Could someone offer an opinion as to whether and how the Erlang model can be applied to the following problem:
A simple telephone system consists of two end offices and a single
toll office to which each end office is connected by a 1-MHz
full-duplex trunk. The average telephone is used to make four calls per 8-hour workday. The mean call duration is 6 min. Ten percent of the calls are long-distance (i.e., pass through the toll office). What is the maximum number of telephones an end office can support? (Assume 4 kHz per circuit.)
4 call in 8 hours give you 0.5 calls in Busy hour. The BHCA of 0.5 multiplied by 360 seconds of Call hold time gives you 0.05 erlang traffic per subscriber.
as 10% traffic goes through the toll, it means 0.005 erlang per sub in busy hour is the traffic requirement.
1 MHz i am assuming half E1 that gives 16 servers. (assuming PCM with 64 kbps time slot). 16 timeslots will give you almost 5 erlangs (4.8 er). 4.8 divided by 0.005 gives you around 960 subscribers.
Really GSM technology uses Diversity system for better Quality.if yes ,when we remove div RF cable why we get Trx faulty”
and one more is
how to remove the bts internal alm”Rx level differ too much betveen main and diversity”
and could you suggest a good book on GSM that for telecom engg