Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator
Responses to disastrous radiation and nuclear meltdown incidents require a large and complex emergency health and social care capacity planning framework. Incompleteness, inconsistency, and infeasibility of the provided requirements of the proposed planning framework might create unnecessary conflic...
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my.utm.594502022-04-05T06:04:25Z http://eprints.utm.my/id/eprint/59450/ Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator Hamid, A. H. B. A. Rozan, M. Z. A. Ibrahim, R. Deris, S. Selamat, A. Yunus, M. N. M. QA76 Computer software Responses to disastrous radiation and nuclear meltdown incidents require a large and complex emergency health and social care capacity planning framework. Incompleteness, inconsistency, and infeasibility of the provided requirements of the proposed planning framework might create unnecessary conflicts during the system development. In this paper, we propose the requirements engineering of an emergency preparedness and response simulation model for the Malaysian radiation and nuclear emergency plan simulator. This simulator development refers to an empirical interpretive approach following the pragmatism view. This approach involves the construction of the dedicated simulator by interpreting insights and document analysis relevant to the stakeholders in the respective emergency plan in order to plan and manage responses to emergencies and disasters. Dedicated process models (overall process map and workflow diagram) explain that, those organisations unable to define and identify the disaster coordinator roles and responsibilities, resources and equipment may contribute 65.63% of emergency plan disorder and severe calamities. Those models are able to materialise the structure of a simulation workflow in order to demonstrate in training the emergency response prerequisites rather than intervention principles alone. It is likely that, this approach is significantly useful and justifies a mixture of tacit and explicit knowledge among the emergency plan experts. Therefore, a strategic, simplified and prevailing radiation and nuclear emergency plan simulator can be attained, though it is certainly as complex. 2015 Conference or Workshop Item PeerReviewed Hamid, A. H. B. A. and Rozan, M. Z. A. and Ibrahim, R. and Deris, S. and Selamat, A. and Yunus, M. N. M. (2015) Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator. In: 13th International Conference on New Trends in Intelligent Software Methodology Tools and Techniques, SoMeT 2014, 22 - 24 September 2014, Langkawi, Malaysia. http://dx.doi.org/10.1007/978-3-319-17530-0_7 |
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QA76 Computer software Hamid, A. H. B. A. Rozan, M. Z. A. Ibrahim, R. Deris, S. Selamat, A. Yunus, M. N. M. Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator |
| description |
Responses to disastrous radiation and nuclear meltdown incidents require a large and complex emergency health and social care capacity planning framework. Incompleteness, inconsistency, and infeasibility of the provided requirements of the proposed planning framework might create unnecessary conflicts during the system development. In this paper, we propose the requirements engineering of an emergency preparedness and response simulation model for the Malaysian radiation and nuclear emergency plan simulator. This simulator development refers to an empirical interpretive approach following the pragmatism view. This approach involves the construction of the dedicated simulator by interpreting insights and document analysis relevant to the stakeholders in the respective emergency plan in order to plan and manage responses to emergencies and disasters. Dedicated process models (overall process map and workflow diagram) explain that, those organisations unable to define and identify the disaster coordinator roles and responsibilities, resources and equipment may contribute 65.63% of emergency plan disorder and severe calamities. Those models are able to materialise the structure of a simulation workflow in order to demonstrate in training the emergency response prerequisites rather than intervention principles alone. It is likely that, this approach is significantly useful and justifies a mixture of tacit and explicit knowledge among the emergency plan experts. Therefore, a strategic, simplified and prevailing radiation and nuclear emergency plan simulator can be attained, though it is certainly as complex. |
| format |
Conference or Workshop Item |
| author |
Hamid, A. H. B. A. Rozan, M. Z. A. Ibrahim, R. Deris, S. Selamat, A. Yunus, M. N. M. |
| author_facet |
Hamid, A. H. B. A. Rozan, M. Z. A. Ibrahim, R. Deris, S. Selamat, A. Yunus, M. N. M. |
| author_sort |
Hamid, A. H. B. A. |
| title |
Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator |
| title_short |
Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator |
| title_full |
Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator |
| title_fullStr |
Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator |
| title_full_unstemmed |
Requirements engineering of Malaysia’s radiation and nuclear emergency plan simulator |
| title_sort |
requirements engineering of malaysia’s radiation and nuclear emergency plan simulator |
| publishDate |
2015 |
| url |
http://eprints.utm.my/id/eprint/59450/ http://dx.doi.org/10.1007/978-3-319-17530-0_7 |
| _version_ |
1729703243604295680 |
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13.209306 |