| Authors |
Balahonova Svetlana Aleksandrovna, postgraduate student, Penza State University (40 Krasnaya street, Penza, Russia), svetlanapage@mail.ru
Bodin Oleg Nikolaevich, doctor of technical sciences, professor, sub-department of information and measuring equipment and metrology, Penza State University (40 Krasnaya street, Penza, Russia), bodin_o@inbox.ru
Loginov Dmitrij Sergeevich, candidate of technical sciences, leading software specialist, Ltd. «AVTOMATIKA plus» (21 Borodina street, Penza, Russia), loginov_d@inbox.ru
Lomtev Evgenij Aleksandrovich, doctor of technical sciences, professor, sub-department of information and measuring equipment and metrology, Penza State University (40 Krasnaya street, Penza, Russia), rectorat@pnzgu.ru
Safronov Maksim Igorevich, undergraduate student, Penza State University (40 Krasnaya street, Penza, Russia), safronov.maxim@inbox.ru
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| Abstract |
Background. The subject of the study are non-invasive methods of automatic evaluation of heart condition, based on the use of portable cardiological together with the "cloud" storage and data processing service patients at risk of cardiovascular disease. The aim of the study is to validate the approach to the development of a distributed system of automatic evaluation of heart condition.
Materials and methods. The article uses the methods of automatic evaluation of heart condition, the development of methods of health information systems and distributed databases.
Results. Within the three-tier structure of the automatic evaluation of the heart condition of the distributed system, consider the information interaction, algorithms of work, corresponding to modern requirements for security and resiliency. Distributed system of automatic evaluation of heart condition, based on the interaction between personal resources and cardiological cloud service for automatic evaluation of heart condition, allows timely diagnosis of the patient's condition, make timely call an ambulance and provide experts with all the necessary information about the patient.
Conclusions. At the present stage of development of science and technology are increasingly important information technology. At the same time, more attention is focused on IT-technologies that combine mobility and the ability to work remotely from virtually anywhere in the world. According to these trends is necessary to modernize and approaches to assessing the state of the heart. The functionality of a distributed system developed automatic evaluation of heart condition are to: Assessing the state of the heart on the server computer diagnostic system (CDS) "Kardiovid"; Providing remote access to patient data; First aid to the patient's location when necessary.
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