ICT321 - Enterprise Interface Architecture in Victoria Health Reform

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Added on 2023/06/08

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This report delves into the enterprise interface architecture required for Victoria Health's digital transformation, emphasizing the need for transparency and data accessibility in modern healthcare systems. It presents an architecture overview diagram and a component relationship diagram, highlighting key elements like portal web access, interaction policies, metadata services, and service integration. The report also addresses sustainability and data collection challenges, including security concerns and the importance of accurate data sources. Furthermore, it discusses application and service integration, focusing on the integration of Google Maps and Google Search APIs to enhance patient access to healthcare services, ultimately aiming for a more efficient and patient-centered healthcare system.

Running Head: ENTERPRISE INTERFACE ARCHITECTURE
Enterprise Interface Architecture
Name of the Student
Name of the University
Author Note

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ENTERPRISE INTERFACE ARCHITECTURE
Table of Contents
Introduction......................................................................................................................................2
Diagrammatic representation...........................................................................................................3
Architecture Overview Diagram..................................................................................................3
Component Relationship Diagram..............................................................................................4
Sustainability and data collection issues..........................................................................................5
Application and Service Integration................................................................................................6
Conclusion.......................................................................................................................................9
References......................................................................................................................................11

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Introduction
The open networking system has been forcing the health care systems to be more
transparent than ever. This is due to the fact that the data that are wanted by the citizens who
have been thriving in the digital environment can only be provided if the transparency of the
project is maintained. Proper right to access data has been a major reason for implementing
digitized data management. This acts as a major importance for seeking change in framework of
the architecture of the data center that is being used by the government. Introducing this kind of
change in the information system will require implementation of Enterprise Information
Architecture Reference Architecture in the information system of the health centers. Victoria
Department of Health and Human Services have been mainly focusing on replacing prepare base
works with digitized platform in order to increase the required efficiency. This report will
provide Architecture Overview Diagram and Component Relationship Diagram based on the
formation of the data center with the help of Enterprise Information Architecture Reference
Architecture. This report will also provide sustainability issues that are present in the course of
the project. This report will further shed light on Internal and external web services that are
important in the course of completing the project

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Diagrammatic representation
Architecture Overview Diagram
Fig 1: Architecture Overview Diagram
(Created by Author)
Discussion
In this architectural overview of the model, the portal web is initially designed for
gaining the access to the data center of the organization. This will help Victoria Department of
Health and Human Services to access the portal of the clients who have subscribed to Victoria
Department of Health and Human Services. Interaction policy is created, leading to the fact that
the data that are being transacted are done with the help of the pre-defined policies. Metadata
services are interlinked with the synchronous/ asynchronous JMS system. After the
interconnection, Master data services are also interconnected with the synchronous/
asynchronous JMS system. Data services and content services along with the analytical services
are interlinked with each other. Enterprise Integration as well as the Service orientation process
is also interconnected with the Metadata services, Master data services, Data services and

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content services along with the analytical services. Service integration is also well connected
with the data masking and the monitoring sector, leading to the fact that the security of the data
that are stored in the data center is maintained.
Component Relationship Diagram
Fig 2: Component Relationship Diagram
(Created by Author)

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Discussion
Component Relationship diagram constitutes the fact that the implementation of
relationship diagram starts with the processing of the enterprise research UI. This leads to the
fact that the data that are collected during the processing of the data are transacted with the help
of the UI interface. Mobile based and web based application is one of the major reason that will
ensure that the data that are present in the framework can be transacted with higher efficiency.
This is the major reason that the data that are present in the framework ca be accessed by several
members of Victoria Department of Health and Human Services. After completion of this step,
the entire process is connected to the presentation server. Metadata, master data, analytics servers
are interconnected with each other and the entire server is connected to the information
enterprise integration and the compliance management servers. Both information enterprise
integration and the compliance management servers are also interconnected in order to get a
better result.
Sustainability and data collection issues
Major issues that will occur in the processing of the sustainability and the data collection
of the project are as follows: -
 Security issues: the major concern in the data collection is the security if the data that is
collected in the processing of the data management. In case the data that is being
transferred from one end to another end through the medium denotes that the data
procurement can be done by the imposter with the help of hacking tools that are present
(Schaltegger and Burri, 2017). This leads to the fact that the data that are transacted gets
corrupted and the efficiency of the project gets decreased.

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 Proper source: finding a proper source acts as one of the major problem in the course of
the project completion. In case the data that are found are inaccurate in nature, the data
analysis will not be performed with utmost efficiency. This is the major reason that for
sustaining health care in digital platform requires proper data gathering and data
processing, leading to the fact that the entire process is completed with a very high
accuracy (Dao and Abraham, 2018).
 Storage and collection issues: Despite the fact that the data collection is one of the major
impact that will procure the efficiency of the data that are stored in the data base. This
leads to the fact that the robustness of the data base is the major factor that decides the
sustainability of the health care.
Application and Service Integration
It is important to integrate applications and design the services that can meet the services
of the organization (Gao et al. 2015). As there are distinctive types of applications as well as
services existing in the system, the Victoria Government of health and human services that
includes legacy applications. As the organization uses some approaches that are helpful for the
organization, it is required to imply proper approaches that would be helpful to integrate the
services. The stakeholders of healthcare sector across the globe are looking for making
innovative as well as cost-effective solutions in order to deliver technology that can enable smart
healthcare to the patients. In addition, public as well as private hospitals along with healthcare
systems are facing revenue strains as well as declining margins for several years. Sultan (2015)
stated that the healthcare industry is lacking a strategic process from where it has been focused
on the volume to make specific value. In addition, a successful transition to the value-based
needs the stakeholders in order to move away the process of transaction. The patients involved

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with the organization need to concentrate on holistic extending focus is beyond of pricing creates
customer centred approach that can assist with making digitizing the heart of healthcare system.
Exponential technologies are important that could assist in making the process that can be
accessible as well as more efficient care delivery to the patients. Digitalization of the process
after the healthcare systems, the patients have instant access. With the help of Google search and
Google map, doctor on demand integrated intensive capabilities. Geo location is the heart of
solution that is processed with the help of APIs into the application. Considering the average
waiting time, local doctors can be availed and abundance of time is saved in the whole process
(Mamlin and Tierney 2016). However, the major challenge is waiting time for getting a doctor.
With the help of Google maps, the APIs as well as accuracy can be determined. It helps the
patients where the store is located. The application also provides advantages on the Google
maps APIs through allowing the patients a real time map of nearby doctors and pharmacies.
Doctor on demand is a consistent assistance across the platform. In addition, there is a set of
APIs Doctor on demand used in the process. Google Maps geo-coding API, JavaScript API,
android API as well as SDK for iOS are helpful in this. APIs of Google maps has started the
process of revolutionizing healthcare industry. In addition, there are several apps as well as sites
utilizing Google Maps APIs. However, the issues are involved in the process help to make the
patient (Marsch et al. 2014). On the other side, the process of integration comes to search engine
optimization as well as digital marketing for the business. It is required to focus on making the
websites perfect. With the help of digital marketing, healthcare system can gain advantages in
connecting with people more. The changes in the ranking help to overcome the barriers between
patients and the healthcare organization.
Integration strategy of Google Maps

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The Google Maps application can be integrated with the services of the Victoria
Department of Health and Human services by using the API of the Google Maps. The mainly
used APIs for the health care industry is the Google Maps Geocoding API, Google Maps
Android API, Google Maps JavaScript API and the Google Maps SDK for the ios (Hu and Dai
2013). These Google Maps APIs has bring a revolutionary change in the healthcare industry. The
Google Maps APIs can provide a free consultation support with the doctors. To include the
Doctor on Demand service in the healthcare industry the Google Maps Geo-location service is
required which needs the Geocoding API of the Google Maps. To implement the Doctor on
Demand service successfully the Victoria Department of Health and Human services need to
ensure that when the patients are using the Google Maps in real time they can see the nearby
pharmacies before start consulting with a professional in the medical field (Christensen and
Petrie 2013). By providing the nearest pharmacy location, the Google Maps application can
provide patients to pick up their prescribed medicines from the most convenient location. Also, it
need to ensure that the process is much faster to connect the patients with the experts. Otherwise
this will be useless in the emergency cases. Beside that it is also important to check that the
service is available in both for the Android and ios users. With the Android and ios applications a
web based application is also needed to access this services from a normal web browser.
Integration Strategy of Google Search
The Google Search can also be integrated with the Victoria Department of Health and
Human services to provide better solution of health care systems. To implement this Google
Search engine in this healthcare industry some strategies are need to be followed. This strategies
include delivering the common disease symptoms and information cards about the most common
disease in the locality based on the location of the user. In the case of delivering the most

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common disease symptoms the Google Search can provide the information about the disease and
the most common symptoms about the disease (Piñero et al. 2016). To implement the Google
Search engine properly in the healthcare industry it also need to be ensured that the Google
Search engine is providing the basic solutions of that disease. Also the similar type of disease
also need to be shown in the search engine to identify a particular disease without any error. In
the other mentioned case, the strategy will be to inform the peoples about the most common
disease cases in the locality which is depending on the location of the user. To inform the
peoples about the common disease the Google information cards will be used which is related
with the Google search engine (Malawski et al. 2013). By informing the peoples about the disease
the Victoria Department of Health and Human services can make the people aware of the
disease. Also, providing the information about the Victoria Department of Health and Human
services is another strategy which can be used to implement the Google Search engine in the
healthcare field.
Conclusion
From the above report it can be concluded that the data management of the health care
systems can be affected in a positive way when digital platform is introduced to the processing.
Despite several issues that are present in the terminologies of the digitalized data center. This
digitalized data center will also help in proper completion of the project in the terminology of
health care management of Victoria Department of Health and Human Services. This report also
provides the sustainability parameters of the data management. This leads to the fact that the data

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management of the health care system of Victoria Department of Health and Human Services
can be maintained properly. This is the major reason that the data management is performed with
much accuracy. Usage of google map and google search is used for completion of the project
with highest efficiency.

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References
Christensen, H. and Petrie, K., 2013. Information technology as the key to accelerating advances
in mental health care. Australian & New Zealand Journal of Psychiatry, 47(2), pp.114-116.
Dao, V. and Abraham, T., 2018. An Exploratory Empirical Examination of the Integrated
Sustainability Framework via Case Study.
Gao, Y., Li, H. and Luo, Y., 2015. An empirical study of wearable technology acceptance in
healthcare. Industrial Management & Data Systems, 115(9), pp.1704-1723.
Hu, S. and Dai, T., 2013. Online Map Application Development Using Google Maps API, SQL
Database, and ASP .NET. International Journal of Information and Communication Technology
Research, 3(3).
Koo, D., Piratla, K. and Matthews, C.J., 2015. Towards sustainable water supply: Schematic
development of big data collection using internet of things (iot). Procedia engineering, 118,
pp.489-497.
Malawski, M., Kuzniar, M., Wojcik, P. and Bubak, M., 2013. How to use Google App engine for
free computing. IEEE Internet Computing, 17(1), pp.50-59.
Mamlin, B.W. and Tierney, W.M., 2016. The promise of information and communication
technology in healthcare: extracting value from the chaos. The American journal of the medical
sciences, 351(1), pp.59-68.
Marsch, L., Lord, S. and Dallery, J. eds., 2014. Behavioral healthcare and technology: Using
science-based innovations to transform practice. Oxford University Press.
Piñero, J., Bravo, À., Queralt-Rosinach, N., Gutiérrez-Sacristán, A., Deu-Pons, J., Centeno, E.,
García-García, J., Sanz, F. and Furlong, L.I., 2016. DisGeNET: a comprehensive platform
integrating information on human disease-associated genes and variants. Nucleic acids research,
p.gkw943.
Sánchez, M.A., 2015. Integrating sustainability issues into project management. Journal of
Cleaner Production, 96, pp.319-330.
Schaltegger, S. and Burritt, R., 2017. Contemporary environmental accounting: issues, concepts
and practice. Routledge.
Sultan, N., 2015. Reflective thoughts on the potential and challenges of wearable technology for
healthcare provision and medical education. International Journal of Information
Management, 35(5), pp.521-526.