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- WAITING LINE ANALYSIS
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- WAITING LINES OCCUR IN ALMOST ANY SYSTEM FROM THE SUPERMARKET
- CHECKOUT COUNTER TO THE RUNWAY AT AN AIRPORT. IN ANALYZING
- A WAITING LINE SITUATION, ON THE ONE HAND LONG WAITING LINES
- CAUSE LOSS OF BUSINESS EVEN IF ONLY DUE TO CUSTOMER DISSAT-
- FACTION WHILE INCREASING SERVICE INCREASES COSTS. IN THIS
- WE ASSUME THERE IS A SINGLE SERVER(E.G. CHECKOUT PERSON),
- WHO CAN SERVE,ON AVERAGE, A GIVEN NUMBER OF CUSTOMERS PER
- TIME. THE CUSTOMERS ARRIVE RANDOMLY AT SOME OTHER AVERAGE RATE.
- THE WAITING LINE IS FIRST COME-FIRST SERVED. WE EXAMINE THE
- PROBABILISTIC CHARACTERISTICS OF THE WAITING LINE OR QUEUE
- AS IT IS GENERALLY CALLED. THE AVERAGE SERVICE RATE IS THE
- MEAN SERVICE RATE WHILE THE AVERAGE ARRIVAL RATE IS THE MEAN
- ARRIVAL RATE.
- PRESS ENTER TO CONTINUE?
- ONE REQUIREMENT IS THAT THE MEAN SERVICE RATE BE GREATER
- THAN THE MEAN ARRIVAL RATE. OTHERWISE THE QUEUE WOULD GET
- INFINITELY LONG.
-
- WHAT AVARAGE MEANS IS SOMETIMES LONGER,SOMETIMES SHORTER BUT
- IF SOMEONE LOKKED AT THE WAITING LINE EVERY DAY FOR A MONTH
- THEN THE AVERAGE(MEAN) QUEUE LENGTH FOR THE MONTH WOULD BE
- CLOSE TO WHAT WAS COMPUTED HERE.
- PRESS ENTER TO BEGIN?
- THE FOLLOWING ARE IN NUMBER PER UNIT TIME
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- ENTER MEAN ARRIVAL RATE OF UNITS? 34
- ENTER MEAN SERVICE RATE OF UNITS? 45
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- AVERAGE LENGTH OF THE QUEUE = 2.33535
- AVERAGE LENGTH OF THE SYSTEM = 3.09091
- AVERAGE WAITING TIME ON QUEUE = 6.86869E-2
- AVERAGE TIME WAITING IN SYSTEM = 9.09091E-2
- PROBABILITY SYSTEM IS BUSY = .755556
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- SYSTEM TIME IS WAITING TIME PLUS SERVICE TIME.
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- PRESS ENTER FOR MORE? -1
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