Media Storage Type : DVD-ROM
NPTEL Course Name : Queuing Systems
NPTEL Subject Matter Expert : Prof. S.K. Bose
NPTEL Co-ordinating Institute : IIT Guwahati
NPTEL Lecture Count : 62
Lecture Titles:
Lecture 1 - Introduction to Queueing Systems
Lecture 2 - Analysis of a Simple Queue
Lecture 3 - Basics of Markov Processes and Markov Chains
Lecture 4 - Markov Chains, Birth-Death Processes, Flow Balance
Lecture 5 - Kendall's Notation, Little's Result, PASTA, M/M/1/∞ Queue
Lecture 6 - M/M/m/∞, M/M/m/m, M/M/1/K Queues, Delay Analysis
Lecture 7 - Departure Process, Burke's Theorem
Lecture 8 - Method of Stages, Batch Arrivals
Lecture 9 - Residual Life Approach
Lecture 10 - Imbedded Markov Chain Approach
Lecture 11 - Delay Analysis
Lecture 12 - Analysis of M/G/1 queue
Lecture 13 - M/G/1 Queue with Multiple Vacations, Residual Life Approach
Lecture 14 - M/G/1 Queue with Multiple Vacations Imbedded Markov Chain Approach
Lecture 15 - M/G/1 Queue with Multiple Vacations, M/G/1 Queue with Exceptional First Service
Lecture 16 - Imbedded Markov Chain at Job Departure Instants
Lecture 17 - Imbedded Markov Chain at Batch Departure Instants
Lecture 18 - Different Types of Priority Operation
Lecture 19 - Analysis using the Residual Life Approach
Lecture 20 - Analysis using the Imbedded Markov Chain Approach
Lecture 21 - M/G/1/K Queue (Single Server Queue with Finite Capacity)
Lecture 22 - Analysis of the M/G/1/K queue
Lecture 23 - Proportionality Relationship, Alternate Analysis
Lecture 24 - Analyzing the G/M/1 Queue
Lecture 25 - Bounds and approximations for the G/G/1 and G/G/m Queues
Lecture 26 - Analyzing the M/G/m/m Queue
Lecture 27 - Introduction to Queuing Networks
Lecture 28 - Classificationof Queueing Networks
Lecture 29 - Fork-join Queues and Introduction to Blocking in Queueing Networks
Lecture 30 - Blocking Models in queueing Networks
Lecture 31 - Splitting and Combining Poisson Processes
Lecture 32 - Jackson's Theorem for Open Networks
Lecture 33 - Product Form Solution for Open Networks
Lecture 34 - Jackson's Theorem for Closed Networks
Lecture 35 - Using Jackson's Theorem for Closed Networks
Lecture 36 - Examples: Analysis of Open and closed Networks
Lecture 37 - Analysis of Closed Networks
Lecture 38 - Convolution Algorithm
Lecture 39 - Examples of analysis using Convolution Algorithm
Lecture 40 - Mean Value Analysis Algorithm
Lecture 41 - Examples of Analysis using MVA Algorithm
Lecture 42 - Norton's Theorem
Lecture 43 - Mixed Networks, QNA
Lecture 44 - Introduction to Discrete Time Queues
Lecture 45 - Geo/G/1 Queue-Late Arrival Model
Lecture 46 - Geo/G/1 Queue- early Arrival Model
Lecture 47 - Introduction
Lecture 48 - Simulating a Queueing System
Lecture 49 - Processing Simulation Results
Lecture 50 - Problems - Introduction
Lecture 51 - Problems - Markov Process and Markov Chains
Lecture 52 - Problems - Basics of Queuing
Lecture 53 - Problems - M/M/-/- Type Queues
Lecture 54 - Problems - M/G/1 Queue
Lecture 55 - Problems - Special Cases of the M/G/1 Queue
Lecture 56 - Problems - M/G/1 Queue with Batch Arrivals
Lecture 57 - Problems - Priority Operation of the M/G/1 Queue
Lecture 58 - Problems - M/G/1/K -Finite Capacity M/G/1 Queue
Lecture 59 - Problems - Open and Closed Networks of M/M/m Type Queues
Lecture 60 - Problems - Analyzing Closed Networks with Convolution and Mean Value Analysis Algorithms
Lecture 61 - Problems - Norton's Theorem, Mixed Networks, QNA
Lecture 62 - Problems - Discrete Time Queues