by users. So, concepts of threshold is use to provide any change in data to users by alert. A significant value is considered as threshold set by C program and shell scripts. If data crosses the threshold value embedded system activate alert system to send SMS to register client making system secure. The main core of this paper present dynamic internet protocol (IP) based ARM9 embedded Webserver (EWS) for data acquisition in scale down version Linux. Dynamic IP obtain for EWS through GPRS of USB modem attached with system. Information stored in EWS sent alert SMS to client. Client as well able to access real time data, otherwise also it is accessible all time. Updated Dynamic IP of EWS is obtained from static dummy server. Direct access between user and EWS reduces interaction delay. Analysis of time delay of interaction is done and provided results proving system is real time. Test results are verified for different dynamic IPs and presented.
The system is designed for society apartment where there are number of flats. Using static IP based embedded webserver (EWS) for each flat individually is costly matter and cannot afford a common man. So a novel approach of using dynamic internet protocol (IP) for each individual flat is described in this paper. Dynamic IP are freely available in network provided by internet service provider (ISP).The developed work consists of apartment with many flats each of which consists of dynamic IP based EWS on embedded board (EB).All these EWS stored their information for backup in one static server which uses static IP. The use of this static server is for registration of clients and storing backup information in case of any damage or reset. The static server provides updated information otherwise acts as dummy server. Thus, costly system is made low cost by use of dynamic IP and single dummy static server. Client can access data and controlling of EB real time by direct communication. C and shell script program perform file transfer, java script provides background for designing html webpages. The performance of system is verified for different dynamic IPs and presented here.