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Line 1: {{Short description\|Information technology paradigm}} {{technical\|date=January 2019}} '''Dew computing'''<ref name="urlAn Introduction to Dew Computing: Definition, Concept and Implications - IEEE Journals & Magazine">{{cite journal \|title=An Introduction to Dew Computing: Definition, Concept and Implications - IEEE Journals & Magazine \|journal= IEEE Access\|year=2018 \|volume=6 \|pages=723–737 \|doi=10.1109/ACCESS.2017.2775042 \|last1=Ray \|first1=Partha Pratim \|s2cid=3324933 \|doi-access=free }}</ref> is an [[information technology]] ([[Information technology\|IT]]) paradigm that combines the core concept of [[cloud computing]] with the capabilities of end devices ([[personal computer]]s, [[mobile phone]]s, etc.).<ref>{{Cite journal\|last=Wang\|first=Yingwei\|date=2015-09-16\|title=Cloud-dew architecture~~\|url=http://www.inderscience.com/offer.php?id=71717~~\|journal=International Journal of Cloud Computing ~~(IJCC)~~\|volume=4\|issue=3\|pages=199–210~~\|via=~~\|doi=10.1504/IJCC.2015.071717\|doi-access=free}}</ref> It is used to enhance the experience for the end user in comparison to only using [[cloud computing]].<ref name=":2">{{Cite book\|date=2018\|editor-last=Hu\|editor-first=Yu-Chen\|editor2-last=Tiwari\|editor2-first=Shailesh\|editor3-last=Mishra\|editor3-first=Krishn K.\|editor4-last=Trivedi\|editor4-first=Munesh C.\|title=Intelligent Communication and Computational Technologies\|volume=19\|doi=10.1007/978-981-10-5523-2\|issn=2367-3370\|series=Lecture Notes in Networks and Systems\|isbn=978-981-10-5522-5}}</ref> Dew computing attempts to solve major problems related to cloud computing technology, such as reliance on [[internet access]]. [[Dropbox (service)\|Dropbox]] is an example of the dew computing paradigm, as it provides access to the files and folders in the [[Cloud computing\|cloud]] in addition to keeping copies on local devices. This allows the user to access files during times without an internet connection; when a connection is established again, files and folders are synchronized back to the cloud server.<ref name=":0">{{Cite journal\|last=Wang\|first=Yingwei\|date=2016\|title=Definition and Categorization of Dew Computing\|url=https://www.ronpub.com/publications/ojcc/OJCC_2016v3i1n02_YingweiWang.html\|journal=Open Journal of Cloud Computing\|volume=3\|issue=1\|issn=2199-1987}}</ref> == History == The term "dew computing", as used in information technology, first appeared in 2015 in IT literature and since then has become a field of its own. The cloud-dew architecture was proposed by Yingwei Wang<ref>{{Cite web \|date=2015-09-17 \|title=Dew Architecture helps Ground Cloud Services \|url=https://www.rdworldonline.com/dew-architecture-helps-ground-cloud-services/ \|access-date=2025-03-03 \|website=Research & Development World \|language=en-US}}</ref> as a possible solution to the offline data accessibility problem.<ref name=":7">{{Cite web\|url=http://wwwen.zte.com.cn/endata/magazine/ztecommunications/2017/5/articles/201711/t20171124_466311.html\|title=Dew Computing and Transition of Internet Computing Paradigms - ZTE Corporation\|website=wwwen.zte.com.cn\|access-date=2018-06-30\|archive-date=2018-09-15\|archive-url=https://web.archive.org/web/20180915122113/http://wwwen.zte.com.cn/endata/magazine/ztecommunications/2017/5/articles/201711/t20171124_466311.html\|url-status=dead}}</ref> At first, its scope included only [[web application]]s; broader applications were later proposed.<ref>Skala, Karolj; Davidović, Davor; Afgan, Enis; Sović, Ivan; Šojat, Zorislav: [https://www.ronpub.com/publications/OJCC_2015v2i1n03_Skala.pdf Scalable Distributed Computing Hierarchy: Cloud, Fog and Dew Computing] // Open Journal of Cloud Computing (OJCC), 2 (2015), 1; 16-24 doi:10.19210/1002.2.1.16</ref><ref name=":1" /> Dew computing is a model which was derived from the original concept of [[cloud computing]]. Other models have also emerged from cloud computing, including [[fog computing]], [[edge computing]]~~, dew computing~~, and others. Proponents claim that these novel models, such as dew computing, can provide better experiences for users.<ref name=":5">{{Cite ~~web~~journal \|~~url~~author=~~https://www.semanticscholar.org/paper/Doing-More-with-the-Dew:-A-New-Approach-to-~~David Edward Fisher- \|author2=Shuhui Yang~~/693e467a3b5efd3ae578687fa7af3e5e57deca00~~ \|title=Doing More with the Dew: A New Approach to Cloud-Dew Architecture -\|journal=Open ~~Semantic~~Journal of Cloud Computing \|volume=3 \|issue=1 \|pages=8–19 \|s2cid=13147444 \|url=https://www.ronpub.com/OJCC/OJCC_2016v3i1n02_Fisher.html \|archive-date=2023-07-02 ~~Scholar~~\|access-date=~~2018~~2023-0607-3002 \|archive-url=https://web.archive.org/web/20230702231421/https://www.ronpub.com/OJCC/OJCC_2016v3i1n02_Fisher.html \|url-status=live }}</ref> Cloud computing provides universal access and [[scalability]]. However, having all the resources far from a user's control occasionally causes problems. In the classic cloud computing paradigm, when the internet connection to the [[Server (computing)\|servers]] is lost, the user is unable to access their data; dew computing aims to solve this problem.<ref name=":0" /><ref name=":6">{{Cite web \|~~url~~author=~~https://www.semanticscholar.org/paper/Cloud-dew-architecture-:-realizing-the-potential-of-~~Yingwei Wang- \|author2=Yi Pan~~/fc8edd29f5df60244a66d05c74c50a240a4529ef~~ \|title=Cloud-dew architecture : realizing the potential of distributed database systems in unreliable networks -\|website=Worldcomp ~~Semantic~~Proceedings \|s2cid=32263118 \|url=http://worldcomp-proceedings.com/proc/p2015/PDP2675.pdf ~~Scholar~~\|access-date=~~2018~~2023-0607-3002 \|archive-date=2023-02-17 \|archive-url=https://web.archive.org/web/20230217014301/http://worldcomp-proceedings.com/proc/p2015/PDP2675.pdf \|url-status=live }}</ref><ref name=":1">{{Cite news\|url=https://phys.org/news/2015-09-dew-ground-cloud.html\|title=Dew helps ground cloud computing\|access-date=2018-06-30\|archive-date=2018-09-15\|archive-url=https://web.archive.org/web/20180915122223/https://phys.org/news/2015-09-dew-ground-cloud.html\|url-status=live}}</ref><ref name=":4">{{Cite journal\|last=Yingwei\|first=Wang\|date=2015\|title=The initial definition of dew computing\|url=https://www.islandscholar.ca/islandora/object/ir:20044\|journal=Dew Computing Research}}</ref> == Definition == Line 38 ⟶ 39: ** The configuration and ownership of software are saved in the [[Cloud computing\|cloud]]. Examples include the [[Apple App Store]] and [[Google Play]], where the applications the user installs are saved to their account and can then be installed on any device linked to their account.<ref name=":0" /> * Platform in Dew (PiD) ** A software development suite must be installed on the local device with the settings and application data synchronized to the cloud service. A [[Software development kit\|Software Development Kit]] on its own does not satisfy these requirements; it must be able to synchronize development data, system deployment data, and online backups. An example of PiD is GitHub.<ref name=":0" /> * Infrastructure as Dew (IaD) ** The local device is dynamically supported by cloud services. IaD can come in different forms, but the following two forms can be used: (1) the local device can have an exact duplicate DVM instance in the cloud, which is always kept in the same state as the local instance, or (2) the local device can have all its settings/data saved in the cloud, including system settings/data and data for each application.<ref name=":0" /> Line 45 ⟶ 46: == Possible challenges == Dew computing faces a number of technical challenges, including issues related to power management, processor utility, and data storage. Other factors impacting the use of dew computing are the viability of the operation system, network model, ~~and~~ communication model, programming principles, dew recommended engine, local dew network, personal high productivity, database security, and behaviors of the browser.<ref name=":3">{{Cite journal\|title=An Introduction to Dew Computing: Definition, Concept and Implications - IEEE Journals & Magazine\|journal=IEEE Access\|volume=6\|pages=723–737\|doi=10.1109/ACCESS.2017.2775042\|year=2018\|last1=Ray\|first1=Partha Pratim\|doi-access=free}}</ref> == See also == Line 57 ⟶ 58: == References == {{Reflist}} ~~<references />~~ <references group="Skala, Karolj; Davidović, Davor; Afgan, Enis; Sović, Ivan; Šojat, Zorislav Scalable Distributed Computing Hierarchy: Cloud, Fog and Dew Computing // Open Journal of Cloud Computing (OJCC), 2 (2015), 1; 16-24 doi:10.19210/1002.2.1.16 " /> {{Cloud computing}} [[Category:Post-cloud computing architecture]]