Path-Rank-Based Data Chunk Scheduling for Concurrent Multipath Transmission

Abstract

Abstract The device equipped with a multi-homing feature optimally exploits multiple network interfaces in modern communications networks such as the Internet of Things (IoT) and machine-to-machine communication using the concurrent multipath transfer (CMT). This enhances system performance by concurrently scheduling data chunks on multiple network paths. For a while, several scheduling criteria have been developed to optimize performance. However, it has been identified that CMT still suffers from many serious problems, such as spurious retransmission, receiver buffer blocking, improper congestion window (CWND) growth, re-ordering and long round trip time, resulting in poor performance. These problems occur due to the asymmetric nature of path characteristics. Thus, this paper introduces a path rank-based CMT (R-CMT) that schedules data chunks according to the rank of the path. The proposed scheduling method calculates the rank of each network path based on the ratio of successfully received and transmitted chunks. The simulation results indicate that the proposed R-CMT scheduling achieves higher performance in terms of network latency, throughput and CWND growth.