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Line 1: {{Short description\|Systems in which users can make apps}} {{howto\|date=July 2021}} '''End-user computing''' ('''EUC''') refers to systems in which non-~~programmers~~[[programmer]]s can create working [[Application software\|application]]s.<ref name="EUC">{{cite conference \| url=http://dl.acm.org/citation.cfm?id=1120304 \| title=End-user computing \| publisher=[[Association for Computing Machinery]] \| access-date=30 December 2015 \| author=Goodall, Howie \| book-title=CHI EA '97 CHI '97 Extended Abstracts on Human Factors in Computing Systems \| date = March 1997 \| conference=ACM CHI 97 Human Factors in Computing Systems Conference \| ___location=Los Angeles, Los Angeles County, California, United States of America \| pages=132 \| isbn=0-89791-926-2}}</ref> EUC is a group of approaches to computing that aim to better integrate [[user (computing)\|end users]] into the computing environment. These approaches attempt to realize the potential for high-end computing to perform problem-solving in a trustworthy manner.<ref>McBride, Neil, "[https://www.dora.dmu.ac.uk/handle/2086/213 Towards User-Oriented control of End-User Computing in Large Organizations]"</ref><ref>Mahmood, Adam, [http://www.idea-group.com/bookseries/details.asp?id=3 Advances in End User Computing Series] {{Webarchive\|url=https://web.archive.org/web/20070129022235/http://www.idea-group.com/bookseries/details.asp?id=3 \|date=2007-01-29 }} University of Texas, USA, {{ISSN\|1537-9310}}</ref> End-user computing can range in complexity from users simply clicking a series of buttons, to citizen developers<ref>[{{Cite web\|url=https://www.gartner.com/en/information-technology/glossary/citizen-developer]\|title=Definition of Citizen Developer - Gartner Information Technology Glossary}}</ref> writing scripts in a controlled [[scripting language]], to being able to modify and execute code directly. Examples of end-user computing are systems built using [[fourth-generation programming language]]s, such as [[MAPPER]] or [[SQL]], or one of the [[fifth-generation programming language]]s, such as [[ICAD (software)\|ICAD]]. ==Factors== Factors contributing to the need for further EUC research include [[knowledge]] processing, [[pervasive computing]], issues of [[~~Upper~~upper ontology ~~(computer science)~~\|ontology]], [[interactive visualization]], and the like. Some of the issues related to end-user computing concern [[software architecture]] ([[Graphical user interface\|iconic]] versus language interfaces, open versus closed,{{clarify\|date=July 2013}} and others). Other issues relate to [[intellectual property]], configuration and maintenance. End-user computing allows more user-input into system affairs that can range from [[personalization]] to full-fledged ownership of a system. ==EUC strategy== EUC applications should not be evolved by accident, but there should be a defined EUC strategy.{{cncitation needed\|date=May 2016}} Any [[Application Architecture]] Strategy / IT Strategy should consider the white spaces in automation (enterprise functionality not automated by [[Enterprise resource planning \| ERP]] / [[Enterprise Grade Applications]]). These are the potential areas where EUC can play a major role.{{cncitation needed\|date=May 2016}} Then ASSIMPLER parameters{{which?\|date=May 2016}} should be applied{{by whom?\|date=May 2016}} to these white spaces to develop the EUC strategy. (ASSIMPLER stands for availability, scalability, security, interoperability, maintainability, performance, low [[cost of ownership]], extendibility and reliability.<ref>▼ ▲EUC applications should not be evolved by accident, but there should be a defined EUC strategy.{{cn\|date=May 2016}} Any [[Application Architecture]] Strategy / IT Strategy should consider the white spaces in automation (enterprise functionality not automated by [[Enterprise resource planning \| ERP]] / [[Enterprise Grade Applications]]). These are the potential areas where EUC can play a major role.{{cn\|date=May 2016}} Then ASSIMPLER parameters{{which?\|date=May 2016}} should be applied{{by whom?\|date=May 2016}} to these white spaces to develop the EUC strategy. (ASSIMPLER stands for availability, scalability, security, interoperability, maintainability, performance, low [[cost of ownership]], extendibility and reliability.<ref> Compare: {{cite web \|last1= Vanarse\|first1= Mandar\|title= Business Value Assurance during the transformation journey. Line 45: * lack of maintenance processes; * lack of security; * lack of audit trail.; * overreliance on manual controls. ==EUC risk management software== Many companies elect to leverage software to manage their EUC risks. Software can provide many benefits to organizations, including: * automation of risk management activities; * reduction in manual effort required for manual controls; * version controls for EUC applications; * change controls for EUC applications. Examples of EUC risk software include: * apparity<ref>{{cite web \|title=End-user computing risk management solution of the year: Apparity \|url=https://www.insuranceerm.com/content/awards/insuranceerm-annual-awards-2023-uk-and-europe/winners/end-user-computing-risk-management-solution-of-the-year-apparity.html \|website=InsuranceERM \|access-date=2 May 2023}}</ref> ==See also== Line 65 ⟶ 78: ==External links== * [http://eusesconsortium.org/ EUSES Consortium, a collaboration that researches end-user computing.] * [https://www.researchgate.net/publication/308778531_RELATIONSHIP_BETWEEN_LEADERSHIP_AND_MORTGAGE_BANKING_END-USER_COMPUTING_EFFICIENCY] Relationship Between Leadership and EUC Efficiency] [[Category:Human–computer interaction]]