Trunked radio network development for data transmission using OPNET
Tetrapol is a modern digital, cellular trunked radio system for voice and data communication that offers faster call set-up, group calls, priority calls, end-to-end encryption and the possibility of direct calls from mobile station to mobile station without the intervention of the base station. Th...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2010
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| Online Access: | http://hdl.handle.net/10356/41735 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Tetrapol is a modern digital, cellular trunked radio system for voice and data communication that
offers faster call set-up, group calls, priority calls, end-to-end encryption and the possibility of
direct calls from mobile station to mobile station without the intervention of the base station. The
primary users of trunked radio systems include closed user groups such as transport and
logistical services, airports, energy companies and government agencies.
Performance of telecommunication networks may be characterized by Grade of Service (GoS),
defined as the probability of a call being blocked or delayed for more than a specific interval.
The Tetrapol systemts performance is limited by the number of radio channels and the traffic
load. In addition to the contention for limited radio resources, the channel access delay is also
affected by collisions on the shared Control Channel, when mobile stations request for call setup.
In this project a measure of the Tetrapol networkts GoS was estimated in terms of system
utilization, probability of blocked voice calls and the channel access characteristics for data
communications.
A Tetrapol network offering basic voice and data services was modeled using OPNET. Each
base station serves 10 mobile stations, using 2 traffic channels. A number of scenarios were
defined, in which mobile stations offer increasing traffic load to the base station.
The results show that as traffic load increases, the average system utilization increases. The
probability of voice call being blocked also increases to the point where the GoS may be
unacceptable to the user, as data call requests in the queue are always served first. The
channel access delay for data calls also increases, within acceptable limits. As the offered traffic
increases, the impact of collisions on the Control Channel during call set-up is relatively small; it
is the queuing delay that makes up the bulk of the overall channel access delay. |
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