Symbiotic simulation for the operational management of inpatient beds: model development and validation using Δ-method
In many modern hospitals, resources are shared between patients who require immediate care, and must be dealt with as they arrive (emergency patients), and those whose care requirements are partly known to the hospital some time in advance (elective patients). Catering for these two types of patient...
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| Veröffentlicht in: | Health care management science 2020-03, Vol.23 (1), p.153-169 |
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| creator | Oakley, David Onggo, Bhakti Stephan Worthington, Dave |
| description | In many modern hospitals, resources are shared between patients who require immediate care, and must be dealt with as they arrive (emergency patients), and those whose care requirements are partly known to the hospital some time in advance (elective patients). Catering for these two types of patients is a challenging short-term operational decision-making problem, since some portion of each resource must be set aside for emergency patients when planning for the number and type of elective patients to admit. This paper shows how symbiotic simulation can help hospitals with important short-term operational decision making. We demonstrate how a symbiotic simulation model can be developed from an existing simulation model by adding the ability to load the state of the physical system at run-time and by making use of conditional length-of-stay distributions. The model is parameterised using 18 months of patient administrative data from an Anonymised General Hospital. Further, we propose a new Δ-Method that is suitable for validating a stochastic symbiotic simulation model. We demonstrate the benefit of our symbiotic simulation by showing how it can be used as an early warning system, and how additional patient-level information which might only become available after admission, can affect the predicted bed census. |
| doi_str_mv | 10.1007/s10729-019-09485-1 |
| format | Article |
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Catering for these two types of patients is a challenging short-term operational decision-making problem, since some portion of each resource must be set aside for emergency patients when planning for the number and type of elective patients to admit. This paper shows how symbiotic simulation can help hospitals with important short-term operational decision making. We demonstrate how a symbiotic simulation model can be developed from an existing simulation model by adding the ability to load the state of the physical system at run-time and by making use of conditional length-of-stay distributions. The model is parameterised using 18 months of patient administrative data from an Anonymised General Hospital. Further, we propose a new Δ-Method that is suitable for validating a stochastic symbiotic simulation model. 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| identifier | ISSN: 1386-9620 |
| ispartof | Health care management science, 2020-03, Vol.23 (1), p.153-169 |
| issn | 1386-9620 1572-9389 |
| language | eng |
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| source | MEDLINE; Business Source Complete; SpringerLink Journals - AutoHoldings |
| subjects | Bed Occupancy - methods Business and Management Computer Simulation Econometrics Efficiency, Organizational Emergency communications systems Emergency Service, Hospital - organization & administration Health Administration Health Informatics Hospital Administration - methods Hospitals, General Humans Inpatients - statistics & numerical data Length of Stay - statistics & numerical data Management Models, Statistical Operations Research/Decision Theory Patient Admission - statistics & numerical data Patients Resource Allocation Simulation |
| title | Symbiotic simulation for the operational management of inpatient beds: model development and validation using Δ-method |
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