Weitere Artikel dieser Ausgabe durch Wischen aufrufen
In a heterogeneous wireless environment, mobility particularly vertical handover between WiFi and cellular data service has to be supported. The support for multihoming feature makes Stream Control Transmission Protocol (SCTP) become a promising transport layer-based handover scheme for end users. Although the benefits of applying SCTP for multimedia delivery and handover have been proved to be extremely useful, there are still many challenges that remain: (i) current sender-centric SCTP handover management solutions fail to balance the computational overhead between a sender and receiver and (ii) they also suffer from performance degradation due to the rigid three-duplicated-SACK-based loss detection and recovery strategy. This paper proposes SCTP- Rev +, a new receiver-assisted cellular/WiFi handover management mechanism for SCTP-based multimedia transport aiming to (i) optimize SCTP handover management and achieve overhead balancing between the sender and receiver, by moving path estimation and handover decision operations from the sender onto receiver and (ii) improve SCTP loss recovery ability and multimedia delivery performance, by providing SCTP with a simple but effective retransmission-aware loss detection/recovery mechanism. We show that the proposed solution outperforms the current SCTP schemes in terms of goodput performance and multimedia delivery quality.
J Wu, C Yuen, M Wang, J Chen, Content-aware concurrent multipath transfer for high-definition video streaming over heterogeneous wireless networks, IEEE Trans. Parallel Distrib. Syst. 27(3), 710–723 (2016). CrossRef
F Song, R Li, H Zhou, Feasibility and issues for establishing network-based carpooling scheme. Pervasive Mob.Comput. 24:, 4–15 (2015). CrossRef
F Song, H Zhou, S Zhang, H Zhang, You Ilsun, The throughput critical condition study for reliable multipath transport. Comput.Sci. Inf. Syst. 10(2), 567–787 (2013). CrossRef
Y Cao, C Xu, J Guan, H Zhang, CMT-CC: Cross-layer cognitive CMT for efficient multimedia distribution over multi-homed wireless networks. Wirel.Pers. Commun. 82(3), 1643–1663 (2015). CrossRef
R Stewart, Stream control transmission protocol. IETF RFC 4960 (Proposed Standard), Sep. 2007.
J Baek, PS Fisher, M Jo, H-H Chen, A lightweight SCTP for partially reliable overlay video multicast service for mobile terminals. IEEE Trans.Multimedia. 12(7), 754–766 (2010). CrossRef
Y Cao, C Xu, J Guan, H Zhang, Qos-driven SCTP-based multimedia delivery over heterogeneous wireless networks. Sci.China Inf. Sci. 57(10), 1–10 (2014). CrossRef
J Wu, B Cheng, C Yuen, et al., Distortion-aware concurrent multipath transfer for mobile video streaming in heterogeneous wireless networks. IEEE Trans. Mob. Comput. 14(4), 688–701 (2015). CrossRef
C Xu, Z Li, J Li, H Zhang, G Muntean, Cross-layer fairness-driven concurrent multipath video delivery over heterogenous wireless networks. IEEE Trans.Circ. Syst. Video Technol. 25(7), 1175–1189 (2015). CrossRef
J Wu, C Yuen, N Cheung, J Chen, Delay-constrained high definition video transmission in heterogeneous wireless networks with multi-homed terminals. IEEE Trans.Mob. Comput. 15(3), 641–655 (2016). CrossRef
Y Kim, S Lee, MSCTP-based handover scheme for vehicular networks. IEEE Commun. Lett. 15(8), 828–830 (2011). CrossRef
TD Wallace, A Shami, Concurrent multipath transfer using SCTP: modelling and congestion window management. IEEE Trans. Mob. Comput. 13(11), 2510–2523 (2014). CrossRef
C Xu, T Liu, J Guan, H Zhang, G-M Muntean, CMT-QA: quality-aware adaptive concurrent multipath data transfer in heterogeneous wireless networks. IEEE Trans. Mob. Comput. 12(11), 2193–2205 (2013). CrossRef
J Wu, Y Shang, J Huang, X Zhang, B Cheng, J Chen, Joint source-channel coding and optimization for mobile video streaming in heterogeneous wireless networks. EURASIP J.Wirel. Commun. Netw. 2013:, 283 (2013). CrossRef
V Anil Kumar, D Das, Data Enriched SACK: a novel acknowledgement generation scheme for secure SCTP. IEEE Commun. Lett. 18(12), 2109–2112 (2014). CrossRef
F Song, M Xue, S Zhang, Security model for analyzing data privacy in multipath transport. China Commun. 9(5) (2012).
Y Wang, R Injong, H Sangtae, in Proc. of IEEE INFOCOM Workshops. Augment SCTP multi-streaming with pluggable scheduling (IEEEPiscataway, 2011).
G Sarwar, P-U Tournoux, R Boreli, E Lochin, in Proc.of IEEE LCN. eCMT-SCTP: improving performance of multipath SCTP with erasure coding over lossy links (IEEEPiscataway, 2013).
M Becke, H Adhari, EP Rathgeb, et al., in Proc.of IEEE GLOBECOM. Comparison of multipath TCP and CMT-SCTP based on intercontinental measurements, (2013), pp. 1360–1366.
J Wu, Y Chau, B Cheng, Y Yang, M Wang, J Chen, Bandwidth-efficient multipath transport protocol for quality-guaranteed real-time video over heterogeneous wireless networks. IEEE Trans. Commun. 64(6), 2477–2493 (2016). CrossRef
L Zhou, Z Yang, Y Wen, et al., Distributed wireless video scheduling with delayed control information. IEEE Trans.Circ. Syst. Video Technol. 24(5), 889–901 (2014). CrossRef
L Zhou, X Wang, W Tu, et al., Distributed scheduling scheme for video streaming over multi-channel multi-radio multi-hop wireless networks. IEEE J.Sel. Areas Commun. 28(3), 409–419 (2010). CrossRef
S McCanne, V Jacobson, M Vetterli, in Proc. of ACM SIGCOMM. Receiver-driven layered multicast (ACMNew York, 1996), pp. 117–130.
I Rhee, V Ozdemir, Y Yi, TEAR: TCP Emulation at receivers-flow control for multimedia streaming. Technical Report, North Carolina State University.
L Budzisz, J Garcia, A Brunstrom, et al., A taxonomy and survey of SCTP research. ACM Comput. Surv. 44(4), 1–36 (2012). CrossRef
Y Cao, C Xu, J Guan, H Zhang, in Proc. of IEEE International Conference on Multimedia & Expo. Receiver-driven SCTP-based multimedia streaming services in heterogeneous wireless networks, (ICME, 2014) (IEEEPiscataway, pp. 1–6.
C-M Huang, C-H Tsai, The handover control mechanism for multi-path transmission using Stream Control Transmission Protocol (SCTP). Comput. Commun. 30(17), 3239–3256 (2007). CrossRef
S Mascolo, C Casetti, et al., TCP Westwood: bandwidth estimation for enhanced transport over wireless links. Proc.of ACM SIGMOBILE (2001).
J Liao, J Wang, X Zhu, cmpSCTP: an extension of SCTP to support concurrent multi-path transfer. Proc.of IEEE ICC., 5762–5766 (2008).
F Song, Y Zhang, Z An, H Zhou, I You, The correlation study for parameters in four tuples. Int.J. Ad Hoc Ubiquit. Comput. 19(1/2), 38–49 (2015). CrossRef
X Cheng, P Mohapatra, in Proc.of IEEE WCNC. Retransmission-aware queuing and routing for video streaming in wireless mesh networks(IEEEPiscataway, 2011), pp. 2137–2142.
UC Berkeley, LBL, USC/ISI and Xerox Parc, NS-2 documentation and software (2011). www.isi.edu/nsnam/ns/.
J Wu, C Yuen, B Cheng, M Wang, J Chen, Energy-minimized multipath video transport to mobile devices in heterogeneous wireless network. IEEE J. Sel. Areas Commun. 34(5), 1160–1178. (2016.)
F Song, D Huang, H Zhou, H Zhang, I You, An optimization-based scheme for efficient virtual machine placement. Int.J. Parallel Prog. 42(5), 853–872 (2014). CrossRef
- Receiver-assisted cellular/wifi handover management for efficient multipath multimedia delivery in heterogeneous wireless networks
- Springer International Publishing
EURASIP Journal on Wireless Communications and Networking
Elektronische ISSN: 1687-1499
Neuer Inhalt/© ITandMEDIA