Title :
A macro-microcellular system with mobile user speed estimation
Author :
Grimaldi, A. ; Marano, S. ; Mastroianni, C. ; Scarpelli, M.T.
Author_Institution :
Calabria Univ., Italy
Abstract :
Future cellular systems are expected to use differently sized and shaped cells, depending on the area to be covered (urban or rural) and the user density. This paper proposes a cellular system that uses a two-tier cellular scheme, with macrocells and microcells. Mobile users are grouped into two classes, “slow” and “fast” users: to estimate user speed, a procedure is implemented, based on the evaluation of the amount of time a mobile station resides in a microcell. A channel assignment strategy, which tries to allocate “slow” users to the low tier (microcells) and “fast” users to the high tier (macrocells), is proposed: in this way, low mobility users undergo handovers at microcell boundaries, and high mobility users undergo handovers at macrocell boundaries. A simulation study is carried out to show that the handover rate, as well as the system signaling load, are kept at an acceptable level
Keywords :
cellular radio; frequency allocation; land mobile radio; parameter estimation; telecommunication signalling; cellular systems; channel assignment; fast users; handover rate; high mobility users; high tier; low mobility users; low tier; macro-microcellular system; macrocell boundaries; microcell boundaries; mobile station; mobile user speed estimation; rural area; simulation study; slow users; system signaling load; two-tier cellular scheme; urban area; user density; Base stations; GSM; Interference; Macrocell networks; Microcell networks; Statistics; System performance;
Conference_Titel :
Personal, Indoor and Mobile Radio Communications, 1997. Waves of the Year 2000. PIMRC '97., The 8th IEEE International Symposium on
Conference_Location :
Helsinki
Print_ISBN :
0-7803-3871-5
DOI :
10.1109/PIMRC.1997.630949
