Litcius/Paper detail

A Study of Licklider Transmission Protocol in Deep-Space Communications in Presence of Link Disruptions

Lei Yang, Jie Liang, Ruhai Wang, Xingya Liu, Mauro De Sanctis, Scott Burleigh, Kanglian Zhao

2023IEEE Transactions on Aerospace and Electronic Systems15 citationsDOI

Abstract

Delay/disruption-tolerant networking (DTN) is widely recognized as a key internetworking technology for implementing a space system of systems (SoS). Aimed at being the main data transport protocol of DTN, Licklider transmission protocol (LTP) is expected to provide reliable data transmission service in a challenging space SoS networking environment regardless of random link disruptions. In this paper, a study of LTP in deep-space communication networks in presence of link disruptions is presented. An analytical framework is developed for the effect of multiple random link disruptions on LTP's reliable data delivery in deep-space networks. The study indicates that the models accurately predict the transmission performance of LTP over a deep-space communication channel in presence of multiple link disruptions. A threshold interval value, obtained from the analytical modeling results, is proposed as a means of determining the reducibility of two successive link disruptions to a single disruption; that threshold value is verified by the experiments.

Topics & Concepts

Transmission (telecommunications)Computer scienceComputer networkData linkData transmissionProtocol (science)InternetworkingChannel (broadcasting)Distributed computingTelecommunicationsThe InternetPathologyMedicineWorld Wide WebAlternative medicineOpportunistic and Delay-Tolerant NetworksMobile Ad Hoc NetworksCaching and Content Delivery