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Enhancing discrete event modelling by interfacing expert systems and simulation modelsGoodman, Daniel January 1993 (has links)
This thesis investigates the representation of operational decision makers within simulation modelling. Artificial Intelligence concepts, such as expert systems focus on the problem of representing, in high-level code, complex real-world decision making problems. The author therefore proposes that the use of expert system technology may provide an improved means of representing operational decision tasks and that as a consequence, apriori possibilities may exist in the context of model experimentation based on alternative operational policies. The thesis further investigates the nature of operational decision making and the potential need to represent within a model, inter-dependencies between decision makers. A prototype system called ESSIM is developed which comprises of two interlinked components, a discrete event simulation module and expert system module. The benefits of the proposed approach are then assessed by comparing the functionally of ESSIM with conventional modelling techniques. The comparison is carried out by developing three alternative models of an automated container port, one of these using ESSIM. Experiments were then devised and executed which seek to draw conclusions on the thesis proposal.
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Real-Time Simulation of Patient Care Processes in HealthcareBahrani, Sepideh 19 July 2013 (has links)
The increasing waiting times to access healthcare services are a major concern for pa-tients in hospitals. Due to the unpredictability of health issues, hospitals and clinical ser-vices are provided to patients even without prescheduled medical appointments. Unex-pected and random patient arrivals can result in high waiting times. Waiting occurs most-ly because of insufficient resources available compared to demanding service delivery requirements at a given time. Thus, appropriate management of resource scheduling over time can help reduce patient wait times.
So far, simulation has mostly been used as a support for strategic decision making in healthcare environments. We are proposing a complementary approach, namely, real-time simulation, to support operational decision making rather than long-term strategic decision making. Real-time simulation is a technique used to get a timely prediction of the system status in a near future (e.g., a few hours). Hospitals can benefit from the capa-bilities of real-time simulations by predicting upcoming bottleneck occurrences in patient care processes and make effective decisions in the present time to avoid undesirable out-comes in the near future.
This research presents real-time simulation capabilities for short-term operational decision making of patient care processes in hospitals and the possible ways to run alter-native scenarios and evaluate their results to come up with the most effective solution considering various factors. This thesis also provides tool support based on a leading simulation environment, namely Arena. The tool-supported methodology is evaluated through a realistic cardiac care process in an Ontario community hospital, with encourag-ing results.
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Real-Time Simulation of Patient Care Processes in HealthcareBahrani, Sepideh January 2013 (has links)
The increasing waiting times to access healthcare services are a major concern for pa-tients in hospitals. Due to the unpredictability of health issues, hospitals and clinical ser-vices are provided to patients even without prescheduled medical appointments. Unex-pected and random patient arrivals can result in high waiting times. Waiting occurs most-ly because of insufficient resources available compared to demanding service delivery requirements at a given time. Thus, appropriate management of resource scheduling over time can help reduce patient wait times.
So far, simulation has mostly been used as a support for strategic decision making in healthcare environments. We are proposing a complementary approach, namely, real-time simulation, to support operational decision making rather than long-term strategic decision making. Real-time simulation is a technique used to get a timely prediction of the system status in a near future (e.g., a few hours). Hospitals can benefit from the capa-bilities of real-time simulations by predicting upcoming bottleneck occurrences in patient care processes and make effective decisions in the present time to avoid undesirable out-comes in the near future.
This research presents real-time simulation capabilities for short-term operational decision making of patient care processes in hospitals and the possible ways to run alter-native scenarios and evaluate their results to come up with the most effective solution considering various factors. This thesis also provides tool support based on a leading simulation environment, namely Arena. The tool-supported methodology is evaluated through a realistic cardiac care process in an Ontario community hospital, with encourag-ing results.
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The impact of real time shop floor information on operational decision makingVermaak, Martin 29 June 2011 (has links)
The concept of Operational decision making is not new, but in the context of Enterprise
Resource Planning implementation as is the case at PFK Electronics (PTY) Ltd., it
becomes part of what ERP process that makes organisations more competitive and
profitable as Wallace and Kremzar (2001) comment, "Effective forecasting, planning,
and scheduling is fundamental to productivity and ERP is a fundamental way to achieve
it. Properly implementing ERP will give you a competitive advantage and help you run
your business more effectively, efficiently and responsively."
The Operational decision making process that forms part of the research question is a
process known as Sales and Operational Planning process (SOP's). The research
paper is looking at how Real Time Shop floor information can impact on the decision
making process, as Wallace and Kremzar (2001 : 165) state that this is the most
important element in making ERP systems work.
The study looks at what information is required to make effective decisions in the SOP's
process and how the respondents perceive information quality, its value and the impact
on decision making in the SOP's process. The research sought to further investigate a
diverse demographic population, the behavioural culture within the organisation and
their perception on having this information in real time directly from the shop floor. Data
was collected via a survey questionnaire and an interview process which also required
the review of organisational documentation where available.
The research aimed to investigate what information Operations (SOP's) need to make
effective decisions to meet the organisational strategic objectives and to determine the
best means of obtaining and communicating the information to managers. Developing
this further the research was then broken down into three objectives:
• To investigate 'what' information sales and operations managers need in order to
make effective decisions that will have an impact on them meeting strategic
performance objectives. • To evaluate 'how' real time shop floor information can improve the decision
making process in Operations in meeting strategic objectives; by understanding
the types and methods used in decision making and the significance of time on
information.
• To recommend suitable Information Communication Technology (ICT) systems
to obtain and communicate information to managers effectively within operations.
During this process time constraints were of a concern, which manifested in objective
three not being able to be completed to the satisfaction of the researcher. However the
research process, which included the survey and interviews of respondents, the
researcher felt that respondents where honest and open in expressing their views which
adds to the validity and reliability of the research.
The results showed that there was a clear understanding of the topic amongst the
respondents. It showed that the respondents had a good understanding of information
and its importance in meeting strategic objectives by making better decisions. It became
clear that ERP was generally working well but that timeliness of information was the
biggest obstacle in meeting strategic objectives in balancing supply and demand. The
research identified the information necessary for the SOP's process to be effective and
it also showed the impact of having real time shop floor information available to the
decision making process. It also showed that there would be other benefits as
performance could also be improved by having real time performance indicators that are
used to set the pace and common goal.
The report also identified some cultural differences between PFK electronics culture and
NUMSA unionised employees culture and the impact it has on relationships and
communication.
The report concludes with the research question being answered and with a
recommendation that the single most important means of improving operational
effectiveness is going to be to improve the quality of information used in decision making. The research has shown that getting this information in 'real time' or as close
as possible to real time is the best means of improving the quality of information and its
impact on management decisions. It is further recommended to investigate the
implementation of systems such as Manufacturing Execution Systems to link the shop
floor directly into the current ERP system and lastly to find a means of bridging the
cultural differences between NUMSA unionised employees and PFK behavioural
culture. / Graduate School of Business Leadership / M.B.A.
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The impact of real time shop floor information on operational decision makingVermaak, Martin 29 June 2011 (has links)
The concept of Operational decision making is not new, but in the context of Enterprise
Resource Planning implementation as is the case at PFK Electronics (PTY) Ltd., it
becomes part of what ERP process that makes organisations more competitive and
profitable as Wallace and Kremzar (2001) comment, "Effective forecasting, planning,
and scheduling is fundamental to productivity and ERP is a fundamental way to achieve
it. Properly implementing ERP will give you a competitive advantage and help you run
your business more effectively, efficiently and responsively."
The Operational decision making process that forms part of the research question is a
process known as Sales and Operational Planning process (SOP's). The research
paper is looking at how Real Time Shop floor information can impact on the decision
making process, as Wallace and Kremzar (2001 : 165) state that this is the most
important element in making ERP systems work.
The study looks at what information is required to make effective decisions in the SOP's
process and how the respondents perceive information quality, its value and the impact
on decision making in the SOP's process. The research sought to further investigate a
diverse demographic population, the behavioural culture within the organisation and
their perception on having this information in real time directly from the shop floor. Data
was collected via a survey questionnaire and an interview process which also required
the review of organisational documentation where available.
The research aimed to investigate what information Operations (SOP's) need to make
effective decisions to meet the organisational strategic objectives and to determine the
best means of obtaining and communicating the information to managers. Developing
this further the research was then broken down into three objectives:
• To investigate 'what' information sales and operations managers need in order to
make effective decisions that will have an impact on them meeting strategic
performance objectives. • To evaluate 'how' real time shop floor information can improve the decision
making process in Operations in meeting strategic objectives; by understanding
the types and methods used in decision making and the significance of time on
information.
• To recommend suitable Information Communication Technology (ICT) systems
to obtain and communicate information to managers effectively within operations.
During this process time constraints were of a concern, which manifested in objective
three not being able to be completed to the satisfaction of the researcher. However the
research process, which included the survey and interviews of respondents, the
researcher felt that respondents where honest and open in expressing their views which
adds to the validity and reliability of the research.
The results showed that there was a clear understanding of the topic amongst the
respondents. It showed that the respondents had a good understanding of information
and its importance in meeting strategic objectives by making better decisions. It became
clear that ERP was generally working well but that timeliness of information was the
biggest obstacle in meeting strategic objectives in balancing supply and demand. The
research identified the information necessary for the SOP's process to be effective and
it also showed the impact of having real time shop floor information available to the
decision making process. It also showed that there would be other benefits as
performance could also be improved by having real time performance indicators that are
used to set the pace and common goal.
The report also identified some cultural differences between PFK electronics culture and
NUMSA unionised employees culture and the impact it has on relationships and
communication.
The report concludes with the research question being answered and with a
recommendation that the single most important means of improving operational
effectiveness is going to be to improve the quality of information used in decision making. The research has shown that getting this information in 'real time' or as close
as possible to real time is the best means of improving the quality of information and its
impact on management decisions. It is further recommended to investigate the
implementation of systems such as Manufacturing Execution Systems to link the shop
floor directly into the current ERP system and lastly to find a means of bridging the
cultural differences between NUMSA unionised employees and PFK behavioural
culture. / Graduate School of Business Leadership / M.B.A.
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OPERATIONAL DECISION MAKING IN COMPOUND ENERGY SYSTEMS USING MULTI-LEVEL MULTI PARADIGM SIMULATION BASED OPTIMIZATIONMazhari, Esfandyar M. January 2011 (has links)
A two level hierarchical simulation and decision modeling framework is proposed for electric power networks involving PV based solar generators, various storage, and grid connection. The high level model, from a utility company perspective, concerns operational decision making and defining regulations for customers for a reduced cost and enhanced reliability. The lower level model concerns changes in power quality and changes in demand behavior caused by customers' response to operational decisions and regulations made by the utility company at the high level. The higher level simulation is based on system dynamics and agent-based modeling while the lower level simulation is based on agent-based modeling and circuit-level continuous time modeling. The proposed two level model incorporates a simulation based optimization engine that is a combination of three meta-heuristics including Scatter Search, Tabu Search, and Neural Networks for finding optimum operational decision making. In addition, a reinforcement learning algorithm that uses Markov decision process tools is also used to generate decision policies. An integration and coordination framework is developed, which details the sequence, frequency, and types of interactions between two models. The proposed framework is demonstrated with several case studies with real-time or historical for solar insolation, storage units, demand profiles, and price of electricity of grid (i.e., avoided cost). Challenges that are addressed in case studies and applications include 1) finding a best policy, optimum price and regulation for a utility company while keeping the customers electricity quality within the accepted range, 2) capacity planning of electricity systems with PV generators, storage systems, and grid, and 3) finding the optimum threshold price that is used to decide how much energy should be bought from sold to grid to minimize the cost. Mathematical formulations, and simulation and decision modeling methodologies are presented. A grid-storage analysis is performed for arbitrage, to explore if in future it is going to be beneficial to use storage systems along with grid, with future technological improvement in storage and increasing cost of electrical energy. An information model is discussed that facilitates interoperability of different applications in the proposed hierarchical simulation and decision environment for energy systems.
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