Software Applications to Health Sector: A Systematic Review of Literature

dc.contributor.authorCalabria- Sarmiento, Juan C.
dc.contributor.authorAriza-Colpas, Paola
dc.contributor.authorPineres-Melo, Marlon
dc.contributor.authorAyala-Mantilla, Cristian
dc.contributor.authorUrina-Triana, Miguel
dc.contributor.authorMorales-Ortega, Roberto
dc.contributor.authorPeluffo-Martinez, Gabriel
dc.contributor.authorMendoza-Palechor, Fabio
dc.contributor.authorEcheverri-Ocampo, Isabel
dc.date.accessioned2018-07-30T14:21:27Z
dc.date.available2018-07-30T14:21:27Z
dc.date.issued2018
dc.description.abstractTechnology has become a strategic ally for the automation and improvement of processes in the health sector. Many of the current developments have supported the automatic, efficient and efficient detection of different pathologies which results in quality of life and treatment of patients. This study proposes a systematic review of the literature which compiles different developments that have contributed to the solution of different problems in the sector and the advances that have contributed to the processes of continuous improvement of detection and treatment.eng
dc.identifier.issn1816949X
dc.identifier.urihttp://hdl.handle.net/20.500.12442/2207
dc.language.isoengeng
dc.publisherMedwell Journals (Scientific Research Publishing Company)eng
dc.rights.accessrightsinfo:eu-repo/semantics/openAccess
dc.rights.licenseLicencia de Creative Commons Reconocimiento-NoComercial-CompartirIgual 4.0 Internacionalspa
dc.sourceJournal of Engineering and Applied Scienceseng
dc.sourceVol. 13, No.11 (2018)spa
dc.source.urihttps://www.medwelljournals.com/abstract/?doi=jeasci.2018.3922.3926eng
dc.subjectHealth applicationeng
dc.subjectm-Health applicationeng
dc.subjectTelemedicineeng
dc.subjectTele-assistanceeng
dc.subjectRemote monitoringeng
dc.titleSoftware Applications to Health Sector: A Systematic Review of Literatureeng
dc.typearticleeng
dcterms.referencesAkib, S., A. Jahangirzadeh and H. Basser, 2014. Local scour around complex pier groups and combined piles at semi-integral bridge. J. Hydrol. Hydromechanics, 62: 108-116.eng
dcterms.referencesAnderson, N., K. Potocnik and J. Zhou, 2014. Innovation and creativity in organizations: A state-of-the-science review, prospective commentary and guiding framework. J. Manage., 40: 1297-1333.eng
dcterms.referencesArneson, L.A., L.W. Zevenbergen, P.F. Lagasse and P.E. Clopper, 2012. Evaluating Scour at Bridges. 5th Edn., US Federal Highway Administration Department of Transportation, Oklahoma City, Oklahoma, USA., ISBN:9781508680758, Pages: 342.eng
dcterms.referencesChase, K.J. and S.R. Holnbeck, 2004. Evaluation of Pier-Scour Equations for Coarse-Bed Streams. Vol. 4, US Department of the Interior, Reston, Virginia, USA.,.eng
dcterms.referencesColeman, S.E., C.S. Lauchlan and B.W. Melville, 2003. Clear-water scour development at bridge abutments. J. Hydraulic Eng., 41: 521-531.eng
dcterms.referencesDey, S. and A.K. Barbhuiya, 2005. Time variation of scour at abutments. J. Hyd. Eng., 131: 11-23.eng
dcterms.referencesElsaeed, G., H. Elsersawy, M. Ibraheem and F. Samir, 2015. Bridge pier scour evaluation in meandering channels. J. Intl. Assoc. Adv. Technol. Sci., 16: 1-12.eng
dcterms.referencesGhorbani, B., 2008. A field study of scour at bridge piers in flood plain rivers. Turk. J. Eng. Environ. Sci., 32: 189-199.eng
dcterms.referencesHary, W.B., 1997. HEC-RAS River Analysis System: Hydraulic Reference Manual. US Army Corps of Engineers, Hydrologic Engineering Center, Davis, California, USA.,.eng
dcterms.referencesHastings, W.K., 1970. Monte Carlo sampling methods using markov chains and their applications. Biometrika, 57: 97-109.eng
dcterms.referencesKhwairakpam, P. and A. Mazumdar, 2009. Local scour around hydraulic structures. Intl. J. Recent Trends Eng., 1: 59-61.eng
dcterms.referencesKothyari, U.C. and A. Kumar, 2010. Temporal variation of scour around circular bridge piers. ISH. J. Hydraul. Eng., 16: 35-48.eng
dcterms.referencesKothyari, U.C., 2007. Indian practice on estimation of scour around bridge piers-A comment. Sadhana, 32: 187-197.eng
dcterms.referencesKothyari, U.C., K.G.R. Raju and R.J. Garde, 1992. Live-bed scour around cylindrical bridge piers. J. Hydraul. Res., 30: 701-715.eng
dcterms.referencesKothyaria, U.C. and K.G. Ranga Raju, 2001. Scour around spur dikes and bridge abutments. J. Hydraulic Res., 39: 367-374.eng
dcterms.referencesLagasse, P.F. and E.V. Richardson, 2001. ASCE compendium of stream stability and bridge scour papers. J. Hydr. Eng. ASCE, 127: 531-533.eng
dcterms.referencesSheppard, D.M., M. Odeh and T. Glasser, 2004. Large scale clear-water local pier scour experiments. J. Hydraul. Eng., 130: 957-963.eng
dcterms.referencesVittal, N., U.C. Kothyari and M. Haghighat, 1994. Clear-water scour around bridge pier group. J. Hydraul. Eng., 120: 1309-1318.eng
dcterms.referencesZhang, G., S.A. Hsu, T. Guo, X. Zhao and A.D. Augustine et al., 2013. Evaluation of design methods to determine scour depths for bridge structures (No. FHWA/LA. 11/491). Master Thesis, US Federal Highway Administration, Baton Rouge, Louisiana, USA.eng

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