Pengembangan Sistem Informasi Pemasaran dan Penjualan Berbasis Web dengan Akses Mobile pada PT. Medisia Sainsindo

PT. Medisia Sainsindo is one of the companies engaged Information system, marketing, sales, mobile, waterfall in the distribution of medical equipment and laboratory in the Padang. The company distributes its products by using the services of a salesman to promote and deliver the customer order. Salesman also pick customer order directly from customer address that made additional time when processing customer order. Invoicing, are still done manually by sale division. Therefore Medisia need an information system as a means to undertake the marketing and ordering goods. The information system is built in the form of webbased applications with mobile access. Mobile applications are made for customers to make order. Only registered customer are able to by using mobile application. This information system is built by implementing waterfall method. Waterfall method starts from analysis process, design, implementation, and testing. BPMN and UML is used in analysis and design process. Results of the analysis and design used in the implementation process by using PHP programming language, PostgreSQL database, and Basic4Android for mobile application development. Final application is tested by using using blackbox testing method, which focuses on functional requirements of the system. The result of this research is a web absed marketing and sales information system. The system is also has mobile access throudh developed mobile application. The test result shows that this information system built has been designed accordance to the functional requirement and meets the needs of users. Keywords: Information system, marketing, sales, mobile, waterfal

Diagnosis of ECG arrhythmias in wireless telecardiology

Since many years ago, studies in the medical remote monitoring at home has taken a great consideration and care in wireless communication technology. The set of these studies is linked to needy people as aged ones, physically disabled in short time, in order to the adaptation with their environment domestically and build up their in capabilities. In this point of view, it is important to make a diagnostic in a real time and managed really the given data of patients between medical personnel with the permanent safety insurance of critical edge patients. Furthermore, the need to make a speed diagnostic of patients and to distinguish their health state with efficacy permits the gain of time in their taking off. Our attention has been aimed on the option of a relevant work. It concerns an function on a mobile terminal (MIDlet) for monitoring patient in a non-hospital environment. This article evokes a complete structural design of an economic wireless communication system with the implementation of an efficient algorithm, adapted to the mobile terminal, allowing to the doctor to have the results of analysis of ECG information wirelessly

Adaptation and application of the IEEE 2413-2019 standard security mechanisms to IoMT systems

Healthcare information systems are evolving from traditional centralised architectures towards highly-mobile distributed environments within the connected health context. The IoMT paradigm is at the forefront of this technological revolution underlying the development of communication infrastructures connecting smart medical devices, healthcare information systems and services. The IEEE 2413 standard, a promising general architectural framework for the design and implementation of IoT systems, has recently been announced. This standard proposes a general description for different types of domains, including healthcare, but it does not contain an extension developed for the IoMT systems domain. This paper presents a first approach to adapt the IEEE 2413 standard to the design of IoMT systems from a security perspective, considering the most relevant aspects of the standard for the construction of this type of systems. The application to an IoMT system for monitoring patients with chronic obstructive pulmonary disease is presented as a use case.Fundación Mutua MadrileñaSociedad Española de Diabete

Evaluation of the free, open source software WordPress as electronic portfolio system in undergraduate medical education

Background Electronic portfolios (ePortfolios) are used to document and support learning activities. E-portfolios with mobile capabilities allow even more flexibility. However, the development or acquisition of ePortfolio software is often costly, and at the same time, commercially available systems may not sufficiently fit the institution’s needs. The aim of this study was to design and evaluate an ePortfolio system with mobile capabilities using a commercially free and open source software solution. Methods We created an online ePortfolio environment using the blogging software WordPress based on reported capability features of such software by a qualitative weight and sum method. Technical implementation and usability were evaluated by 25 medical students during their clinical training by quantitative and qualitative means using online questionnaires and focus groups. Results The WordPress ePortfolio environment allowed students a broad spectrum of activities – often documented via mobile devices – like collection of multimedia evidences, posting reflections, messaging, web publishing, ePortfolio searches, collaborative learning, knowledge management in a content management system including a wiki and RSS feeds, and the use of aid tools for studying. The students’ experience with WordPress revealed a few technical problems, and this report provides workarounds. The WordPress ePortfolio was rated positively by the students as a content management system (67 % of the students), for exchange with other students (74 %), as a note pad for reflections (53 %) and for its potential as an information source for assessment (48 %) and exchange with a mentor (68 %). On the negative side, 74 % of the students in this pilot study did not find it easy to get started with the system, and 63 % rated the ePortfolio as not being user-friendly. Qualitative analysis indicated a need for more introductory information and training. Conclusions It is possible to build an advanced ePortfolio system with mobile capabilities with the free and open source software WordPress. This allows institutions without proprietary software to build a sophisticated ePortfolio system adapted to their needs with relatively few resources. The implementation of WordPress should be accompanied by introductory courses in the use of the software and its apps in order to facilitate its usability

LeaPhysio: games enhanced physical rehabilitation

In certain areas of the medical sciences, particularly in the field of physiotherapy, there is increasing needs on objective evaluation of the rehabilitation progress that creates new opportunities to the application of the ICT. As part of the new technologies the serious games are ones that can help the patient in the way of motivation that may help during recovery process. The dissertation describes the design, implementation and testing of "LeaPhysio - Games Enhanced Physical Rehabilitation system". This system may be used by the physiotherapists and patients during hand and finger rehabilitation process. Using highly interactive games, developed for Leap Motion controller natural user interfaces, it's possible to assess the patient's performance throughout different physical activities. Through the games, developed in Unity 3D, with controller support, it’s possible to obtain the patient performance data during the various training sessions. All information regarding training the established training plans, results and other data is stored on a remote server. The stored information can be accessed through a mobile application, developed in Android, for the physiotherapist, mobile application that can be also used for configuration of the serious games. The use of serious games allows the patient with motor impairments, produce a dynamic interaction and a different approach in the execution of traditional exercises in recovery treatment. The system allows an unlimited number of training sessions to be performed, which can be consulted at any time through the mobile application. In this way, it's possible to visualize historical values, and to compare the results of the different training sessions, analyzing their evolution

ShareABEL: Secure Sharing of mHealth Data through Cryptographically-Enforced Access Control

Owners of mobile-health apps and devices often want to share their mHealth data with others, such as physicians, therapists, coaches, and caregivers. For privacy reasons, however, they typically want to share a limited subset of their information with each recipient according to their preferences. In this paper, we introduce ShareABEL, a scalable, usable, and practical system that allows mHealth-data owners to specify access-control policies and to cryptographically enforce those policies so that only parties with the proper corresponding permissions are able to decrypt data. The design (and prototype implementation) of this system makes three contributions: (1) it applies cryptographically-enforced access-control measures to wearable healthcare data, which pose different challenges than Electronic Medical Records (EMRs), (2) it recognizes the temporal nature of mHealth data streams and supports revocation of access to part or all of a data stream, and (3) it departs from the vendor- and device-specific silos of mHealth data by implementing a secure end-to-end system that can be applied to data collected from a variety of mHealth apps and devices

A Mobile ECG Monitoring System with Context Collection

An objective of a health process is one where patients can stay healthy with the support of expert medical advice when they need it, at any location and any time. An associated aim would be the development of a system which places increased emphasis on preventative measures as a first point of contact with the patient. This research is a step along the road towards this type of preventative healthcare for cardiac patients. It seeks to develop a smart mobile ECG monitoring system that requests and records context information about what is happening around the subject when an arrhythmia event occurs. Context information about the subject’s activities of daily living will, it is hoped, provide an enriched data set for clinicians and so improve clinical decision making. As a first step towards a mobile cardiac wellness guidelines system, the focus of this work is to develop a system that can receive bio-signals wirelessly, analyzing and storing the bio-signal in a handheld device and can collect context information when there are significant changes in bio-signs. For this purpose the author will use a low cost development environment to program a state of the art wireless prototype on a handheld computer that detects and responds to changes in the heart rate as calculated form the interval between successive heart beats. Although the general approach take in this work could be applied to a wide range of bio-signals, the research will focus on ECG signals. The pieces of the system are, A wireless receiver, data collection and storage module An efficient real time ECG beat detection algorithm A rule based (Event-Condition-Action) interactive system A simple user interface, which can request additional information form the user. A selection of real-time ECG detection algorithms have been investigated and one algorithm was implemented in MATLAB [110] and then in Java [142] for this project. In order to collect ECG signals (and in principle any signals) the generalised data collection architecture has also been developed utilizing Java [142] and Bluetooth [5] technology. This architecture uses an implementation of the abstract factory pattern [91] to ensure that the communication channel can be changed conveniently. Another core part of this project is a “wellness” guideline based on Event-Condition-Action (E-C-A) [68] production rule approach that originated in active databases. The work also focuses on design of a guideline based expert system which an E-C-A based implementation will be fully event driven using the Java programming language. Based on the author’s experience and the literature review, some important issues in mobile healthcare along with the corresponding reasons, consequences and possible solutions will be presented

CAMMD: Context Aware Mobile Medical Devices

Telemedicine applications on a medical practitioners mobile device should be context-aware. This can vastly improve the effectiveness of mobile applications and is a step towards realising the vision of a ubiquitous telemedicine environment. The nomadic nature of a medical practitioner emphasises location, activity and time as key context-aware elements. An intelligent middleware is needed to effectively interpret and exploit these contextual elements. This paper proposes an agent-based architectural solution called Context-Aware Mobile Medical Devices (CAMMD). This framework can proactively communicate patient records to a portable device based upon the active context of its medical practitioner. An expert system is utilised to cross-reference the context-aware data of location and time against a practitioners work schedule. This proactive distribution of medical data enhances the usability and portability of mobile medical devices. The proposed methodology alleviates constraints on memory storage and enhances user interaction with the handheld device. The framework also improves utilisation of network bandwidth resources. An experimental prototype is presented highlighting the potential of this approach

Implementing Operations Support Systems in E-Health Based Systems

Information and communication technologies have been introduced in different dimensions of the health care. e-Health is the use of advanced communications technologies such as the Internet, portable, wireless and other sophisticated devices to support health care delivery and education. It has the potentials of improving the efficiency of health care delivery globally. With the increasing demand for information at the point of care, health care providers could explore the advances provided by mobile technologies and the increasing capabilities, compactness and pervasiveness of computing devices to adopt operations supports systems (OSS) in e-Health based systems in order to provide efficient services and enhance their performances. In this paper, we present, the development and implementation of operations supports in e- Health based systems. The system promises to deliver greater productivity for health care practitioner