Cloud Security Analysis for Health Care Systems (original) (raw)
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Routing and Security Issues in U-Healthcare Mobile, Ubiquitous and Wireless Body Area Network (WBAN
International Journal of Advanced Science and Technology, 2017
The ratio of aging and chronic diseases is increasing day by day; therefore, the people are interested in better health management. They are interested in patient-centered methods instead of the traditional and conventional hospitalized services. The idea of U-Healthcare is getting popularity. The U-Healthcare is responsible for the observations of different states of health during running, walking, and jogging. Researchers and developers are focusing on a telemedicine system composed of Mobile, Ubiquitous and Wireless Body Area Network. The U-Healthcare system is still a little bit vague and obscure, and due to the shortcomings, the complete adoption of the U-Healthcare system is not possible. So, for this purpose, we just need to take the inclusion of latest, well-sophisticated hardware, communications, interconnections, trademark computing, advanced routing and privacy to the upcoming child of U-Healthcare based on Mobile, Ubiquitous and Wireless Body Area Network. In this paper, we have critically analyzed the relevant papers on Mobile, Ubiquitous and Wireless Body Area Network specifically in terms of the routing and security issues.
U-healthcare System Deployment
2011 IEEE 11th International Conference on Bioinformatics and Bioengineering, 2011
Wireless Sensor Network is one of the 21 ideals in 21 century[9], and health care is one of its many applications. Generally speaking, there are two keys for the successful construction of Wireless Sensor Network, one it the editing of appropriate data transfer protocol at the front end of the network, the next is the possession of robust database and effective network platform in the back end that can meet the need of the users. Based on the above two requirements, the customized wireless physiological sensor network designed by this research is based on the real environment of health care room, under the premise of "customer is number 1", comfortable equipment, effective database and simple network system are used to achieve the objective of omnipresent health care. Based on the experience and technology obtained from this real application, we hope to build more complicated Uhealthcare system to be used by the health service center.
A Design of U-Health System on Smart Phone Using ISO/IEEE 11073 PHD Standard
In these days, U-Health indicates that health care and medical services can be applied in real-time with the support of wired and wireless communication technology. It has emerged to give solutions for many social issues including medical expenses, aging of populations, and the absence of medical experts. In the case of Mobile, U-Health system is a service in which the mobile device provides to user an interface to interact with standalone medical devices. However, most medical devices adopt heterogeneous protocols and standards which fully depend on their manufacturers. To solve this issues, a standard ISO/IEEE 11073 PHD(Personal Health Device) has been developed by IEEE Personal Health Data Working Group. This standard provides techniques to assure compatible extensibility of the U-Health system by defining the standards which are responsible for managing and exchanging health information of the user between PHD and remote servers. For this reason, we designed a U-Health system on smart phone using the ISO/IEEE 11073 PHD standards, and secured communicate with SSL through the web interface. Then, we implemented a management application on smart phone using ISO/IEEE 11073 PHD standard in order to assure compatible extensibility among other types of PHDs from various manufacturers. Based on the result achieved from our implementation, the proposed U-Health system could be utilized as a realtime service which could be deployed in mobile environment from the reality.
2019
Healthcare systems defines the standards for health facilities to communities. Therefore, it is of equal importance to everyone. In addition, it included in every fields of technology such as Internet of Things (IoT), Body Area Networks (BANs), Big Data, Context Aware Computing as well as Machine Learning. Therefore, researchers have opportunity to contribute towards well-being smart society easily. E-health on other hand is trying to provide remote access and availability of Wireless BANs (WBANs) facilities. Since, the tiny economical sensors are attached to body (either by implant or wearable fashion) to monitor the health parameters and act accordingly. Therefore, WBAN standards need special attention for optimization. In our previous work, we have proposed relaying protocol, while in this work we aim to extend the relaying protocol to WBANs in order to achieve better performance and safeguard the Master Node (MN). In order to make ubiquity, we propose to extend this work to smal...
Advanced verification on WBAN and cloud computing for u-health environment
Multimedia Tools and Applications, 2014
The Wireless Body Area Network (WBAN) that can collect measured vital signs through sensors enables continuous monitoring of the elder and of chronic diseases. As smart devices become popular, development of the WBAN becomes easier. Our research implemented an integration platform that consists of WBAN and cloud computing based on the Transmission Control Protocol (TCP). We optimized the WBAN and the TCP as a sampling rate control. A sampling rate is the number of transfer data per second. The sampling rate is an important factor in the resolution of waveforms, though high sampling rates can cause a decline in network performance. A smart device performs three threads, such as Bluetooth, main, and TCP. The Bluetooth thread was implemented to collect vital signs from sensing nodes. The main thread performs computations for drawing waveforms and transmits data to the TCP thread. The TCP thread transmits vital signs to a server. We verified our proposed integration platform with formal verification and simulation. We expect to contribute to the platform development of WBAN and to cloud computing. Keywords Wireless body area network. Cloud computing. u-Health. Smart device. Bluetooth 1 Introduction As populations age, the demands for medical systems for the elderly and for treating chronic diseases will increase. Medical systems that enable continuous monitoring will be essential for treating chronic diseases and the elderly and. Caregivers can monitor their patients' vital signs daily using systems that combine medical technologies and information communication technologies. These systems are the basis for ubiquitous health (u-Health) [13]. u-Health services provide attractive and effective means for solving problems in health and medical services without interrupting the relationship between people and their environment. u-Health Multimed Tools Appl
Smart Healthcare System: A Primer
IJIRMF, 2019
Smart healthcare system also known as Internet of Things (IoT)-based healthcare system is the abbreviation for Self-directed, Motivated, Adaptive, Resource-enriched, and Technologies-embedded (SMART) healthcare. This smart healthcare system is not smart device healthcare, but rather a medical paradigm shift for digital natives. IoT and cloud-based healthcare services promote patients’ monitoring and good healthcare delivery which are important to the 21st century healthcare services. But many healthcare institutions do not understand how germane the application of these technologies is to the healthcare delivery to promote patients’ monitoring and good healthcare delivery which are important to the 21st century healthcare services. The only option left to face the challenges confronting monitoring and delivering of ideal medical services in the 21st century by healthcare providers is the application of these technologies. The understanding of the use of these devices, applications, and services do not only help patients know how to manage their health and life for good purpose but assists healthcare providers to reduce emergency cases, track patients, staff, and inventory; enhance drug management for the overall control of epidemics. Also, the understanding of the use of these technologies helps in simultaneous reporting and monitoring, end-to-end connectivity and affordability, data assortment and analysis, remote medical assistance, tracking and alerts. Devices involving hardware and software technologies for smart healthcare system are revealed to enhance medical service delivery to both in-patients and out-patients. Findings show that cell phone with radio-frequency identification (RFID)-sensor capabilities can serve as a platform for ideal healthcare delivery. Healthcare data insecurity and privacy through multiple devices and protocols are the major limitations of IoT applications in healthcare delivery noticed in the course of this study. This is a serious issue as vital information about patient which is in the cloud can only be accessible through IoT multiple devices and protocols.
AIP Conference Proceedings
This paper focuses on review of Design & Development of Health-care Patient Monitoring System using cloud Environment In traditional method of patient monitoring the patients physiological information is on paper recorded by the nurses. As these nurses work on shift basis the latest details of the patient may not be completely explained from outgoing to incoming nurse. Many times the diagnosis is made based on manually recorded physiological information and the prescription was noted without concern with tolerant current medical records. With such conventional method diagnoses as well as the recommendation are noted against the law, which does not permit to do experts to have an easy entry to tolerant record. With such scenario it is bit difficult to diagnose the patient correctly for the proper treatment. This leads to the expansion of store and ahead at least under ICU environment. With such system the patient's normal functioning in the form of space-time records of biological event are seize, stored for as long as to the experts for unplugged. To facilitate population living in rural as well as interior part of the country with portable battery operated Telemetric unit. To provide flexibility to such patients to have distant medical checkups as well as continuous patient monitoring. shows methodology and basic idea about how the sensors, actuatorsconnected to processor which able to process the signal in proper graphical physiological parameters of patients displayed on monitor by Java Programming technique later its connected to wireless sensor network then sent to web server to the experts present on another side. During this COVID-19 pandemic situation, biomedical healthcare Monitoring System is very helpful for those patients where vehicles, transportation and continuous monitoring is necessary .
Smart Healthcare Monitoring System
Wireless Personal Communications, 2018
Health monitoring systems are valuable because of the chance of ideal and proficient medical care administrations. These systems depend on cutting edge remote and wearable sensor innovations. The fast development in innovation has surprisingly upgraded the extent of far-off well-being checking frameworks. In this paper, a constant health observing system is created thinking about the expense, simplicity of utilization, precision, and information security. It provides constant remote bio-signals observing systems dependent on the Internet of Things (IoT) innovation. The system is conceptualized to give an interface between the specialist and the patients for two-way correspondence. The Number of individuals who require medical services increases day by day and the regular monitoring systems require patient's participation face to face inside medical clinics. This may create a wasteful circumstance to deal with the patients, particularly the individuals who have basic and unsteady ailments. Subsequently, web innovation alongside present-day electronic gadgets could offer promising arrangements in this field. In view of that, this venture uses a versatile application as an IoT stage to screen distantly the live ECG signal, heart rate and the body temperature of the patient. The signals are estimated and prepared by utilizing a microcontroller-based gadget (Arduino) and sent to the cloud using ESP8266 microcontroller and the location is monitored by the GPS module. The principal reason for this study is to work with the far-off heart patients in getting the most recent medical care administrations which probably won't be conceivable in any case because of low specialist-to-patient proportion.
Security of Healthcare Data At Rest In Cloud with Mobile Health Monitoring System
Mobile health (mHealth)monitoring using Cloud, applies the common mobile communications and cloudcomputing technologies to provide feedback decision support, which has beenconsidered as a new approach to improve the quality of healthcare service whilelowering the healthcare cost. Unfortunately it is also at a position of serious risk on both clients/ mobile user’s privacy and intellectual property of monitoring service providers, which could prevent the wide adoption of mHealth technology. Mobile health monitoring system provides an ease of efficient information flow and security to information from user to the company (our system) and vice versa.
Healthcare information system using cloud security
International Journal of Engineering & Technology, 2018
Almost all the human living in Earth forgets to take care of their health. To say specifically, the elder ones and the younger ones need con-tinuous examination to note down the variation in their health issues (either improvement or a decrement). This can be achieved through the digitalization of the data. In the present day scenario information security and privacy in healthcare systems is an issue that is growing at alarming rate. The espousal of digital records of the patient, the enlarged order, provider integration and the growing need to exchange in-formation between patients, providers and payers each targets at the necessity for a developed information system. Inspite of so many measures taken to prevent the theft of patient's healthcare records offenders find some loophole or the other to get the records. This article strives to list certain health issues faced by a majority of people, threats to HIS, the method adopted to store huge amount of data and measures to prev...