DocumentCode
1685821
Title
Doppler based multiple access (DBMA): a novel flow control mechanism for LEO satellite systems
Author
Ali, Itfan ; Dhahir, Naofal Al ; Hershey, John E. ; Saulnier, Gary J. ; Nelson, Robert
Author_Institution
Corp. Res. & Dev., Gen. Electr. Co., Schenectady, NY, USA
Volume
1
fYear
1997
Firstpage
103
Abstract
The problem of flow control for little LEO satellite communication systems is studied. In these systems the satellites functions as a “bent pipe” transponder for messaging between small terminals (tags) and a control and data acquisition (CDA) Earth station. A novel scheme for averting traffic overflow on the in-bound channel (from tag to CDA), which we call “Doppler based multiple access (DBMA)”, is introduced. In DBMA, the CDA specifies a subset of the visibility footprint as a region of eligibility (ROE). Only tags located in the ROE are permitted to transmit. By varying the area and location of the ROE, effective flow control is achieved on the inbound channel. The ROEs are specified in terms of parameters of the Doppler S-curve observed at tags on the outbound channel. The effectiveness and elegance of DBMA protocol are illustrated through computer simulations
Keywords
Doppler effect; access protocols; multi-access systems; satellite communication; telecommunication congestion control; transponders; DBMA; DBMA protocol; Doppler S-curve; Doppler based multiple access; Earth station; bent pipe transponder; computer simulations; data acquisition; flow control mechanism; in-bound channel; little LEO satellite communication systems; messaging; outbound channel; region of eligibility; traffic overflow; visibility footprint; Communication system control; Communication system traffic control; Computer simulation; Control systems; Data acquisition; Low earth orbit satellites; Protocols; Satellite communication; Satellite ground stations; Transponders;
fLanguage
English
Publisher
ieee
Conference_Titel
MILCOM 97 Proceedings
Conference_Location
Monterey, CA
Print_ISBN
0-7803-4249-6
Type
conf
DOI
10.1109/MILCOM.1997.648679
Filename
648679
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