A LDDoS-Aware Energy-Efficient Multipathing Scheme for Mobile Cloud Computing Systems

The multi-homed mobile devices in the mobile cloud computing (MCC) systems can improve their throughput by allocating the application data over several paths simultaneously, enabled by the promising Multipath TCP (MPTCP) technology. Meanwhile, network attacks against current Internet infrastructures...

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Published in	IEEE access Vol. 5; pp. 21862 - 21872
Main Authors	Cao, Yuanlong, Song, Fei, Liu, Qinghua, Huang, Minghe, Wang, Hao, You, Ilsun
Format	Journal Article
Language	English
Published	Piscataway IEEE 01.01.2017 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Bandwidth Cloud computing Denial of service attacks Electronic devices Energy consumption energy usage failure detection low-rate DDoS attacks Mobile cloud applications Mobile communication Mobile computing Mobile handsets Multipath TCP Multipath transmission Performance degradation Performance evaluation Power consumption Quality of service architectures Throughput
Online Access	Get full text
ISSN	2169-3536 2169-3536
DOI	10.1109/ACCESS.2017.2731899

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Abstract	The multi-homed mobile devices in the mobile cloud computing (MCC) systems can improve their throughput by allocating the application data over several paths simultaneously, enabled by the promising Multipath TCP (MPTCP) technology. Meanwhile, network attacks against current Internet infrastructures are likely to increase, especially with the widely deployment of MCC systems. When a MPTCP connection is under network attacks and becomes a poor-performing path or a broken path, it can significantly affect other stable paths and in the absence of related schemes to handle this, MPTCP will undoubtedly suffer from serious performance degradation. Moreover, applying MPTCP to cloud data delivery may generally lead to higher energy consumption and is not favorable to a power-constrained mobile device. In this paper, we propose MPTCP-La/E 2 , a low-rate distributed denial-of-service (LDDoS) attack-aware energy-efficient MPTCP solution aiming at: 1) avoiding the LDDoS-caused performance degradation of cloud multipath transmission, which has been seldom considered in existing MPTCP solutions and 2) optimizing the energy usage while still maintaining user's perceived quality of cloud multipathing services. The simulation results show that MPTCP-La/E 2 outperforms the baseline MPTCP in terms of QoS and energy-savings in a multihomed MCC network environment.
AbstractList	The multi-homed mobile devices in the mobile cloud computing (MCC) systems can improve their throughput by allocating the application data over several paths simultaneously, enabled by the promising Multipath TCP (MPTCP) technology. Meanwhile, network attacks against current Internet infrastructures are likely to increase, especially with the widely deployment of MCC systems. When a MPTCP connection is under network attacks and becomes a poor-performing path or a broken path, it can significantly affect other stable paths and in the absence of related schemes to handle this, MPTCP will undoubtedly suffer from serious performance degradation. Moreover, applying MPTCP to cloud data delivery may generally lead to higher energy consumption and is not favorable to a power-constrained mobile device. In this paper, we propose MPTCP-La/E2, a low-rate distributed denial-of-service (LDDoS) attack-aware energy-efficient MPTCP solution aiming at: 1) avoiding the LDDoS-caused performance degradation of cloud multipath transmission, which has been seldom considered in existing MPTCP solutions and 2) optimizing the energy usage while still maintaining user's perceived quality of cloud multipathing services. The simulation results show that MPTCP-La/E2 outperforms the baseline MPTCP in terms of QoS and energy-savings in a multihomed MCC network environment. The multi-homed mobile devices in the mobile cloud computing (MCC) systems can improve their throughput by allocating the application data over several paths simultaneously, enabled by the promising Multipath TCP (MPTCP) technology. Meanwhile, network attacks against current Internet infrastructures are likely to increase, especially with the widely deployment of MCC systems. When a MPTCP connection is under network attacks and becomes a poor-performing path or a broken path, it can significantly affect other stable paths and in the absence of related schemes to handle this, MPTCP will undoubtedly suffer from serious performance degradation. Moreover, applying MPTCP to cloud data delivery may generally lead to higher energy consumption and is not favorable to a power-constrained mobile device. In this paper, we propose MPTCP-La/E 2 , a low-rate distributed denial-of-service (LDDoS) attack-aware energy-efficient MPTCP solution aiming at: 1) avoiding the LDDoS-caused performance degradation of cloud multipath transmission, which has been seldom considered in existing MPTCP solutions and 2) optimizing the energy usage while still maintaining user's perceived quality of cloud multipathing services. The simulation results show that MPTCP-La/E 2 outperforms the baseline MPTCP in terms of QoS and energy-savings in a multihomed MCC network environment.
Author	Yuanlong Cao Qinghua Liu Hao Wang Minghe Huang Ilsun You Fei Song
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SubjectTerms	Bandwidth Cloud computing Denial of service attacks Electronic devices Energy consumption energy usage failure detection low-rate DDoS attacks Mobile cloud applications Mobile communication Mobile computing Mobile handsets Multipath TCP Multipath transmission Performance degradation Performance evaluation Power consumption Quality of service architectures Throughput
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Title	A LDDoS-Aware Energy-Efficient Multipathing Scheme for Mobile Cloud Computing Systems
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