R
Ruhai Wang
Researcher at Lamar University
Publications - 107
Citations - 1507
Ruhai Wang is an academic researcher from Lamar University. The author has contributed to research in topics: Licklider Transmission Protocol & Communication channel. The author has an hindex of 21, co-authored 99 publications receiving 1229 citations. Previous affiliations of Ruhai Wang include Nanjing University & Soochow University (Suzhou).
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Delay Sensitive Task Offloading in the 802.11p Based Vehicular Fog Computing Systems
TL;DR: In this paper, the authors proposed an optimal task offloading scheme to maximize the long-term reward of the system where 802.11p is employed as the transmission protocol for the communications between vehicles.
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LTP Aggregation of DTN Bundles in Space Communications
TL;DR: This work studies the effect of aggregation of data bundles in space communications characterized by asymmetric and low channel rates and intends to find the number of bundles which should be aggregated within a block for the best performance over highly asymmetric cislunar channel rates.
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Analytical characterization of licklider transmission protocol (LTP) in cislunar communications
Zhihua Yang,Ruhai Wang,Qian Yu,Xue Sun,Mauro De Sanctis,Qinyu Zhang,Jianling Hu,Kanglian Zhao +7 more
TL;DR: Analytical models are built to characterize LTPCL with respect to the minimum number of bundle protocol (BP) bundles that should be aggregated to avoid delay in acknowledgment (ACK) transmission and the optimal number of bundles to be aggregation for the best transmission efficiency of BP/LTPCL.
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Integration of Reed-Solomon codes to licklider transmission protocol (LTP) for space DTN
Leilei Shi,Jian Jiao,Alaa Sabbagh,Ruhai Wang,Qian Yu,Jianling Hu,Hong Wang,Scott Burleigh,Kanglian Zhao +8 more
TL;DR: DTN is presently recognized as the only candidate protocol that approaches the level of maturity required to handle the inevitable long link delay, frequent and lengthy link disconnections, and heavy data loss inherent in space communications.
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Modeling memory-variation dynamics for the Licklider transmission protocol in deep-space communications
TL;DR: A study of memory dynamics for LTP-based transmission in a typical relay-based deep-space communication system characterized by an extremely long signal-propagation delay, lossy data links, and asymmetric data rates.