All your Writing needs covered

A Case Study Of James Healthcare Centre

Calculate the price
your order:

275 words
Approximate price
$ 0.00

A Case Study Of James Healthcare Centre Question: Discuss about a Case Study of James Healthcare Centre.     Answer: Functional And Non-Functional Requirements Functional Requirements The functional requirements that have been identified for JHC’s (James Healthcare Centre) new information system are listed as below: Electronic Medical Records (EMR):  It is referred to the documentation that is associated with the data of patients to be stored in the information system. The information system will hold personal information of the patient along with the record of their treatment information. The tests, diagnosed diseases along with other information related to health conditions will be stored within the EMR. The storing of such information related to patients will facilitate monitoring of data over the time. This module in the system will help to keep track of the certain parameters on the health of a patient such as blood pressure at a regular interval. Database: The database acts as the backend platform for any system which is required for storage of information. The database for the new information system will comprise every record starting from EMR to payroll of the employee. There will be a centralized database associated with the system so that it can be accessed by the every user according to their predefined roles and authorization. There will be implementation of methods like verification and validation for checking the accuracy and reliability of the data that is being input prior to storing in the database. The encryption of the database is also required for increasing the security of the information residing in the database.   Clinical Decision Support System (CDSS): It is referred to as the application that can be used to analyze data such that healthcare providers can make decisions. The decisions will relate to the clinical procedures that must be followed in context to the present health conditions of the patient. This module will be aggregated as a part of decision support system in the new information system. The existing employees such as nurses, physicians along with other healthcare professionals in JHC (James Healthcare Centre) will be able to utilize the CDSS so as to prepare a diagnosis and reviewing that for enhancing the required outcome. Different protocols will be used by CDSS for utilizing the data of patients with the help of an interface engine. The system will display only the information that is authorized according to the user access level. Data Mining: This is an essential concept related to big data sets or large databases in context to the any information system. The mining of data will be processed by information system of the organization so as to evaluate the medical history of patients and associated clinical research that is relevant for the present context. Data mining will be used by the organization for recognition of possible events ranging from symptoms identified for diseases to the application of medicinal drugs. Computerized physician order entry (CPOE): It is considered as the process for entering the order for medicines required by the medical professionals. The organization will be able to eliminate the issues that often occur due to unrecognizable handwriting. Billing: The system must be implemented with functionality such that it will automatically calculate the amount that have to be paid by the patient. There will be automatic generation of bill on behalf of the medicinal services provide to a patient as a discharge procedure. The bill will reflect the entire breakdown and the costs that have been incurred for each treatment process carried out on the patient. Tracking of Attendance: The system will also store the information related to attendance of the employees in the organization. The system must be able to display the stored information as per request of end-user to generate reports. Audit: The system must have the capability to perform audits based on the stored data and generation of audit reports in a well-designed and presentable format for stakeholders associated with the organization. The internal controls used for the development of the information system should be analyzed for creation of an audit planning and the responsibility, authority and accountability should be defined. The analysis of the risk also important and it should be divided into internet risk, control risk and detection risk. The audit is performed after establishment of the internal review and gathering evidence for supporting the findings in the audit. Payroll: The system must have the provision to process information related to the salary of staffs along with other expense and benefits offered by the organization. Appointment: The system should support the process of online appointment so that the patient can schedule their visit for medical checkup as per own convenience.    Non-Functional Requirements  The non-functional requirements that have been identified for JHC’s (James Healthcare Centre) new information system are listed as below: Security: Security is an essential feature that have to be implemented in almost any information system to ensure safety of the stored data. In the new information system of JHC, there will be records on personal information of patient’s hence proper security measures have to be implemented. The system must be able to protect sensitive information from external threats or unauthorized access. The increase in the cyber-attacks have raised as a major concern related to information systems so the organization can implement third party security applications. There will be application of various protocols on the system of end-users for preventing exploitation attacks. Availability: This feature is significant in context to the new information system as there is a requirement that the system must be accessible 24×7 for business processes. The downtime of the system will result into disruption of all the business process that are running within the organization. There is a requirement to develop an IT team with specialized persons for maintaining the system and retain the functionality. Usability: It is referred to as the feature that will ensure suitable interaction of end users with the system. The system must be easily accessible and have an easy to use interface so that the users are able to easily operate the system. The system will display different interfaces for different users according to predefined roles and authorization level. The development team for the system will conduct feedback analysis by gathering data on the design of the user interface so as to make it simpler for the end users. Scalability: This term relates to the capability of the system in context to management of resources. The management of resources is an essential element for savings on cost incurred due to the information system. The system must be able to provide provisions for making decisions on how to reduce the utilization of resources for running the business processes.    Identification Of Use Cases And Use Case Diagram: It is also known as the behavior diagram and drawn after analyzing the set of action that the information system should perform in collaboration with the other users for meeting the requirement of the organization. It demonstrates the interaction between the actor and the cases. Domain Model Class Diagram: The above diagram is created by analyzing the classes and identification of its member, it acts as a static diagram for the development team for the identification of the structure of the hospital and relationship of the staffs, patients and the other members of the organization. Event Based Partition System: The above diagram is used in the development of the information system such that the designer and the analysts can find the functionality of the information system and develop the information accordingly.    SDLC Phases: The functional requirement suggests that the information system required to be developed is complex and it has different subsystems within it. Hence to omit the complexity SDLC model should be equipped with the considered model is designed to handle complex projects. The model follows a realistic approach towards development of the information system. The agile methodology is selected for the development of the healthcare information system because the agile approach is highly flexible and it can adopt the changes in the information system during the phases of development. The model is also designed to encourage cross-training and team efforts. Non-functional requirement demands usability can be achieved by the partial work solution as it is beneficial in gathering end-user’s feedback (GUPTA & LAXMI, 2015). When compared with other models, the subject requires lesser effort in planning the project hence, enabling the team (project) to manage the processes more accurately and comfortably. The agile model offers flexibility to the developers which is required in the considered project. Construction iterations, end game, pre-project planning, production, project initiation and retirement are the phases of the agile model. Insight into the phases mentioned above with consideration to the JHC system development are stated as follows: Pre-project Planning: Pre-project planning or iteration-1 consists of project’s success, business process opportunities and feasibility assessment. JHC can build a better future for themselves by implementing IT infrastructure accurately and by enhancing the system processes as it already has a very well-built customer base. JHC can improve their customer satisfaction level as the system will be enabled with the capability of handling the request of the patients quickly and easily (Jamro, 2015). This phase will also assist the organization to build a further stronger customer base by attracting new customers. JHC’s stakeholders are hoping for a better environment at the healthcare Centre where their requests process is quick, and the departmental communication is effective. Implementation of the information system is the most suited strategy for the subject of the paper in the current situation (Alshamrani & Bahattab, 2015). Business process execution will also get cost-efficient after the implementation of the system. The goodwill of the organization will also get a boost after the implementation. The discussion above can be emphasized to state that implementing the system is viable for the subject when considered socially, economically and technologically. Project Initiation: The fund for the project will be sanctioned after a meeting between the project team manager and the sponsors along with the stakeholders of the firm. A detailed discussion of various factors involved in the project and the validity of the project will be done during the meeting. A decision on the members of the team will also be made by the manager (project) with Jack Carpenter’s involvement (Karim, Saba & Albuolayan, 2017). After receiving the permission to proceed with the project Jayden Greig will be approached to develop the required environment and purchasing of the needed equipment. The project manager will be burdened with estimating the budget.  Construction Iterations: The project team will develop high standard applications within this phase. Based on the working application, feedbacks from the end-users will be received. The next step will be to develop the application taking the basis of the data identified by the designers and the analysts. The system developers will pursue the development of the application (Sharma & Misra, 2017). The application will receive an upgrade based on the feedback received and hence ensure the quality of the system. Excessive manner testing of the developed application will also be pursued in the ongoing phase.  Emily Cox will head the evaluation process for the end-users feedbacks. Transition: Deployment of the project is done during this phase. After receiving all the feedback from the users that have been implemented in the system, the team will proceed with the final testing of the system. This phase also serves the purpose of end-users training and developing documents to assist the end-user in accessing the system (Summers, Joshi & Morkos, 2014). The users are engaged in the testing phase and their feedback are documented for application of any improvement in the developed information system. Production: The purpose of this phase is to keep a check on the operations after the deployment of the system in the organization. If any error is found in the product it is resolved for increasing the security of the information system and deliver a quality software application. Retirement: This phases server the purpose of retiring the older systems and on occasions the operational system. At the retirement phase of the project the functionality and the features are analyzed for replacing it with a new information system.    Bibliography Adams, K. (2015). Non-functional requirements in systems analysis and design (Vol. 28). Springer. Alshamrani, A., & Bahattab, A. (2015). A comparison between three SDLC models waterfall model, spiral model, and Incremental/Iterative model. International Journal of Computer Science Issues (IJCSI), 12(1), 106. Coronel, C., & Morris, S. (2016). Database systems: design, implementation, & management. Cengage Learning. Eckhardt, J., Vogelsang, A., & Fernández, D. M. (2016, May). Are” Non-functional” Requirements really Non-functional? An Investigation of Non-functional Requirements in Practice. In Software Engineering (ICSE), 2016 IEEE/ACM 38th International Conference on (pp. 832-842). IEEE. GUPTA, R. S., & LAXMI, V. (2015). Software Development Life Cycle (SDLC) Implementationin Information Technology & Management. International Journal of Recent Advances in Information Technology & Management, 1(1). Hasan, M. M., Loucopoulos, P., & Nikolaidou, M. (2014). Classification and qualitative analysis of non-functional requirements approaches. In Enterprise, Business-Process and Information Systems Modeling (pp. 348-362). Springer, Berlin, Heidelberg. Jamro, M. (2015). SysML Modeling of Functional and Non-functional Requirements for IEC 61131-3 Control Systems. In Progress in Automation, Robotics and Measuring Techniques(pp. 91-100). Springer International Publishing. Karim, N. S. A., Albuolayan, A., Saba, T., & Rehman, A. (2016). The practice of secure software development in SDLC: an investigation through existing model and a case study. Security and Communication Networks, 9(18), 5333-5345. Karim, N. S. A., Saba, T., & Albuolayan, A. (2017). Analysis of software security model in scenario of Software Development Life Cycle (SDLC). Journal of Engineering Technology (ISSN: 0747-9964), 6(2), 304-316. Khan, F., Jan, S. R., Tahir, M., Khan, S., & Ullah, F. (2016). Survey: Dealing Non-Functional Requirements at Architecture Level. VFAST Transactions on Software Engineering, 9(2), 7-13. Mc Hugh, M., McCaffery, F., Casey, V., & Pikkarainen, M. (2017). Integrating agile practices with a medical device software development lifecycle. Rahman, M., & Ripon, S. (2014). Elicitation and modeling non-functional requirements-a POS case study. arXiv preprint arXiv:1403.1936. Raturi, A., Penzenstadler, B., Tomlinson, B., & Richardson, D. (2014, June). Developing a sustainability non-functional requirements framework. In Proceedings of the 3rd International Workshop on Green and Sustainable Software(pp. 1-8). ACM. Sharma, A., & Misra, P. K. (2017). Aspects of Enhancing Security in Software Development Life Cycle. Advances in Computational Sciences and Technology, 10(2), 203-210. Silva, A., Pinheiro, P. R., Albuquerque, A., & Barroso, J. (2016). Approach to Define a Non-Functional Requirements Elicitation Guide Using a Customer Language. In SEKE (pp. 575-578). Summers, J. D., Joshi, S., & Morkos, B. (2014, August). Requirements evolution: Relating functional and non-functional requirement change on student project success. In International Design Engineering Technical Conferences and Computers and Information in Engineering Conference.

Basic features

  • Free title page and bibliography
  • Unlimited revisions
  • Plagiarism-free guarantee
  • Money-back guarantee
  • 24/7 support

On-demand options

  • Writer's samples
  • Part-by-part delivery
  • Overnight delivery
  • Copies of used sources
  • Expert Proofreading

Paper format

  • 275 words per page
  • 12pt Arial/Times New Roman
  • Double line spacing
  • Any citation style (APA, MLA, CHicago/Turabian, Havard)

Guaranteed originality

We guarantee 0% plagiarism! Our orders are custom made from scratch. Our team is dedicated to providing you academic papers with zero traces of plagiarism.

Affordable prices

We know how hard it is to pay the bills while being in college, which is why our rates are extremely affordable and within your budget. You will not find any other company that provides the same quality of work for such affordable prices.

Best experts

Our writer are the crème de la crème of the essay writing industry. They are highly qualified in their field of expertise and have extensive experience when it comes to research papers, term essays or any other academic assignment that you may be given!

Calculate the price of your order

You will get a personal manager and a discount.
We'll send you the first draft for approval by at
Total price:

Expert paper writers are just a few clicks away

Place an order in 3 easy steps. Takes less than 5 mins.

error: Content is protected !!
Open chat
Need Homework Help? Let's Chat
Need Help With Your Assignment? Lets Talk