Design considerations for giga-speed laser data link control protocols

Author

Choi, Cheong H. ; Ward, Chris

Author_Institution

MIS Dept., Kwangwoon Univ., Seoul, South Korea

fYear

1998

fDate

12-15 Oct 1998

Firstpage

910

Lastpage

917

Abstract

This paper discusses design considerations for a giga-speed data link control (DLC) protocol designed for low altitude multiple satellite (LAMS) networks. Two important and intimately interrelated design issues are reliability and performance. Both of these are influenced by the inconsistency gap (I_g) associated with the protocol. Closely associated measures are the bounded maximum sender queueing time (MSQT) and maximum receiver holding time (MRHT). This paper discusses these time measures. In LAMS-DLC both MSQT and MRHT are bounded, thus I_g is also bounded. With I_g bounded LAMS-DLC permits continuous operation (i.e. if the DLCP has data available for transmission it will be sent without protocol delays) provided the link is active. These benefits are obtained by relaxing the FIFO reliability constraint found in conventional DLC protocols without permitting packet loss or duplication

Keywords

automatic repeat request; data communication; optical links; protocols; queueing theory; satellite links; telecommunication network reliability; ARQ based protocol; FIFO reliability constraint; bounded maximum sender queueing time; design considerations; giga-speed laser data link control protocols; inconsistency gap; low altitude multiple satellite networks; maximum receiver holding time; packet transmission; performance; reliability; Communication system control; Computer science; Degradation; Laser theory; Mobile communication; Optical control; Optical design; Propagation delay; Protocols; Throughput;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Communications and Networks, 1998. Proceedings. 7th International Conference on

Conference_Location

Lafayette, LA

ISSN

1095-2055

Print_ISBN

0-8186-9014-3

Type

conf

DOI

10.1109/ICCCN.1998.998860

Filename

998860