Pingping Dong
Hunan Normal University
29 Papers
57 Citations
Pingping Dong is an academic researcher from Hunan Normal University. The author has contributed to research in topics: Computer science & Network congestion. The author has an hindex of 8, co-authored 23 publications. Previous affiliations of Pingping Dong include Central South University.
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Papers
Connected Vehicle as a Mobile Sensor for Real Time Queue Length at Signalized Intersections.
TL;DR: In mixed traffic environments of connected vehicles and unconnected vehicles, the queuing length sensing model proposed in this paper has higher performance than the probability distribution (PD) model when the penetration rate is low, and it has an almost equivalent performance with higher penetration rate while the penetration rates are not needed.
126
Performance Enhancement of Multipath TCP for Wireless Communications With Multiple Radio Interfaces
TL;DR: A new mVeno algorithm is proposed, which makes full use of the congestion information of all the subflows belonging to a TCP connection in order to adaptively adjust the transmission rate of each subflow.
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Reducing transport latency for short flows with multipath TCP
TL;DR: DMPTCP is proposed, which dynamically adjusts the subflows according to application workloads and decreases the completion time for short flows while increases the Goodput up to 21.3% for long-lived flows.
34
Loss-Aware Throughput Estimation Scheduler for Multi-Path TCP in Heterogeneous Wireless Networks
TL;DR: This paper takes the first step towards analyzing the impact of packet loss on OFO, and proposes Loss-Aware Throughput Estimation scheduler, LATE, which comprehensively considers each subflow’s path characteristics and protocol parameters including Round Trip Time (RTT), congestion window (cwnd), and loss rate, to predict the data amount that can be sent over each subflows at a given time.
24
Adaptive explicit congestion control based on bandwidth estimation for high bandwidth-delay product networks ☆
TL;DR: Simulation results show that VCP-BE also outperforms MLCP, which uses seven bits for explicit feedback while V CP-BE only uses two ECN bits, thus greatly improves its convergence speed of achieving high bandwidth utilization and fairness.
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