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DC poleHodnotaJazyk
dc.contributor.authorPodaras, Athanasios
dc.date.accessioned2018-01-05T09:58:06Z
dc.date.available2018-01-05T09:58:06Z
dc.date.issued2017
dc.identifier.citationE+M. Ekonomie a Management = Economics and Management. 2017, č. 4, s. 251-261.cs
dc.identifier.issn2336-5604 (Online)
dc.identifier.issn1212-3609 (Print)
dc.identifier.urihttp://hdl.handle.net/11025/26611
dc.format11 s.cs
dc.format.mimetypeapplication/pdf
dc.language.isoenen
dc.publisherTechnická univerzita v Libercics
dc.relation.ispartofseriesE+M. Ekonomie a Management = Economics and Managementcs
dc.rights© Technická univerzita v Libercics
dc.rightsCC BY-NC 4.0cs
dc.subjectřízení rizikcs
dc.subjectnepřetržitý provozcs
dc.subjectzemědělstvícs
dc.subjectnebezpečí pro životní prostředícs
dc.subjectdostupnostcs
dc.titleRisk-based control of the negative effect of discontinued automated processes: a case from the agricutlural domainen
dc.typečlánekcs
dc.typearticleen
dc.rights.accessopenAccessen
dc.type.versionpublishedVersionen
dc.description.abstract-translatedThe current paper delineates a modern algorithmic procedure for estimating the risk and calculating a realistic duration of interrupted critical computerized business activities, in order to mitigate or prevent their corresponding negative consequences. The contribution is formulated via merging risk management and business continuity concepts. The formulation of an integrated business continuity management policy includes the proactive determination of approximate recovery timeframes for critical business functions. Practically, this estimation is based on recovery tests which are executed under ideal conditions, and unexpected factors which may emerge during a real process interruption and signifi cantly delay its recovery are ignored. Agriculture is a domain where the incorporation of an integrated business continuity management system is a crucial issue. The interruption of agricultural computerized activities can be triggered by and can result to various undesirable environmental phenomena. Thus, especially for agriculture, the consideration of unexpected factors when executing recovery tests is highly demanded. The currently presented algorithm accepts as initial input the estimated recovery time which is based on recovery exercises executed under ideal conditions. Then, a precise number of potential unpredictable hazards (factors) are taken into consideration and the risk magnitude of each threat is semi-quantitatively estimated. The total risk magnitude is utilized to estimate the time deviation from the initially defi ned recovery time. After the risk analysis process is terminated, a new recovery timeframe is proposed. The time deviation from the initially defi ned recovery time is calculated in its absolute value. The algorithm is fi nally validated by applying the calculated extended timeframe to the system availability formula which measures the achieved system availability levels for any information system. The validation of the approach is demonstrated via a practical case study from the agricultural domain, namely the greenhouse irrigation scheduling system interruption scenario.en
dc.subject.translatedrisk managamenten
dc.subject.translatedbusiness continuityen
dc.subject.translatedagricultureen
dc.subject.translatedenvironmental hazardsen
dc.subject.translatedavailabilityen
dc.identifier.doi10.15240/tul/001/2017-4-017
dc.type.statusPeer-revieweden
Vyskytuje se v kolekcích:Číslo 4 (2017)
Číslo 4 (2017)

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  1. DSpace at University of West Bohemia
  2. Publikace ZČU / UWB Publications
  3. Časopisy ZČU / UWB Journals
  4. Ekonomie a management
  5. 2017
  6. Číslo 4 (2017)