DocumentCode
2517142
Title
GPRS-features and packet random access channel performance analysis
Author
Gyasi-Agyei, A. ; Halme, S.J. ; Sarker, Jahangir H.
Author_Institution
Commun. Lab., Helsinki Univ. of Technol., Espoo, Finland
fYear
2000
fDate
2000
Firstpage
13
Lastpage
17
Abstract
Mobile data communications (Internet-mobile communication convergence) seems natural as the popularity of both technologies increase. Our purpose in this article was twofold. First, we reviewed GSM, HSCSD (high speed circuit switched data), GPRS and EDGE (enhanced data rate for GSM evolution). Second, the performance of the packet random access channel (PRACH) was analyzed with respect to quality of service parameters: network access delay, throughput, and failure probability. We derived the overall GPRS traffic channel utilization as a function of the throughput and channel holding time. EDGE introduction will decrease the holding time of GPRS terminals due to multilevel encoding and result in higher throughput. Thus, in order to maintain GPRS channel efficiency, PRACH efficiency must be boosted. Thus packet-capturing is introduced to offset access collisions on (P)RACH and increase its efficiency. We noted that the capture effect decreases with access throughput contrary to access delay and failure rate. These QoS parameters are indicative of network performance, hence crucial for novel network planning
Keywords
Internet; cellular radio; channel coding; packet radio networks; quality of service; telecommunication network planning; telecommunication network reliability; EDGE; GPRS terminals; GPRS traffic channel utilization; GSM; HSCSD; Internet; PRACH; access collisions; access throughput; capture effect; channel efficiency; channel holding time; enhanced data rate for GSM evolution; failure probability; high speed circuit switched data; mobile communications; mobile data communications; multilevel encoding; network access delay; network performance; packet random access channel performance analysis; packet-capturing; quality of service; throughput; Communication switching; Data communication; GSM; Ground penetrating radar; Internet; Mobile communication; Performance analysis; Quality of service; Switching circuits; Throughput;
fLanguage
English
Publisher
ieee
Conference_Titel
Networks, 2000. (ICON 2000). Proceedings. IEEE International Conference on
Print_ISBN
0-7695-0777-8
Type
conf
DOI
10.1109/ICON.2000.875762
Filename
875762
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