SIMULATION, ANALYSIS, AND PREDICTION OF MEDICAL CARE PROCESSES FOR CARDIOLOGICAL IN-PATIENTS
Annotation
A simulation model of the patient flow for estimating the load of a specialized medical center is developed using empirical data, as well as simulating discrete events, and queuing theory. The results of the simulation demonstrate an inverse relationship between the rate of arrival of patients and their number, and show that the pooling of all resources into one common fund is not always a solution to reduce the burden on a particular department.
Keywords
Постоянный URL
Articles in current issue
- ESTIMATION OF PERIODS OF NONSTATIONATY PROCESSES IN CLOUD SYSTEMS
- MODELING OF FUNCTIONALLY STABLE NAVIGATION INFORMATION SYSTEMS
- USING MODELS OF EVOLUTION FOR MANAGING MUTATIONS OF THE GENETIC ALGORITHM IN OPTIMIZATION OF MULTIPARAMETRIC FUNCTION
- ANALYSIS OF THE SCHEME OF GRINDING OF PARABOLOID ROTATION SURFACE BY THE "KNIFE" METHOD
- ROBOTIZED COMPLEX FOR THE REALIZATION OF TECHNOLOGY OF AUTOMATED PLACING OF PRODUCTS FROM THERMOPLASTIC COMPOSITE MATERIALS
- TECHNICAL REALIZATION OF UNIFIED SPACE PLATFORMS
- METHOD FOR LIMITING THE EFFECTIVE VALUE OF THE CURRENTS OF SERVO DRIVE PMSM MOTOR
- EXPERIENCE IN DEVELOPING ON-BOARD SYSTEMS FOR PROTOTYPES OF MICRO-SATELLITES IN THE FRAMES OF INTERNATIONAL SCIENTIFIC AND EDUCATIONAL PROGRAMS
- MULTI-PURPOSE BLOCK-MODULAR TYPE PLATFORM “SYNERGY” FOR NANOSATELLITES ASSEMBLING
- INFLUENCE OF THE GRADIENT OF THE MAGNETIC FIELD OF THE ION PUMP ON THE TRIAL BODY OF ABSOLUTE BALLISTIC GRAVIMETER
- ISSUES OF DEVELOPMENT AND INTEGRATION OF VIRTUAL RECEIVING STATION FOR THE EARTH REMOTE SENSING DATA WITH A DISTRIBUTED INFORMATION SYSTEM
- INCLUSION OF GRADIENT STRUCTURES IN TRADITIONAL THERMAL PROTECTIVE COATINGS TO REDUCE TEMPERATURE ON THE HULL OF DESCENT SPACECRAFTS
- DETERMINATION OF SIZE AND LOCALIZATION OF IMAGE AREA CONTAINING SIGNAL WITH CONSTANT CLOCK FREQUENCY
- SIMULATION, ANALYSIS, AND PREDICTION OF MEDICAL CARE PROCESSES FOR CARDIOLOGICAL IN-PATIENTS
- OPTIMUM MODE FOR PROCESSING CATARACT LENS OF THE HUMAN EYE WITH MICROSECOND PULSES OF Yb, Er: GLASS LASER