A certain city has an area of 1,300 square miles and is covered by a cellular system using a seven-cell reuse pattern. Each cell has a radius of four miles and the city is allocated 40 MHz of spectrum with a full duplex channel bandwidth of 60kHz. Assume a GOS of 2% for an Erlang B system is specified. If the offered traffic per user is 0.03 Erlangs, compute a) The number of cells in the service area (A: 31 cells) b) The number of channels per cell (A: 95 channels/cell) c) Traffic intensity of each cell (A: 84 Erlang/cell) d) The maximum carried traffic (A: 2604 Erlangs) e) The total number of users that can be served for 2% GOS (A: 86,800 users) n The number of mobiles per unique channel (A: 130 mobiles/channel) 9) The theoretical maximum number of users could be served at one time. (A: 2945 users)

Wireless Communication

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A certain city has an area of 1,300 square miles and is covered by a cellular system using a seven-cell reuse pattern. Each cell has a radius of four miles and the city is allocated 40 MHz of spectrum with a full duplex channel bandwidth of 60kHz. Assume a GOS of 2% for an Erlang B system is specified. If the offered traffic per user is 0.03 Erlangs, compute a) The number of cells in the service area (A: 31 cells) b) The number of channels per cell (A: 95 channels/cell) c) Traffic intensity of each cell (A: 84 Erlang/cell) d) The maximum carried traffic (A: 2604 Erlangs) e) The total number of users that can be served for 2% GOS (A: 86,800 users) The number of mobiles per unique channel (A: 130 mobiles/channel) 9) The theoretical maximum number of users could be served at one time. (A: 2945 users)