Design of context-aware middleware for mobile healthcare services

This article describes how the exponential growth of mobile applications has changed the way healthcare services function, and mobile healthcare using the Cloud is the most promising technology for healthcare industry. The mobile healthcare industry is in a continuous transition phase that requires continual innovation. There has been identified some of the challenges in the area of security protocols for mobile health systems which still need to be addressed in the future to enable cost-effective, secure and robust mobile health systems. This article addresses these challenges by proposing a secure robust and privacy-enhanced mobile healthcare framework (SRPF) by adopting a Community Cloud (CC), WPKI cryptosystems, Universal Integrated Circuit Cards (UICCs) and a Trusted Platform Module (TPM). All the security properties are provided within this framework. SRPF overcomes replay attacks, Man in the Middle (MITM) Attacks, Impersonation attacks and Multi-Protocol attacks as SRPF was successfully verified using a scyther tool and by BAN logic.

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Influence of Locus of Control and Belief in Health Promotion Behavior on the Intention to Use Mobile Healthcare Services

Journal of Marketing Management Research ◽

10.37202/kmmr.2019.24.2.55 ◽

2019 ◽

Vol 24 (2) ◽

pp. 55-71

Author(s):

Hyeyoon Bae ◽

◽

Sang Hyun Jo ◽

Euehun Lee

Keyword(s):

Health Promotion ◽

Locus Of Control ◽

Healthcare Services ◽

Intention To Use ◽

Mobile Healthcare ◽

Health Promotion Behavior

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Mobile Healthcare Computing in the Cloud

Mobile Networks and Cloud Computing Convergence for Progressive Services and Applications - Advances in Wireless Technologies and Telecommunication ◽

10.4018/978-1-4666-4781-7.ch015 ◽

2014 ◽

pp. 275-294 ◽

Cited By ~ 1

Author(s):

Tae-Gyu Lee

Keyword(s):

Information Management ◽

Wearable Computing ◽

Computing System ◽

Healthcare Services ◽

Data Generation ◽

Computing Environment ◽

Computing Systems ◽

Mobile Healthcare ◽

Data Capacity ◽

Generation Cycle

Previous medical services for humans provided healthcare information using the static-based computing of space-constrained hospitals or healthcare centers. In contrast, current mobile health information management computing and services are being provided so that they utilize both the mobility of mobile computing and the scalability of cloud computing to monitor in real-time the health status of patients who are moving. In addition, data capacity has sharply increased with the expansion of the principal data generation cycle from the traditional static computing environment to the dynamic computing environment. This chapter presents mobile cloud healthcare computing systems that simultaneously leverage the portability and scalability of healthcare services. This chapter also presents the wearable computing system as an application of mobile healthcare.

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The mHealth Stack

Emerging Communication Technologies for E-Health and Medicine ◽

10.4018/978-1-4666-0909-9.ch001 ◽

2012 ◽

pp. 1-17

Author(s):

Benjamin Falchuk ◽

David Famolari ◽

Russell Fischer ◽

Shoshana Loeb ◽

Euthimios Panagos

Keyword(s):

Mobile Devices ◽

Mobile Phones ◽

Healthcare Services ◽

Cloud Services ◽

Healthcare Applications ◽

Patient Centered ◽

Mobile Healthcare ◽

Care Givers ◽

Current Usage

Applications accessible through mobile devices, such as mobile phones, are playing an increasingly important part in the delivery of high quality and personalized healthcare services. In this paper, we examine current usage of mobile devices and networks by mobile healthcare applications, and present our views on how mobile devices and networks could be used for creating patient-centered healthcare applications. The patient-centered healthcare paradigm allows for increased quality of care and quality of life for patients while increasing personal freedom to move about and be always connected to care-givers and healthcare services. The structure of our discussion is analogous to layered protocol stack in communications, progressing from the network and radio technologies, servicing middleware, cloud services, health sensors, mobile smartphones, and applications. All these layers come into play to support future mobile healthcare services.

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Development, Integration, and Deployment of Mobile Information Services in Healthcare

Integrated Information and Computing Systems for Natural, Spatial, and Social Sciences ◽

10.4018/978-1-4666-2190-9.ch012 ◽

2012 ◽

pp. 242-261

Author(s):

Jelena Mirkovic ◽

Haakon Bryhni

Keyword(s):

Healthcare Delivery ◽

Quality Of Healthcare ◽

Healthcare Services ◽

Research Field ◽

Security And Privacy ◽

Healthcare Sector ◽

Mobile Healthcare ◽

Mobile Access ◽

User Friendly ◽

Mobile Information Services

The use of mobile and wireless technologies has great potential to improve the efficiency and quality of healthcare delivery. The main goal of this chapter is to describe the current state of the art in the research field of development and integration of mobile services in the healthcare sector by addressing the two main challenges: usability and security. The authors investigate the main requirements and approaches for developing highly usable, user-friendly, and well-accepted mobile healthcare services. In addition, they identify various ways of addressing security and privacy issues in mobile healthcare services and discuss the advantages and shortcomings of each approach. Finally, the chapter presents the CONNECT (Care Online: Novel Networks to Enhance Communication and Treatment) project and describes how security and usability issues can be addressed during the development of mobile access to a multi-modal Internet-based patient support system.

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The Context-Security Nexus in Ubiquitous Computing

Leadership and Personnel Management ◽

10.4018/978-1-4666-9624-2.ch030 ◽

2016 ◽

pp. 660-679

Author(s):

M. Fahim Ferdous Khan ◽

Ken Sakamura

Keyword(s):

Access Control ◽

Ubiquitous Computing ◽

Context Awareness ◽

Contextual Information ◽

Healthcare Services ◽

Context Aware ◽

Context Sensitive ◽

Access Control Models ◽

Spatio Temporal ◽

The Right

Context-awareness is a quintessential feature of ubiquitous computing. Contextual information not only facilitates improved applications, but can also become significant security parameters – which in turn can potentially ensure service delivery not to anyone anytime anywhere, but to the right person at the right time and place. Specially, in determining access control to resources, contextual information can play an important role. Access control models, as studied in traditional computing security, however, have no notion of context-awareness; and the recent works in the nascent field of context-aware access control predominantly focus on spatio-temporal contexts, disregarding a host of other pertinent contexts. In this paper, with a view to exploring the relationship of access control and context-awareness in ubiquitous computing, the authors propose a comprehensive context-aware access control model for ubiquitous healthcare services. They explain the design, implementation and evaluation of the proposed model in detail. They chose healthcare as a representative application domain because healthcare systems pose an array of non-trivial context-sensitive access control requirements, many of which are directly or indirectly applicable to other context-aware ubiquitous computing applications.

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Context-Aware Task Distribution for Enhanced M-health Application Performance

Mobile Health Solutions for Biomedical Applications ◽

10.4018/978-1-60566-332-6.ch015 ◽

2010 ◽

pp. 285-307

Author(s):

Hailiang Mei ◽

Bert-Jan van Beijnum ◽

Ing Widya ◽

Val Jones ◽

Hermie Hermens

Keyword(s):

Distributed Processing ◽

Task Assignment ◽

Mobile Systems ◽

Context Aware ◽

Application Performance ◽

Dynamic Task ◽

Mobile Healthcare ◽

Decision Mechanism ◽

Graph Mapping ◽

Health Application

Building context-aware mobile healthcare systems has become increasingly important with the emergence of new medical sensor technologies, the fast adoption of advanced mobile systems, and improved quality of care required by today’s patients. A unique feature of our mobile healthcare system is a distributed processing paradigm whereby a set of bio-signal processing tasks is spread across a heterogeneous network. As well as applying the traditional adaptation methods such as protocol adaptation and data prioritization, the authors investigate the possibility of adaptation based on dynamic task redistribution. In this chapter, the authors propose an adaptation middleware that consists of a task assignment decision mechanism and a task redistribution infrastructure. The decision mechanism represents task assignment as a graph mapping problem and searches for the optimal assignment given the latest context information. Once a new assignment is identified, the member tasks are distributed accordingly by the distribution infrastructure. A prototype implementation based on the OSGi framework is reported to validate the task redistribution infrastructure.

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Operating Secure Mobile Healthcare Services over Constrained Resource Networks

Emergent Computation - Emergence, Complexity and Computation ◽

10.1007/978-3-319-46376-6_16 ◽

2016 ◽

pp. 361-391

Author(s):

Anne Kayem ◽

Patrick Martin ◽

Khallid Elgazzar ◽

Christoph Meinel

Keyword(s):

Healthcare Services ◽

Mobile Healthcare ◽

Resource Networks

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Mobile healthcare services in school-based health center

International Journal of Medical Informatics ◽

10.1016/j.ijmedinf.2008.11.002 ◽

2009 ◽

Vol 78 (6) ◽

pp. 425-434 ◽

Cited By ~ 11

Author(s):

Wen-Yuan Jen

Keyword(s):

Health Center ◽

Healthcare Services ◽

Mobile Healthcare ◽

School Based

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Performance Modeling of Proposed GUISET Middleware for Mobile Healthcare Services in E-Marketplaces

Journal of Applied Mathematics ◽

10.1155/2014/248293 ◽

2014 ◽

Vol 2014 ◽

pp. 1-9 ◽

Cited By ~ 9

Author(s):

Alaba Olu Akingbesote ◽

Mathew Olusegun Adigun ◽

Sibisuso Xulu ◽

Edgar Jembere

Keyword(s):

South Africa ◽

Waiting Time ◽

Queuing Theory ◽

Performance Modeling ◽

Healthcare Services ◽

Pricing Strategy ◽

Preemptive Priority ◽

Mobile Healthcare ◽

Utility Services ◽

Priority Model

GUISET is a proposed middleware engine currently under study in South Africa. The goal is to provide utility services for small, medium, and macroenterprises in the context of mobile e-services. Three things are important to make this engine effective and efficient: the implementation, performance, and the pricing strategy. The literature has delved richly into implementation issue of similar projects. Both the performance and the pricing strategy issues have not been fully discussed especially in the context of mobile healthcare services. Some literature has addressed the performance issue using the exogenous nonpriority and the preemptive model. However, with providers offering different services using that approach may prove to be difficult to implement. This work extends existing and widely adopted theories to non-preemptive model by using the queuing theory and the simulation model in the context of mobile healthcare services. Our evaluation is based on non-preemptive priority and nonpriority discipline. Our results reveal that the unconditional average waiting time remains the same with reduction in waiting time over the non-preemptive priority model in four out of the five classes observed. This is envisaged to be beneficial in mobile healthcare services where events are prioritized and urgent attention is needed to be given to urgent events.

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