Friday, December 6, 2019
System Management For The Sydney Group Medical â⬠Free Samples
Question: Discuss about the System Management For The Sydney Group Medical. Answer: Introduction Implementing a software system in any organization is the way to update the existing system. Upgrading a traditional way of system demands the replacement of outdated ideas. This calls for utilizing IT resources, which are appropriate for the implementation. It is to be kept in mind that the system upgrading to the latest technology is built on the hope for the betterment of the efficiencies. This is only done to increase the level of the services provided to the clients (Abrahamsson et al. 2017). The following report would include the detailed idea of introducing new software for handling the medical system in the organization called Sydney Group or SG Medical System. The new system would have the provision for assigning a patient to the relevant doctor on duty including other organizational strategies regarding assigning patients. The system would also hold the details about a patient and the treatment records. With the help of the iTech center, the organization plans to develop th e software using the functionalities of Object Oriented Programs, which would further include all the records of the hospital staff in attending to specific patients. A schedule for development of the entire software is to be made providing specific period for development of the software along with the testing period. Data structure types The new software implementation in the system management for the Sydney Group Medical System requires holding the attributes of the registered doctors employed in the organization. This would have the attributes DoctorID and Specialty. The doctors admit the patients to the hospital and these patients would have the attributes of PatientID and PatientName. Assignment of a patient to the required doctors is dependent on the doctors. The software would have the provision of making a patient history and treatment details available to all the staff of the hospital and should be accessible from any computer in the organization (Chess et al. 2016). In addition, this software would provide the patients in booking appointments online both from the hospital website and from mobile application. Therefore, considering these requirements, it could be said that the appropriate data structure that could be used in developing the management software would be the basic record data structure. It has the ability to implement a collection of fields with varied data types taken in specific sequence (Bittencourt, Verter and Yalovsky 2018). A record database implemented in Object Oriented Programming provides the procedure to hold numerous records, having the ability to be viewed through the computer analog of a mathematical tuple. Selection of data modeling, method, explaining, and drawing the entities relationship at SG using standard notations Data Modeling: The data modeling, method used and the systems of the SG medical system being involved in the software according to the requirements of the software is represented in the Data Modeling chart as described below: Fig: Data Modeling for SG Medical Systems Entity Relationship Model of SG Medical System: The relationship between the different entities of the SG medical system being involved in the software according to the requirements of the software using standard notations is represented in an Entity Relationship diagram as below: Fig: Entity Relationship Diagram Discussion on the project schedule Scheduling is the process by which a project is handled according to the development procedure. A software development project cannot be handled properly if scheduling fails to fall on order. A scheduling plan defines the exact deliverables of a project according to the given time including the milestones that has to be delivered in the project timelines. Scheduling delivers the guidance and pathway for a project to progress (Hossain et al. 2016). It is necessary that the system management include a proper scheduling program according to the requirements of the software development for the SG Medical System. The proposed planning of schedule helps to monitor the problems due to which a project does not meet the time proposed. The scheduling do not represent an actual project but is an estimation of how a task is to be completed, at what time period and what resources should be used for the completion of the tasks. Reasons for the reasonable project schedule The software development of the hospital management system of SG Medical System has a proposed schedule of four months for the entire project. This would include three months for the development of the software and coding while one month for the testing of the software (Venugopal, Mathai and Abraham 2015). As the requirements of the project are concerned, it is essential that the rigorous testing of the software be done to avoid any data redundancies in the generation of patient bills (Turk, France and Rumpe 2014). According to the requirements, the appointed doctors would admit the patients to the hospital. There is no bound on the number of patients admitted by a doctor. Therefore, chances are there that data duplicity may appear (Ying and Lei 2014). Testing for one month would rectify any mistakes that have been there in the coding and development of the software. The Project Schedule would include the following: Conceptual phase: 15 days Front End Design phase (Level 1Level 3 Prototyping): 15 days Front End Implementation phase: one month Back End Implementation phase: one month Redesign phase: Redesign Reengineering: 15 days Testing phase: One Month Selection of suitable system development methodology with justification It is required that before continuing with development methodology, project requirements are checked thoroughly with the clinical context and the environment of the Medical System, the primary and secondary user ends and the mapping of stakeholders. It is possible only then to acquire a feasible user interface and system development (Thm et al. 2014). The open source software that is being developed in this context is suggested according to many literatures as per researches. This allows any user to contribute to the software even without being in the same location. Hospital admissions may occur out of medical emergencies even out of the hospital. Participation in the admission process can happen at any time from any place irrespective of presence in the hospital. The more compact the systems get with time; it would implement standard development technologies as appropriate. If the methodology is deviated, it may be possible that time constrains or team shortage may occur as a result. However, by using the SCRUM methodology, the doctors end could be developed (StClair et al. 2015). Since, the project requirements state that it should be the decision of a doctor about how many patients to be admitted and it would depend on them if they would attend to any patient appointed to them. Detailed activities at each phase of the selected methodology for project development The software development process would depend on the selected methodology and this would include the steps that will be discussed further in details. The project manager and developer would implement the SCRUM methodology at first to decide the features to be incorporated in the software. Since the Sydney Group assigns the project, therefore, it is assumed that the project ownership would belong to the organization (Alexandros et al. 2017). Any alterations to the requirements depend upon the organization. However, the stakeholders of the organization mostly belong to the medical background people. It can be assumed that their IT skills are not polished enough to understand technical complexities, and hence, the project head and the executive need to work as a team (Sanchez-Gordon, Snchez-Gordn and Lujn-Mora 2016). The project development would require seamless communication between these people. Along with the process development, the advancement of the project should be documented to have a documented description about the flowcharts and the project advancement (Jan et al. 2016). The remaining system was utilized to generate the system requirements. The developer and the tester utilized their own sense of the general requirements of the software to bridge the gap of the lack in details. The shortcomings in the existing system were solved by the prototype testing and formulated the requirements. The data entity relationship of the database was provided in Comma Separated Values or CSV with three databases (Naz et al. 2016). These are the database of the existing system, the database of the new system and the database containing dynamic data for testing. The data migration details are described as below: Before Start of Parallel Run During Parallel Run Before the cutover Cutover After the Cutover Existing System Database Current Database Update Freeze data Migrate Dynamic data Discard data New System Database (Test) Sample data: Static to Dynamic Update Discard data Discard data Discard data New System Database (Production) Static data: Current dynamic data No Update Freeze Data Static data: Current Dynamic Data Update data Table: Data Migration Technique Techniques, models and tools to support the project development activities It is essential to check the project development activities to see if the project plans are being effectively executed according to the project schedule (Verner et al. 2014). The project needs to be monitored for further checking of the probability of risks and measures taken to tackle them in the process. These monitoring processes include the Program Evaluation Review Technique or PERT for controlling the tasks necessary for the project and the Gantt chart for reviewing the project timeline (Lesser and Ban 2016). Defining and controlling of the task is done by PERT charts. PERT needs to implement the following steps to maintain the project development activities: Identification of the specific requirement activities and milestones achieved Determination of the sequence of the activities required Construction of the network diagram that would implement the data modeling plans Estimation of the time required for completing each activity, including the optimistic time, the most-likely time and the pessimistic time Determination of the critical path with earliest start time, earliest finish time, latest start time and latest finish time The Gantt chart implementation would help in determining the time taken to complete the task of developing the software for the Sydney Group hospital management (Keyes 2016). The implementation could be done in the following way: All the activities of the plan would be listed The timeline would include the days and weeks required for the allotted tasks The tasks would be plotted on to a graph Activities would be scheduled accordingly to gain a work development graph Recommendation According to the findings, it is recommended that the software development program for Sydney Group Medical Centre should be continued for total implementation. The techniques applied to carry on with the project planning and implementation of the software program. The program might face challenges, as the users of the interface in the end would be of medical background. This recommends that the developers make the software as agile and flexible as possible. The feasibility of using it effortlessly would generate positive feedback from the users, therefore it is recommended that the developers create the software making it as less complex as possible. Conclusion Therefore, it can be concluded from the report as discussed, that the Sydney Group Medical System should implement the new software to ease the admission of patients in the hospital. The software would enable the easy admissions of patients from the appointed doctors end. The software would provide the doctor to admit a patient on his or her own will, even assigning a patient to a doctor. Right from the admission process, the management software is capable of delivering flexibility, as the admission process is not confined only to a static entry from a device. The software is to be made available from all the connecting devices dynamically. However, it can be possible, that since the users are from medical background, the software could be difficult to use for them since they are not used to IT complications. Therefore, if the developers make the software easy to use it would be accessible to the users as well. The software would also comprise of the billing systems based on the info rmation of the treatment of each patient including their patient ID and the appointed doctor. The system would transfer to the administrator through the hospital reception employees. References Abrahamsson, P., Salo, O., Ronkainen, J. and Warsta, J., 2017. Agile software development methods: Review and analysis.arXiv preprint arXiv:1709.08439. Alexandros, N.K., Sakas, D.P., Vlachos, D.S. and Dimitrios, N.K., 2017. Comparing Scrum and XP Agile Methodologies Using Dynamic Simulation Modeling. InStrategic Innovative Marketing(pp. 391-397). Springer, Cham. Bittencourt, O., Verter, V. and Yalovsky, M., 2018. Hospital capacity management based on the queueing theory.International Journal of Productivity and Performance Management, (just-accepted), pp.00-00. Chess, B., Do, A., Fay, S. and Thornton, R., Hewlett-Packard Enterprise Development LP, 2016.Apparatus and method for developing secure software. U.S. Patent 9,400,889. Hossain, M.S., Halim, M.A., Rahman, M.M. and Alam, K., 2016. A Method to Specify Requirements for A Hospital Management Software.The Indonesian Management Accounting Research (IMAR),5(1), pp.79-90. Jan, S.R., Shah, S.T.U., Johar, Z.U., Shah, Y. and Khan, F., 2016. An Innovative Approach to Investigate Various Software Testing Techniques and Strategies.International Journal of Scientific Research in Science, Engineering and Technology (IJSRSET), Print ISSN, pp.2395-1990. Keyes, J., 2016.Social software engineering: development and collaboration with social networking. Auerbach Publications. Lesser, E. and Ban, L., 2016. How leading companies practice software development and delivery to achieve a competitive edge.Strategy Leadership,44(1), pp.41-47. Naz, R., Khan, M.N.A. and Aamir, M., 2016. Scrum-Based Methodology for Product Maintenance and Support.IJEM-International Journal of Engineering and Manufacturing (IJEM),6(1), p.10. Sanchez-Gordon, S., Snchez-Gordn, M.L. and Lujn-Mora, S., 2016, April. Towards an Engineering Process for Developing Accessible Software in Small Software Enterprises. InENASE(pp. 241-246). StClair, W.G. and StClair, S.A., LDRA Tech Inc, 2015.Automated management of software requirements verification. U.S. Patent 8,949,770. Thm, T., Kstner, C., Benduhn, F., Meinicke, J., Saake, G. and Leich, T., 2014. FeatureIDE: An extensible framework for feature-oriented software development.Science of Computer Programming,79, pp.70-85. Turk, D., France, R. and Rumpe, B., 2014. Limitations of agile software processes.arXiv preprint arXiv:1409.6600. Venugopal, R., Mathai, M.K. and Abraham, J.T., 2015. SCRUM METHODOLOGY IN HUGE PROJECTS.BHARATA MATA JOURNAL of Multidisciplinary Studies, p.82. Verner, J.M., Brereton, O.P., Kitchenham, B.A., Turner, M. and Niazi, M., 2014. Risks and risk mitigation in global software development: A tertiary study.Information and Software Technology,56(1), pp.54-78. Ying, F. and Lei, G., 2014, June. Optimal scheduling simulation of software for multi-tenant in cloud computing environment. InIntelligent Systems Design and Engineering Applications (ISDEA), 2014 Fifth International Conference on(pp. 688-692). IEEE.
Subscribe to:
Post Comments (Atom)
No comments:
Post a Comment
Note: Only a member of this blog may post a comment.