Title :
Derivation of cochannel and adjacent channel reuse ratio distributions in DCA cellular systems
Author :
Jones, Brendan C. ; Skellern, David J.
Author_Institution :
Mobile Network Dev. Group, Cable & Wireless Optus, North Sydney, NSW, Australia
fDate :
1/1/2000 12:00:00 AM
Abstract :
This paper presents the first closed-form analysis of cochannel and adjacent channel reuse ratio distributions in dynamic channel assignment (DCA) cellular systems and compares the results with conventional fixed channel assignment (FCA) cellular systems. Computer simulations show that DCA systems exhibit significantly closer cochannel and adjacent channel frequency reuse than FCA systems for a significant proportion of terminals. Mathematical analysis is used to show that this is a fundamental consequence of DCA channel pooling and that the resultant interference distributions cannot be obtained using conventional cellular engineering techniques. The closed-form expressions derived establish a theoretical lower limit to channel reuse in DCA cellular systems
Keywords :
adjacent channel interference; cellular radio; channel allocation; cochannel interference; frequency allocation; probability; DCA cellular systems; DCA channel pooling; Monte Carlo simulation; adjacent channel interference; adjacent channel reuse ratio distribution; closed-form analysis; cochannel interference; cochannel reuse ratio distribution; dynamic channel assignment; fixed channel assignment; interference distributions; lower limit; mathematical analysis; probability; Australia; Closed-form solution; Computer simulation; Electromagnetic interference; Frequency division multiaccess; Land mobile radio cellular systems; Mathematical analysis; Microcell networks; Radio transmitters; Regions;
Journal_Title :
Vehicular Technology, IEEE Transactions on
