دانلود کتاب Queues Applied to Telecoms: Courses and Exercises
کتاب صف های اعمال شده در مخابرات: دوره ها و تمرین ها نسخه زبان اصلی
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توضیحاتی در مورد کتاب Queues Applied to Telecoms: Courses and Exercises
نام کتاب : Queues Applied to Telecoms: Courses and Exercises
عنوان ترجمه شده به فارسی : صف های اعمال شده در مخابرات: دوره ها و تمرین ها
سری : Networks & Telecommunications Series
نویسندگان : Toky Basilide Ravaliminoarimalalason, Falimanana Randimbindrainibe
ناشر : Wiley-ISTE
سال نشر : 2023
تعداد صفحات : 271
ISBN (شابک) : 1786309041 , 9781786309044
زبان کتاب : English
فرمت کتاب : pdf
حجم کتاب : 9 مگابایت
بعد از تکمیل فرایند پرداخت لینک دانلود کتاب ارائه خواهد شد. درصورت ثبت نام و ورود به حساب کاربری خود قادر خواهید بود لیست کتاب های خریداری شده را مشاهده فرمایید.
فهرست مطالب :
Cover
Title Page
Copyright Page
Contents
Notations
Preface
Part 1. Typical Processes in Queues
Chapter 1. The Poisson Process
1.1. Review of the exponential distribution
1.1.1. Definitions
1.1.2. The properties of an exponential distribution
1.2. Poisson process
1.2.1. Definitions
1.2.2. Properties of the Poisson process
1.3. Exercises
Chapter 2. Markov Chains
2.1. Markov chains in discrete time
2.1.1. Definitions
2.1.2. Evolution of a stochastic vector over time
2.1.3. Asymptotic behavior
2.1.4. Holding time in a state
2.1.5. Time-reversible chain
2.1.6. Reversible Markov chains
2.1.7. Kolmogorov’s criterion
2.2. Markov chains in continuous time
2.2.1. Definitions
2.2.2. Evolution over time
2.2.3. Resolving the state equation
2.2.4. Asymptotic behavior
2.3. Birth and death process
2.3.1. Definition
2.3.2. Infinitesimal stochastic generator
2.3.3. Stationary distribution
2.4. Exercises
Part 2. Queues
Chapter 3. Common Queues
3.1. Arrival process of customers in a queue
3.1.1. The Poisson process
3.1.2. Using the Poisson distribution
3.1.3. Exponential distribution of delay times
3.2. Queueing systems
3.2.1. Notation for queueing systems
3.2.2. Little distributions
3.2.3. Offered traffic
3.3. M/M/1 queue
3.3.1. Stationary distribution
3.3.2. Characteristics of the M/M/1 queue
3.3.3. Introducing a factor of impatience
3.4. M/M/‡ queue
3.5. M/M/n/n queue
3.5.1. Stationary distribution
3.5.2. Erlang-B formula
3.5.3. Characteristics of the M/M/n/n queue
3.6. M/M/n queue
3.6.1. Stationary distribution
3.6.2. Erlang-C formula
3.6.3. Characteristics of the M/M/n queue
3.7. M/GI/1 queue
3.7.1. Stationary distribution
3.7.2. Characteristics of the M/GI/1 queue
3.8. Exercises
Chapter 4. Product-Form Queueing Networks
4.1. Jackson networks
4.1.1. Definition of a Jackson network
4.1.2. Stationary distribution
4.1.3. The particular case of the Jackson theorem for open networks
4.1.4. Generalization of Jackson networks: BCMP networks
4.2. Whittle networks
4.2.1. Definition of a Whittle network
4.2.2. Stationary distribution
4.2.3. Properties of a Whittle network
4.3. Exercise
Part 3. Teletraffic
Chapter 5. Notion of Teletraffic
5.1. Teletraffic and its objectives
5.2. Definitions
5.2.1. Measures in teletraffic
5.2.2. Sources and resources
5.2.3. Requests and holding time
5.2.4. Traffic
5.3. Measuring and foreseeing traffic
5.3.1. Traffic and service quality
5.3.2. Measuring traffic
5.3.3. Markovian model of traffic
5.3.4. Economy and traffic forecasting
5.4. Exercises
Chapter 6. Resource Requests and Activity
6.1. Infinite number of sources
6.1.1. Distribution of requests in continuous time
6.1.2. Distribution of requests in discrete time
6.1.3. Duration of activity distributions
6.1.4. Distribution of busy sources
6.2. Finite number of sources
6.2.1. Modeling with birth and death processes
6.2.2. Distribution of requests
6.3. Traffic peaks and randomness
6.3.1. Traffic peaks
6.3.2. Pure chance traffic
6.4. Recapitulation
6.5. Exercises
Chapter 7. The Teletraffic of Loss Systems
7.1. Loss systems
7.1.1. Definitions
7.1.2. Blocking and loss
7.2. The Erlang model
7.2.1. Infinite number of resources
7.2.2. Finite number of resources
7.2.3. Erlang-B formula
7.2.4. Dimensioning principles
7.3. Engset model
7.3.1. Sufficient number of resources
7.3.2. Insufficient number of resources
7.3.3. On the Engset loss formula
7.4. Imperfect loss systems
7.4.1. Loss probability in an imperfect system with limited and constant accessibility
7.4.2. Losses in a system with limited and variable accessibility
7.5. Exercises
Chapter 8. Teletraffic in Delay Systems
8.1. Delay system
8.1.1. Description
8.1.2. Characteristics of delay
8.2. Erlang model
8.2.1. Infinitely long queue
8.2.2. Erlang-C formula
8.2.3. Distribution of delays
8.3. Finite waiting capacity model
8.3.1. Queues of finite length
8.3.2. Limitations affecting the delay
8.4. Palm model
8.4.1. M/M/n/N/N queue
8.4.2. Characteristics of traffic
8.5. General distribution model for activity
8.5.1. The Pollaczek–Khinchine formula
8.5.2. Activity with a constant duration
8.6. Exercises
Part 4. Answers to Exercises
Chapter 9. Chapter 1 Exercises
Chapter 10. Chapter 2 Exercises
Chapter 11. Chapter 3 Exercises
Chapter 12. Chapter 4 Exercise
Chapter 13. Chapter 5 Exercises
Chapter 14. Chapter 6 Exercises
Chapter 15. Chapter 7 Exercises
Chapter 16. Chapter 8 Exercises
Part 5. Appendices
Appendix 1
Appendix 2
References
Index
EULA
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