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Journal articles on the topic 'Infrastructure information technology'

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Published: 5 June 2025
Last updated: 15 July 2025

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1

Goldstein, Melissa M., and David Blumenthal. "Building an Information Technology Infrastructure." Journal of Law, Medicine & Ethics 36, no. 4 (2008): 709–15. http://dx.doi.org/10.1111/j.1748-720x.2008.00326.x.

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Information technology is considered a potentially transformative element in the field of health care by payers, providers, vendors, and consumers alike. Because of this transformative potential, health information technology (HIT) adoption is viewed by many as a key component of health system reform. HIT is in its earliest stages, with diffusion of the technology still relatively limited; at the same time, there is growing awareness of its potential to affect the operation of the entire health care system as a result of the vast amount of information that will become available to both health professionals and patients.
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2

Kao, Charles K. "Information Technology: Infrastructure, Application, Business." HKIE Transactions 5, no. 3 (1998): 135–39. http://dx.doi.org/10.1080/1023697x.1998.10667779.

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3

Tennenhouse, David, Butler Lampson, Sharon Eisner Gillett, and Jennifer Steiner Klein. "Virtual infrastructure: Putting information infrastructure on the technology curve." Computer Networks and ISDN Systems 28, no. 13 (1996): 1769–90. http://dx.doi.org/10.1016/0169-7552(96)00009-8.

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4

Sudworth, T. "Briefing: Green information technology (IT) infrastructure." Proceedings of the Institution of Civil Engineers - Engineering Sustainability 163, no. 2 (2010): 69–70. http://dx.doi.org/10.1680/ensu.2010.163.2.69.

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5

Barton, Amy J. "Creating an Enabling Information Technology Infrastructure." Clinical Nurse Specialist 28, no. 1 (2014): 7–8. http://dx.doi.org/10.1097/nur.0000000000000023.

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6

A. Villanueva, Jaevier. "Information Technology Security Infrastructure Malware Detector System." International Journal of Advanced Trends in Computer Science and Engineering 9, no. 2 (2020): 1583–87. http://dx.doi.org/10.30534/ijatcse/2020/103922020.

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Sylvia, M. J., R. C. Hughes, J. E. Moore, J. W. Murray, B. L. Peterson, and S. R. Uniack. "Transforming the information technology infrastructure of IBM." IBM Journal of Research and Development 56, no. 6 (2012): 4:1–4:10. http://dx.doi.org/10.1147/jrd.2012.2211811.

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Park, Kyung Hye, and Joël Favrel. "Virtual Enterprise - Organization and Information Technology Infrastructure." IFAC Proceedings Volumes 31, no. 31 (1998): 239–44. http://dx.doi.org/10.1016/s1474-6670(17)41034-2.

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9

Sirkemaa, Seppo J. "Key Perspectives in Information Technology Infrastructure Management." Journal of Advances in Information Technology 10, no. 3 (2019): 100–103. http://dx.doi.org/10.12720/jait.10.3.100-103.

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10

Leeb-Lundberg, Arne. "A strategy for Sweden's information technology infrastructure." Telecommunications Policy 18, no. 8 (1994): 642–50. http://dx.doi.org/10.1016/0308-5961(94)90035-3.

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11

Zaleski, John R. "Information Technology and Next Generation Medical Infrastructure." INSIGHT 7, no. 1 (2004): 15–17. http://dx.doi.org/10.1002/inst.20047115.

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Rando, Thomas, and Danielle Fernholz. "MARITECH’s Shipbuilding Information Infrastructure." Journal of Ship Production 16, no. 02 (2000): 110–20. http://dx.doi.org/10.5957/jsp.2000.16.2.110.

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The goal of the Shipbuilding Information Infrastructure is to improve the accessibility and value of enterprise information for US shipbuilders. This promises notable benefits because the shipbuilding industry has significant information requirements. A ship may comprise more than a million parts, each of which must be managed through the many design, manufacture, test and logistics processes. The ability to share information across processes and organizations not only streamlines existing processes but offers the opportunity to identify new, improved processes. In order to strengthen the industry as a whole, the shipbuilding information infrastructure has to satisfy the following technical requirements:An information technology gap separates the large, medium and small shipyards.The information technology staffs at most shipyards are experts in shipbuilding process requirements but not in system-level computer technologies.Shipyard information systems must be reliable and maintainable yet often need to be customized to suit an individual shipyard. This paper describes how the SHIIP and SPARS projects have used a deliberate combination of component-based software, Internet protocols and a portable computing platform to satisfy these technical requirements. It describes how the SHIIP project has demonstrated that the Shipbuilding Information Infrastructure can be used for information sharing within a shipyard and how the SPARS project has demonstrated that the same infrastructure can be used for information sharing among shipyards, their partners and suppliers.
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13

Kemp, Robert, and Richard Smith. "Access Control Conflicts in Information Technology and Operational Technology." International Journal of Computer Science and Mobile Computing 10, no. 12 (2021): 1–13. http://dx.doi.org/10.47760/ijcsmc.2021.v10i12.001.

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Access controls are a key area for any security program. However, the recommended access controls cannot always be implemented across the entire organisations. This is the case within critical infrastructure organisations that have both Information Technology and Operational Technology assets where many of the controls cannot be implemented on Operational Technology. Also, safety is a key concern for critical infrastructure organisations which is not always the case with many standard commercial organisations. This means the access controls while maintaining security must not impact safety which can occur if considerations are not given to Operational Technology and safety objectives. This paper will provide ways to manage the conflicts and issues that can occur and provide a process to allow critical infrastructure organisations to implement the required controls without impacting safety and security.
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14

Ali. "MAPPING INFORMATION TECHNOLOGY INFRASTRUCTURE LIBRARY WITH OTHER INFORMATION TECHNOLOGY STANDARDS AND BEST PRACTICES." Journal of Computer Science 9, no. 9 (2013): 1190–96. http://dx.doi.org/10.3844/jcssp.2013.1190.1196.

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15

Rahman, Hafiz Abdur, José R. Martí, and K. D. Srivastava. "Quantitative estimates of critical infrastructures' interdependencies on the communication and information technology infrastructure." International Journal of Critical Infrastructures 7, no. 3 (2011): 220. http://dx.doi.org/10.1504/ijcis.2011.042974.

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16

Dessureault, Sean. "Justification techniques for information technology infrastructure in mining." Mining Technology 113, no. 4 (2004): 257–63. http://dx.doi.org/10.1179/037178404225006227.

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17

Chanopas, Anote, Donyaprueth Krairit, and Do Ba Khang. "Managing information technology infrastructure: a new flexibility framework." Management Research News 29, no. 10 (2006): 632–51. http://dx.doi.org/10.1108/01409170610712335.

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18

Johnson, Deborah G. "Is the global information infrastructure a democratic technology?" ACM SIGCAS Computers and Society 27, no. 3 (1997): 20–26. http://dx.doi.org/10.1145/270858.270865.

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19

Chandra, Carissa, Christopher Alexander Chai, Gilbert Januar Simwim, and Ade Maulana. "Penerapan Information Technology Infrastructure Library di Perusahaan Persero." JDMIS: Journal of Data Mining and Information Systems 2, no. 1 (2024): 1–8. http://dx.doi.org/10.54259/jdmis.v2i1.1597.

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Along with the times, many companies implement IT governance to create effectiveness and efficiency that can grow the company to become faster and bigger. The purpose of this paperwork is to find out the weaknesses and strengths regarding the implementation of IT governance, as well as lessons learned from PT Pos Indonesia Balikpapan City, PT Telkomsel, and PT PLN. The use of methods and data collection in making paperwork is through qualitative analysis and library research. From the research results, it can be stated that service quality is an important thing in these state-owned companies because it can affect customer satisfaction and requires the Information Technology Infrastructure Library version 3.0 (ITILv3) framework in evaluating or managing IT services effectively and efficiently.
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20

Feeser, Larry J. "Information Technology for Life-Cycle in Infrastructure Management." Journal of Computing in Civil Engineering 15, no. 1 (2001): 3. http://dx.doi.org/10.1061/(asce)0887-3801(2001)15:1(3).

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21

Freitas, André Luís Policani, Gustavo Antonio Pessanha Monteiro, and Helder Gomes Costa. "Assessing the quality of information technology infrastructure services." Industrial Management & Data Systems 118, no. 9 (2018): 1821–36. http://dx.doi.org/10.1108/imds-09-2017-0415.

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Purpose Despite existing advances in information technology infrastructure services (ITISs), there remains no consensus in the literature regarding what dimensions or criteria are best suited for the measurement of their quality. The purpose of this paper is to fill this gap, proposing a methodological approach to measuring the quality of ITISs, as perceived by users. Design/methodology/approach Cronbach’s α and item-total correlations were used to measure the reliability of the questionnaire; multiple linear regression analysis was employed to determine the items (criteria) most related to the quality of ITISs; and finally, importance–performance analysis was conducted to determine the most critical criteria in service provision. An exploratory study was conducted to evaluate the quality of ITISs at a Brazilian university. Findings Control of the activities of the information technology (IT) team, periodic maintenance of hardware and software, the security policy and the skill of the labor affect the quality of services most, relative to the dimensions of infrastructure, people and processes. Practical implications The results indicate what dimensions and items should be considered by IT managers to improve the quality of ITISs. Special attention should be paid to the effective use of equipment, software and network infrastructure: it should be ensured that these are in good working order and can be utilized by users who expect to be trained to take advantage of their functions. Originality/value This paper shows how to integrate relevant techniques to assess the quality of ITISs. An original set of criteria to evaluate the quality of ITISs, derived from a systematic review of the literature, is suggested.
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22

Apostolopoulos, T. K., and K. C. Pramataris. "Information technology investment evaluation: Investments in telecommunication infrastructure." International Journal of Information Management 17, no. 4 (1997): 287–96. http://dx.doi.org/10.1016/s0268-4012(97)00006-6.

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23

Dovgiy, Stanislav O., Oleh V. Kopiika, and Oleksii S. Kozlov. "Information technology of IT-infrastructure management architecture elements." Environmental safety and natural resources 44, no. 4 (2022): 91–113. http://dx.doi.org/10.32347/2411-4049.2022.4.91-113.

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The development of the System Architecture of the IT-infrastructure focused on the use of modern Data Centers is considered. At the same time, it is envisaged to create components that describe: general approaches to building a system architecture; IT-services – information technologies that solve the task of providing IT-services; logical model of IT-infrastructure. Formulated logic of IT-infrastructure construction: IT-infrastructure architectures define a set of services. IT-services are provided to three groups of clients. IT-services and clients are connected by 5 implementation scenarios. The integration of IT-services is determined by 5 architectures. As IT-services, we understand information technologies aimed at maintaining the following elements in a technically good state: network devices, computing equipment, data storage devices, automatic software deployment services, network services, perimeter protection services, directory services, file and print services, data management services, business application services, IT-management services, archiving and recovery services, certificate management services, integration services. Architectures define the fundamental principles of building IT-services and their relationship. Also, requirements for the creation of IT-services are formed on the basis of the architecture. One of the most important architectures is architecture of IT-infrastructure management. The architecture of the management system ensures the necessary level of IT-services of the Data Center due to the organization of three components – personnel, processes, technologies. The tasks of the architecture are: use of processes and information technologies to identify and minimize failures of IT-services; ensuring a high degree of integration of information technologies; ensuring response to changes in system parameters and performance of service functions in real time. As an example, the management function of the IT-service “network administration” (monitoring and control of configuration management services, coordination of changes, remote management and debugging) is considered. The algorithmic synthesis of programs and devices network management is considered, which consists in the construction of a functional scheme of control devices in two stages – abstract and structural synthesis, and all the steps of its solution and subsequent hardware synthesis are determined.
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24

Bulychеva, Olga, and Oleg Syunturenko. "National information infrastructure: Growth areas." Scientific and Technical Libraries, no. 1 (January 1, 2016): 26–33. http://dx.doi.org/10.33186/1027-3689-2016-1-26-33.

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Current macrotrends in sci-tech information development are described. New elements of the national information infrastructure are reviewed. Structure, goals, and prospects for research social networking for improving information interaction of key communities in the segment of technology research, development, transfer are analyzed. Several problems and tasks of reliable and safe Russian Internet segment are introduced.
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25

Pispa, Juha, and Inger V. Eriksson. "Aligning organizations and their information technology infrastructure: How to make information technology support business." Production Planning & Control 14, no. 2 (2003): 193–200. http://dx.doi.org/10.1080/0953728031000107617.

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26

Anderson, Sheila, and Tobias Blanke. "Infrastructure as intermeditation – from archives to research infrastructures." Journal of Documentation 71, no. 6 (2015): 1183–202. http://dx.doi.org/10.1108/jd-07-2014-0095.

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Purpose – The purpose of this paper is to analyse the steps taken to produce new kinds of integrated documentation on the Holocaust in the European Holocaust Research Infrastructure project. The authors present the user investigation methodology as well as the novel data design to support this complex field. Design/methodology/approach – The paper is based on the scholarly primitives framework. From here, it proceeds with two empirical studies of Holocaust archival research and the implementation steps taken. The paper employs key insights from large technology studies in how to organise such work. In particular, it uses the concepts of social-technical assemblages and intermediation. Findings – The paper offers a number of findings. First from the empirical studies, it presents how Holocaust researchers and archivist perceive the way they currently do research in archives. It then presents how the intermediation and digital transformation of such research can be enabled without violating its foundations. The second major insight is the technical research into how to use graph databases to integrate heterogeneous research collections and the analysis opportunities behind. Originality/value – The paper is based on existing work by the authors but takes this work forward into the world of real-life existing historical research on archives. It demonstrates how the theoretical foundations of primitives are fit for purpose. The paper presents a completely new approach on how to (re)organise archives as research infrastructures and offers a flexible way of implementing this. Next to these major insights, a range of new solutions are presented how to arrange the socio-technical assemblages of research infrastructures.
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Kennedy Overo, Christopher Oribo Orubu, and Chukwugoziem Tom Ezi. "Information and Communications Technology, Water and Sanitation Infrastructures and Economic Development in Sub-Saharan Africa." International Journal of Advanced Economics 6, no. 8 (2024): 367–79. http://dx.doi.org/10.51594/ijae.v6i8.1404.

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This study investigated the effect of information and communication technology and water sanitation infrastructures on economic growth and development in sub-Saharan Africa using panel data involving fifteen (15) sub-Saharan Africa nations. Secondary data were obtained from the statistical bulletins of the various countries and World Bank Indicators from 2000-2022. Data obtained were analyzed via descriptive, diagnostic and inferential statistics. The fixed and random effects regression results revealed that information communication technology and water and sanitation infrastructures jointly influence the level of economic growth and development in sub-Saharan Africa. Given the findings, it is recommended that there is the need for governments in sub-Saharan Africa to increase their contributions and supports to ICT infrastructure by way of improving the current state of ICT in sub-Saharan Africa. Furthermore, governments of sub-Saharan African countries should strive towards improving the water and sanitation infrastructure by periodically updating their public health conditions related to clean drinking water and treatment and disposal of human excreta and sewage. Keywords: Information Communication Technology Infrastructure, Water and Sanitation Infrastructure, Economic Growth, Critical Infrastructure, Sub-Saharan Africa
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Shafiezad Abkenar, Batool, and Ebrahim Negahdari. "Reviewing the Effect of Infrastructural Investment on Economic Growth in Iran from 1983 to 2013." Journal of Management and Accounting Studies 5, no. 02 (2019): 13–18. http://dx.doi.org/10.24200/jmas.vol5iss02pp13-18.

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Introduction: investment is one of the most important components of today’s modern society. The key role that investment plays in the formation of the economic structure of a society has made it a main focus in most of the economic discussions about the role of infrastructural investment. Direct investments on infrastructures paves the way for production facilities, stimulates economic activities and also improves competitiveness by reduction the costs of business and transportations. However, over the past few years, since the developed countries have undergone some technological advancements and evolutions in fields such as new methods of production and storage, electronic business and since these countries have paid special attention to the external effects of this infrastructure especially in the environment, a new view has been developed which is based on the decrease in the effectiveness of the relationship between investing in this infrastructure and economic growth among economists. However, in developing countries, this view doesn’t hold true because this infrastructure has not been sufficiently developed in these countries. Methodology: the present study aims to review the effect of infrastructural investment on Iran’s economic growth. In this respect, the production function economic growth model has been expressed and infrastructural investment has been reviewed as an important infrastructure as an overall variable. Results:In order to identify the effect of the infrastructures on Iran’s economic growth, two variables have been used, i.e. physical infrastructures and Information and Communication Technology. In order to estimate the aforementioned model, the autoregressive disturbed lag method in the time span of 1983 to 2013. Conclusion: The findings of this research have shown that in this specific time period, the reviewed infrastructures including Information and Communication Technology and physical infrastructure have had a positive and significant impact on Iran’s economic growth.
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Frame, Michael T., Gladys Cotter, Lisa Zolly, and Janice Little. "Information Science and Technology Developments Within the National Biological Information Infrastructure." Science & Technology Libraries 23, no. 4 (2003): 59–72. http://dx.doi.org/10.1300/j122v23n04_05.

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30

Hogan, Michael D., and Shirley M. Radack. "The quest for information technology standards for the global information infrastructure." StandardView 5, no. 1 (1997): 30–35. http://dx.doi.org/10.1145/253452.253477.

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31

Lamia, T. AlSulaiman, F. Alturairi Jumana, and A. Al-Khathlan Khalid. "An Approach to Control Information Technology Changes." International Journal of Computer Science and Information Technology Research 10, no. 3 (2022): 81–85. https://doi.org/10.5281/zenodo.7092060.

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<strong>Abstract:</strong> Information Technology (IT) services plays a significant role to preform day-to-day operations in all organizations. Any unexpected outages in IT services may cause major financial loss due to business disruption.&nbsp; However, there are mandatory alterations executed frequently in IT infrastructure due to introducing, enhancing, modifying, replacing, or removing assets/services. Controlling the lifecycle of all alterations in the IT infrastructure is the responsibility of IT Change Management (ITCM). This is essential to ensure the security, availability, and reliability of the IT Infrastructure by eliminating the disruption of business and maximize IT services readiness towards customer satisfaction. This paper describes the process of storing, tracking, preventing and detecting configuration changes implemented in the IT infrastructure as part of IT change management process and in alignment with security standards and policies. <strong>Keywords:</strong>&nbsp; Information Technology, IT Change Management, Infrastructure, Controls, Configuration, Tracking. <strong>Title:</strong> An Approach to Control Information Technology Changes <strong>Author:</strong> Lamia T. AlSulaiman, Jumana F. Alturairi, Khalid A. Al-Khathlan <strong>International Journal of Computer Science and Information Technology Research</strong> <strong>ISSN 2348-1196 (print), ISSN 2348-120X (online)</strong> <strong>Vol. 10, Issue 3, July 2022 - September 2022</strong> <strong>Page No: 81-85</strong> <strong>Research Publish Journals</strong> <strong>Website: www.researchpublish.com</strong> <strong>Published Date: 19-September-2022</strong> <strong>DOI: https://doi.org/10.5281/zenodo.7092060</strong> <strong>Paper Download Link (Source)</strong> <strong>https://www.researchpublish.com/papers/an-approach-to-control-information-technology-changes</strong>
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Lamia, T. Al-Sulaiman, and A. Al-Khathlan Khalid. "An Approach to Establish Information Technology Infrastructure Changes Freeze." International Journal of Computer Science and Information Technology Research 11, no. 3 (2023): 109–11. https://doi.org/10.5281/zenodo.8265490.

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<strong>Abstract:</strong> In today&#39;s fast-paced business world, companies often undergo frequent changes to their Information Technology (IT) infrastructure to keep up with the evolving technology landscape. However, these changes can also introduce new risks and vulnerabilities, potentially leading to system downtime, data loss, and other consequences. To mitigate these risks, many organizations implement an infrastructure changes freeze during critical events. In this paper, we explore the benefits and drawbacks of establishing an infrastructure changes freeze, and provide recommendations for effective implementation. This technical paper discusses the steps necessary to implement an IT infrastructure changes freeze. The paper outlines the key steps involved in implementing a freeze, including determining the freeze period, identifying critical systems, establishing freeze policies, communicating the freeze, explore the benefits and drawbacks, and monitoring the freeze process. By following these steps, organizations can ensure that critical systems remain stable during critical events and periods of high demand, while minimizing disruption to business operations. <strong>Keywords:</strong>&nbsp; Information Technology, IT Change Management, Infrastructure, Changes, Freeze. <strong>Title:</strong> An Approach to Establish Information Technology Infrastructure Changes Freeze <strong>Author:</strong> Lamia T. Al-Sulaiman, Khalid A. Al-Khathlan <strong>International Journal of Computer Science and Information Technology Research</strong> <strong>ISSN 2348-1196 (print), ISSN 2348-120X (online)</strong> <strong>Vol. 11, Issue 3, July 2023 - September 2023</strong> <strong>Page No: 109-111</strong> <strong>Research Publish Journals</strong> <strong>Website: www.researchpublish.com</strong> <strong>Published Date: 19-August-2023</strong> <strong>DOI: https://doi.org/10.5281/zenodo.8265490</strong> <strong>Paper Download Link (Source)</strong> <strong>https://www.researchpublish.com/papers/an-approach-to-establish-information-technology-infrastructure-changes-freeze</strong>
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Tamang, Rubi, and Naraginti Amareswaran Reddy. "Information and Communication Technology (ICT) Infrastructure and Attitude of Pre-Service Teachers towards Information and Communication Technology (ICT)." International Journal of Science and Social Science Research 1, no. 2 (2023): 12–17. https://doi.org/10.5281/zenodo.13374041.

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The present study investigated the Information and Communication Technology (ICT) Infrastructure and Attitude of Pre-Service Teachers towards ICT amongst the Pre-Service Teachers enrolled in Diploma in Elementary Education (D.El.Ed.) in the District Institute of Education and Training (DIET), Changlang, Arunachal Pradesh. The descriptive research method was used. The sample included 56 Pre-Service Teachers. The result revealed that the institute has all the basic infrastructural capacity required to impart ICT-based education to the pre-service teachers. The resources included computers, laptops, overhead projectors, whiteboards, and a generator for electricity backup facility. The overall attitudes of the pre-service teachers toward ICT were generally positive. Further, the findings suggest that there is no significant mean difference in pre-service teachers&rsquo; attitudes towards ICT based on Sex, Locale, and Year of Study.&nbsp;
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Yuksel, M., G. L. Ertürkmen, Y. Kabak, et al. "Healthcare Information Technology Infrastructures in Turkey." Yearbook of Medical Informatics 23, no. 01 (2014): 228–34. http://dx.doi.org/10.15265/iy-2014-0001.

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Summary Objectives: The objective of this paper is to describe some of the major healthcare information technology (IT) infrastructures in Turkey, namely, Sağlık-Net (Turkish for “Health-Net”), the Centralized Hospital Appointment System, the Basic Health Statistics Module, the Core Resources Management System, and the e-prescription system of the Social Security Institution. International collaboration projects that are integrated with Sağlık-Net are also briefly summarized. Methods: The authors provide a survey of the some of the major healthcare IT infrastructures in Turkey. Results: Sağlık-Net has two main components: the National Health Information System (NHIS) and the Family Medicine Information System (FMIS). The NHIS is a nation-wide infrastructure for sharing patients’ Electronic Health Records (EHRs). So far, EHRs of 78.9 million people have been created in the NHIS. Similarly, family medicine is operational in the whole country via FMIS. Centralized Hospital Appointment System enables the citizens to easily make appointments in healthcare providers. Basic Health Statistics Module is used for collecting information about the health status, risks and indicators across the country. Core Resources Management System speeds up the flow of information between the headquarters and Provincial Health Directorates. The e-prescription system is linked with Sağlık-Net and seamlessly integrated with the healthcare provider information systems. Finally, Turkey is involved in several international projects for experience sharing and disseminating national developments. Conclusion: With the introduction of the “Health Transformation Program” in 2003, a number of successful healthcare IT infrastructures have been developed in Turkey. Currently, work is going on to enhance and further improve their functionality.
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Westbury, Margaret. "Academic librarians’ Twitter practices and the production of knowledge infrastructures in higher education." Networked Learning Conference 12 (August 16, 2024): 42–46. http://dx.doi.org/10.54337/nlc.v12.8632.

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This short paper describes the use of infrastructural theory to interrogate data gathered for an ongoing study on the Twitter practices of academic librarians at one research-intensive university in the United Kingdom. In tandem with wider changes in networked technologies and ways of producing scholarship, academic librarians’ roles have shifted increasingly to knowledge production, particularly in the area of research support. A related shift has been academic librarians’ adoption of social media, particularly Twitter, to disseminate information and encourage community and collaboration. The few existing studies of librarians’ Twitter practices, however, frame such activity as service promotion, overlooking the relationship between technology and professional practice entwined and concomitant social effects in the university. The theoretical framework devised for this study was woven from research in anthropology and Science and Technology Studies about the nature of infrastructure. Instead of viewing infrastructure as separate and monolithic substrates supporting the circulation of goods and information, such theory posits infrastructure as relational and contingent, constituted of political decisions and having broad and co[1]constitutive social effects on knowledge, subjectivities and agencies (Jensen &amp; Morita, 2017). The study’s theoretical framework particularly draws on the notion of knowledge infrastructures defined as “networks of people, artifacts, and institutions that generate, share, and maintain specific knowledge about the human and natural worlds” (Edwards, 2010). The framework therefore emphasises the invisible labour of infrastructure — often dubbed infrastructuring — and related socio-political practices of design and maintenance that embody promises for the future (Larkin, 2018). In this picture, infrastructure is fragile and contingent, shaped by its installed base, and remarkably complicated, unfixed and open to contestation. Based on preliminary findings, the study argues that academic librarians' Twitter practices constitute knowledge infrastructures in higher education. Using an infrastructural framework helped foreground the material conditions of librarians’ knowledge production in terms of entanglements of technology and professional values, shifts in professional subjectivities and performative effects within the university. A tentative implication for studies of technology and learning is that, by insisting that infrastructure and social activity are intertwined, learners and teachers are not framed in opposition to infrastructure and are thus better able to contest totalising narratives surrounding infrastructural learning technologies such as VLEs or MOOCs. In this picture, therefore, infrastructure is not simplistically background bulwark or sinister force. Appreciating the invisible labour involved in creating and sustaining infrastructure is therefore important for understanding contemporary learning contexts.
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Heruwidagdo, Ignatius Rahardjo, Suharjito, Novita Hanafiah, and Yanto Setiawan. "Performance of Information Technology Infrastructure Prediction using Machine Learning." Procedia Computer Science 179 (2021): 515–23. http://dx.doi.org/10.1016/j.procs.2021.01.035.

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Soomro. "Role of Information Technology Infrastructure Library in Data Warehouses." American Journal of Applied Sciences 8, no. 12 (2011): 1284–87. http://dx.doi.org/10.3844/ajassp.2011.1284.1287.

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Soomro. "Role of Information Technology Infrastructure Library in Data Warehouses." American Journal of Applied Sciences 8, no. 12 (2011): 1384–87. http://dx.doi.org/10.3844/ajassp.2011.1384.1387.

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Danshyna, Svitlana, Artem Nechausov, Sergey Andrieiev, and Valeriy Cheranovskiy. "Information technology for analysis of waste management objects infrastructure." RADIOELECTRONIC AND COMPUTER SYSTEMS, no. 2 (May 18, 2022): 97–107. http://dx.doi.org/10.32620/reks.2022.2.08.

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The subject of study in this article is the process of analyzing infrastructure objects for waste management. The current article increases the objectivity of waste management infrastructure objects estimated by developing a model and method of information technology for analyzing several indicators of these objects based on the use of spatially distributed data. Objectives: to analyze the key factors affecting the waste management infrastructure (WMI) to select possible ways to improve the efficiency of its functioning; to develop a model of the WMI objects analyzing process, which determines the structure of information technology for analyzing several indicators of these objects using spatially distributed data; to improve the method of identification and verification of data about WMI objects. The following results were obtained. An approach to the estimation of WMI objects based on set-theoretical and functional modeling of the process of analyzing these objects is proposed. The method for identifying and verifying data about WMI objects has been improved, based on considering them in the form of geographical objects, considering current cartographic and satellite data, which, in contrast to the existing ones, will allow an objective assessment of their compliance with legal and construction standards. For the first time, the structure of information technology for analyzing several indicators of WMI objects is proposed, the use of which in decision support systems will make objective judgments about the existing infrastructure based on spatial data using geoinformation systems. Conclusions. The results of the bibliographic research confirmed that effective monitoring of WMI objects to ensure compliance with legislation in the field of waste management is extremely difficult. This process requires the development of specialized models and methods focused on the use of geoinformation systems for their implementation in decision support systems. Scientific and methodological support of information technology for analyzing several indicators of WMI objects has been developed. Its usage in the tasks of estimating the state of the corresponding objects of the Kharkiv region confirmed that many of them do not meet the existing legal and building requirements, which requires close attention to the problem of waste management and the development of appropriate management decisions.
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Matthews, H. Scott, James H. Garrett, and Michael W. Bigrigg. "Information and Communication Technology for Intelligent, Sustainable Infrastructure Systems." IABSE Symposium Report 92, no. 12 (2006): 1–8. http://dx.doi.org/10.2749/222137806796184879.

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Nurdina. "Role of Information Technology Infrastructure Library in E-Government." Journal of Computer Science 8, no. 3 (2012): 323–28. http://dx.doi.org/10.3844/jcssp.2012.323.328.

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Bhargava, Vijay, Micha Avni, and David Alvarez. "ComSoc's information and communication technology infrastructure [The President's page]." IEEE Communications Magazine 51, no. 4 (2013): 6. http://dx.doi.org/10.1109/mcom.2013.6495748.

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Ferreira, Carolina, Andrea Nery, and Placido Rogerio Pinheiro. "A Multi-Criteria Model in Information Technology Infrastructure Problems." Procedia Computer Science 91 (2016): 642–51. http://dx.doi.org/10.1016/j.procs.2016.07.161.

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Karuppaswamy, M. "Information Technology and Infrastructure Development: the South Asian Context." South Asian Survey 7, no. 1 (2000): 37–41. http://dx.doi.org/10.1177/097152310000700104.

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Sasaki, N., A. Okumura, N. Yamaguchi, and Y. Imanaka. "ISQUA16-1665HOSPITAL INFORMATION TECHNOLOGY INFRASTRUCTURE AFFECTS QUALITY OF CARE." International Journal for Quality in Health Care 28, suppl 1 (2016): 62.1–62. http://dx.doi.org/10.1093/intqhc/mzw104.98.

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Vineet, Kumar. "ELECTRIC VEHICLE CHARGING INFRASTRUCTURE ENHANCEMENT USING INFORMATION TECHNOLOGY INTEGRATION." PARIPEX - INDIAN JOURNAL OF RESEARCH 13, no. 1 (2024): 74–75. https://doi.org/10.5281/zenodo.14977233.

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The electric vehicle chargers have a communication protocol to ensure there is a reporting of usage, occupancy, faults,&nbsp;and other features to the owners and other parties. There is a need to ensure a communication channel between&nbsp;customers and chargers, considering a holistic picture of entire electric vehicle charging stations in an area is seen from&nbsp;users' applications. It must report live updates on availability, occupancy of chargers, next availability, waiting times,&nbsp;usage charges, availability of amenities, and many more. This will significantly improve the user experience when they&nbsp;plan to visit a charging station while they are commuting on-road. Significant improvement in user experience will be&nbsp;achieved via a live update via a cellular network and conveyed using mobile apps or search engine websites.
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Antonov, S. G., I. I. Antsiferov, and S. M. Klimov. "Method of instrumental estimation of critical information infrastructure under information technology interference." Dependability 20, no. 4 (2020): 35–41. http://dx.doi.org/10.21683/1729-2646-2020-20-4-35-41.

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Hussein, Layth S. "The Relationship Between Information Technology Governance and Human Resource Information Systems Infrastructure." TANMIYAT AL-RAFIDAIN 37, no. 120 (2018): 115–30. http://dx.doi.org/10.33899/tanra.2018.159991.

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Radack, Shirley M. "The federal government and information technology standards: Building the national information infrastructure." Government Information Quarterly 11, no. 4 (1994): 373–85. http://dx.doi.org/10.1016/0740-624x(94)90016-7.

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Vallejos, C. M. Chavarry, J. S. Támara Rodríguez, L. J. Chavarría Reyes, et al. "Decarbonization Technology in Road Infrastructure Projects." International Journal of Membrane Science and Technology 10, no. 3 (2023): 950–59. http://dx.doi.org/10.15379/ijmst.v10i3.1634.

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This study aims to determine the appropriate decarbonization technologies to reduce carbon dioxide (CO2) emissions in road infrastructure projects. Decarbonization is a process that seeks to reduce or eliminate CO2 emissions that contribute to climate change and that comes from the energy sources consumed by the transport sector. With statistical information from different studies, the most appropriate technologies were identified to control the triangle of effectiveness, productivity, and profitability derived from the costs, time, and quality of the projects associated with decarbonization technologies. The study is documentary and bibliographic, with the deductive method, quantitative approach, applied orientation, and descriptive, correlational, and explanatory types. The design is non-experimental, cross-sectional, and retrospective. The energy conversion efficiency of all technologies is identified in three domains: with fossil fuels from compressed natural gas, with natural gas, and with electricity by hydrogen electrolysis. GHG (Greenhouse Gas) emissions savings using BIM (Building Information Modeling) can reach up to 14% and 30% of emissions and 47% and 65% when the scope of maintenance and rehabilitation is restricted, and pavement construction is excluded.
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