1. Queuing Theory II

2. Model p = - ( ) l m L = - l m L = - l m ( ) W = - m l 1 W = - l m ( )n = - ( ) l m L = - l m L q = - l m 2 ( ) W = - m l 1 W q = - l m ( )

3. M/M/1 Queue Finite Capacity1 2 3
N-1 N
State Balance Eq. 1 N l m p 1 = l m p 2 1 + = l p N 1 - m p N =

4. M/M/1 Queue Finite Capacity1 2 3
N-1 N
Now, p n N = å 1 p n N = å 1 ( ) l m

5. M/M/1 Queue Finite Capacity1 2 3 5 6
Workstation receives parts form a conveyor. Station has buffer capacity for 5 parts in addition to the 1 part to work on (N=6). Parts arrive in accordance with a Poisson process with rate of 1 / min. Service time is exp. with mean = 45 sec. (m = 4/3).

6. M/M/1 Queue Finite Capacity

7. M/M/1 Queue Finite Capacity

8. M/M/1 Queue Finite Capacity

9. M/M/1 Queue Finite Capacity
L Lq

10. M/M/1 Queue Finite Capacity1 2 3
N-1 N p n N = å 1 ( ) l m
Recall, x n N = + å - 1

11. M/M/1 Queue Finite Capacity1 2 3
N-1 N p n N = å 1 ( ) l m 1 = - + p N ( ) l m

12. M/M/1 Queue Finite Capacity1 2 3
N-1 N 1 = - + p N ( ) l m m p N 1 = - + ( ) l

13. M/M/1 Queue Finite Capacity1 2 3
N-1 N m p N 1 = - + ( ) l m p n N 1 = - + ( ) l

14. M/M/1 Queue Finite Capacity1 2 3
N-1 N m L np n N = - + å 1 ( ) l

15. M/M/1 Queue Finite Capacity1 2 3
N-1 N
Miracle 37 b L N = + - l m [ ( ) )( ] )[ 1

16. M/M/1 Queue Finite Capacity1 2 3 5 6
Workstation receives parts form a conveyor. Station has buffer capacity for 5 parts in addition to the 1 part to work on (N=6). Parts arrive in accordance with a Poisson process with rate of 1 / min. Service time is exp. with mean = 45 sec. (m = 4/3). ( ) . l m = 75

17. M/M/1 Queue Finite Capacity1 2 3 5 6 ( ) . l m = 75
l = N = 6
m = 4/3 = 1.33 L = + - 1 6 75 7 33 92 [ ( . ) )( ]

18. Little’s Revisted L W = * . ??? l 1 96 W L = l 1 92 . L W = l 1 21 . m3 1 2 5 6 W L = l 1 92 . L W q = l 1 21 . m W q = + 1 96 . L W = * .
??? l 1 96

19. Little’s Revisited
l l l l l l 3 1 2 5 6 l = å n p M / 1 l p n = å

20. å Little’s Revisited l = p M / 1 6 l p ( ) 1 = + - l l l l l l 3 1 2 53 1 2 5 6 l = å n p M / 1 6 l p ( ) 1 2 3 4 5 6 = + -

21. Little’s Revisited
l l l l l l 3 1 2 5 6 l = - 1
051
949 6 ( ) . p

22. Little’s Revisited
l l l l l l 3 1 2 5 6 l =
949 . l L = 2
025 . W

23. Little’s Revisited l = 949 . W = 2 025 . W = - 1 2 025 75 275 . m
l l l l l l 3 1 2 5 6 l =
949 . W = 2
025 . W q = - 1 2
025 75
275 . m

24. Little’s Revisited l = 949 . W = 2 025 . W = 1 275 . l L W = 949 1 275
l l l l l l 3 1 2 5 6 l =
949 . W = 2
025 . W q = 1
275 . l L W q =
949 1
275
210 . ( )