Coverart for item
The Resource Modeling and simulation, Pratiksha Saxena

Modeling and simulation, Pratiksha Saxena

Label
Modeling and simulation
Title
Modeling and simulation
Statement of responsibility
Pratiksha Saxena
Creator
Subject
Language
eng
Cataloging source
BTCTA
http://library.link/vocab/creatorName
Saxena, Pratiksha
Illustrations
illustrations
Index
index present
Literary form
non fiction
Nature of contents
bibliography
http://library.link/vocab/subjectName
Simulation methods
Label
Modeling and simulation, Pratiksha Saxena
Instantiates
Publication
Bibliography note
Includes bibliographical references and index
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Types of Activities
  • 1.4.
  • Continuous and Discrete System
  • 1.5.
  • System Modeling
  • 1.6.
  • Types of Model
  • 2.
  • System Simulation
  • 2.1.
  • Machine generated contents note:
  • Introduction
  • 2.2.
  • The Power of Simulation
  • 2.3.
  • Technique of Simulation
  • 2.4.
  • Why to Simulate
  • 2.5.
  • When to use Simulation
  • 2.6.
  • 1.
  • Advantage of Simulation
  • 2.7.
  • Basic Nature of Simulation
  • 2.8.
  • Comparison of Analytical and Simulation Method
  • 2.9.
  • Real Time Simulation
  • 2.10.
  • Hybrid Simulation
  • 2.11.
  • System Models
  • Monte Carlo Simulation
  • 2.12.
  • Distributed Lag Models
  • 2.13.
  • Cobweb Model
  • 2.14.
  • Simulation of Pure Pursuit Problem
  • 2.15.
  • Simulation Study
  • 3.
  • 1.1.
  • Simulation of Continuous Systems
  • 3.1.
  • Introduction
  • System, Components and Model
  • 1.2.
  • System Environment
  • 1.3.
  • 3.6.
  • Simulation of an Autopilot
  • 4.
  • Simulation of Discrete Systems
  • 4.1.
  • Discrete System
  • 4.2.
  • Simulation of Discrete System
  • 4.3.
  • Discrete Event Simulators
  • 3.2.
  • 4.4.
  • Component of Discrete Event Simulation
  • 4.5.
  • How Discrete Event Simulation Works
  • 4.6.
  • Overview of Discrete System
  • 4.7.
  • Fixed Time Step Versus Event to Event Model
  • 4.8.
  • Random Number Generator
  • Mathematical Modeling Tool
  • 5.
  • Stochastic Processes -- Simulation of Queuing Models
  • 5.1.
  • Introduction
  • 5.2.
  • Queuing Theory
  • 5.3.
  • Arrival Time Distribution
  • 5.4.
  • Transient State and Steady State
  • 3.3.
  • 5.5.
  • Assumption and Performance Measures for Queuing System
  • 5.6.
  • Classification of Queuing Models
  • 5.7.
  • Simulation of Single Server Queuing Model
  • Analog Versus Digital Simulation
  • 3.4.
  • Simulation of a Water Reservoir
  • 3.5.
  • Simulation of a Servo System
  • 6.2.
  • Elements of Inventory System
  • 6.3.
  • Classification of Inventory
  • 6.4.
  • Cost Related to Inventory
  • 6.5.
  • Notations for Inventory System
  • 6.6.
  • Size of Demand and EOQ
  • 5.8.
  • 6.7.
  • Different Inventory Model
  • 6.8.
  • Simulation Model of Inventory System
  • 7.
  • Simulation of PERT and CPM Network
  • 7.1.
  • Introduction
  • 7.2.
  • History of PERT and CPM
  • Simulation of Multiple Server Queuing Model
  • 7.3.
  • Components of PERT-CPM Network
  • 7.4.
  • Network Construction using CPM and PERT
  • 7.5.
  • Steps of Network Construction
  • 7.6.
  • Drawing the CPM/PERT Network
  • 7.7.
  • Gantt Chart
  • 5.9.
  • 7.8.
  • Limitations of PERT and CPM
  • 7.9.
  • Comparison of CPM and PERT
  • 7.10.
  • Simulation of PERT and CPM Network
  • 8.
  • System Dynamics
  • 8.1.
  • Introduction
  • Simulation of a Telephone System
  • 6.
  • Simulation of Inventory System
  • 6.1.
  • Introduction
  • 8.6.
  • Exponential Decay Model
  • 8.7.
  • Logarithmic Model
  • 8.8.
  • A One-Sector Inventory Model
  • 9.
  • Simulation Language
  • 9.1.
  • Introduction
  • 8.2.
  • 9.2.
  • Features of Structured Simulation Languages
  • 9.3.
  • Continuous Simulation Languages
  • 9.4.
  • Different Type of Continuous Simulation Languages
  • 9.5.
  • Discrete Simulation Language
  • 9.6.
  • Different Type of Discrete Simulation Languages
  • System Dynamics Diagram and Notations
  • 10.
  • Design and Verification of Simulation Experiments
  • 10.1.
  • Introduction
  • 10.2.
  • Validation and Verification of Simulation Model
  • 10.3.
  • Verification Techniques
  • 10.4.
  • Static Testing Versus Dynamic Testing
  • 8.3.
  • 10.5.
  • Validation Techniques
  • 10.6.
  • Model Based Testing
  • Feedback Diagram
  • 8.4.
  • Stock and Flow Diagram
  • 8.5.
  • Exponential Growth Models
Control code
401170153
Dimensions
25 cm
Extent
1 volume (various paging)
Isbn
9781842654767
Media category
unmediated
Media MARC source
rdamedia
Media type code
  • n
Other physical details
illustrations
System control number
(OCoLC)401170153
Label
Modeling and simulation, Pratiksha Saxena
Publication
Bibliography note
Includes bibliographical references and index
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Types of Activities
  • 1.4.
  • Continuous and Discrete System
  • 1.5.
  • System Modeling
  • 1.6.
  • Types of Model
  • 2.
  • System Simulation
  • 2.1.
  • Machine generated contents note:
  • Introduction
  • 2.2.
  • The Power of Simulation
  • 2.3.
  • Technique of Simulation
  • 2.4.
  • Why to Simulate
  • 2.5.
  • When to use Simulation
  • 2.6.
  • 1.
  • Advantage of Simulation
  • 2.7.
  • Basic Nature of Simulation
  • 2.8.
  • Comparison of Analytical and Simulation Method
  • 2.9.
  • Real Time Simulation
  • 2.10.
  • Hybrid Simulation
  • 2.11.
  • System Models
  • Monte Carlo Simulation
  • 2.12.
  • Distributed Lag Models
  • 2.13.
  • Cobweb Model
  • 2.14.
  • Simulation of Pure Pursuit Problem
  • 2.15.
  • Simulation Study
  • 3.
  • 1.1.
  • Simulation of Continuous Systems
  • 3.1.
  • Introduction
  • System, Components and Model
  • 1.2.
  • System Environment
  • 1.3.
  • 3.6.
  • Simulation of an Autopilot
  • 4.
  • Simulation of Discrete Systems
  • 4.1.
  • Discrete System
  • 4.2.
  • Simulation of Discrete System
  • 4.3.
  • Discrete Event Simulators
  • 3.2.
  • 4.4.
  • Component of Discrete Event Simulation
  • 4.5.
  • How Discrete Event Simulation Works
  • 4.6.
  • Overview of Discrete System
  • 4.7.
  • Fixed Time Step Versus Event to Event Model
  • 4.8.
  • Random Number Generator
  • Mathematical Modeling Tool
  • 5.
  • Stochastic Processes -- Simulation of Queuing Models
  • 5.1.
  • Introduction
  • 5.2.
  • Queuing Theory
  • 5.3.
  • Arrival Time Distribution
  • 5.4.
  • Transient State and Steady State
  • 3.3.
  • 5.5.
  • Assumption and Performance Measures for Queuing System
  • 5.6.
  • Classification of Queuing Models
  • 5.7.
  • Simulation of Single Server Queuing Model
  • Analog Versus Digital Simulation
  • 3.4.
  • Simulation of a Water Reservoir
  • 3.5.
  • Simulation of a Servo System
  • 6.2.
  • Elements of Inventory System
  • 6.3.
  • Classification of Inventory
  • 6.4.
  • Cost Related to Inventory
  • 6.5.
  • Notations for Inventory System
  • 6.6.
  • Size of Demand and EOQ
  • 5.8.
  • 6.7.
  • Different Inventory Model
  • 6.8.
  • Simulation Model of Inventory System
  • 7.
  • Simulation of PERT and CPM Network
  • 7.1.
  • Introduction
  • 7.2.
  • History of PERT and CPM
  • Simulation of Multiple Server Queuing Model
  • 7.3.
  • Components of PERT-CPM Network
  • 7.4.
  • Network Construction using CPM and PERT
  • 7.5.
  • Steps of Network Construction
  • 7.6.
  • Drawing the CPM/PERT Network
  • 7.7.
  • Gantt Chart
  • 5.9.
  • 7.8.
  • Limitations of PERT and CPM
  • 7.9.
  • Comparison of CPM and PERT
  • 7.10.
  • Simulation of PERT and CPM Network
  • 8.
  • System Dynamics
  • 8.1.
  • Introduction
  • Simulation of a Telephone System
  • 6.
  • Simulation of Inventory System
  • 6.1.
  • Introduction
  • 8.6.
  • Exponential Decay Model
  • 8.7.
  • Logarithmic Model
  • 8.8.
  • A One-Sector Inventory Model
  • 9.
  • Simulation Language
  • 9.1.
  • Introduction
  • 8.2.
  • 9.2.
  • Features of Structured Simulation Languages
  • 9.3.
  • Continuous Simulation Languages
  • 9.4.
  • Different Type of Continuous Simulation Languages
  • 9.5.
  • Discrete Simulation Language
  • 9.6.
  • Different Type of Discrete Simulation Languages
  • System Dynamics Diagram and Notations
  • 10.
  • Design and Verification of Simulation Experiments
  • 10.1.
  • Introduction
  • 10.2.
  • Validation and Verification of Simulation Model
  • 10.3.
  • Verification Techniques
  • 10.4.
  • Static Testing Versus Dynamic Testing
  • 8.3.
  • 10.5.
  • Validation Techniques
  • 10.6.
  • Model Based Testing
  • Feedback Diagram
  • 8.4.
  • Stock and Flow Diagram
  • 8.5.
  • Exponential Growth Models
Control code
401170153
Dimensions
25 cm
Extent
1 volume (various paging)
Isbn
9781842654767
Media category
unmediated
Media MARC source
rdamedia
Media type code
  • n
Other physical details
illustrations
System control number
(OCoLC)401170153

Library Locations

    • Engineering Library & Technology CommonsBorrow it
      W2001 Lafferre Hall, Columbia, MO, 65211, US
      38.946102 -92.330125
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