Truyền đa kênh cho định tuyến phân cụm trong mạng cảm biến không dây

  • Ngô Quỳnh Thu Trường Đại học Bách khoa Hà nội

Abstract

Because of limited power size and processing capability of sensor nodes, Wireless Sensor Networks require special routing mechanisms, for example cluster-based and event-drivent routing protocol [1]. These routing schemes are energy efficient, load balanced and reliable but most of them can not provide end-to-end delay requirement for real-time applications, such as tracking or healthcare. In this paper, we propose a new multichannel communication scheme for cluster-based and event-drivent routing protocol, called mMRC (Multichannel Cluster-based Routing Scheme) in order to improve end-to-end delay, throughput received at the Base Station of network for real-time applications. Our first performance result by using OMNET++ shows that mMRC achieves better energy efficiency, bandwidth, delay… compared to ARPEES and OEDSR.

Author Biography

Ngô Quỳnh Thu, Trường Đại học Bách khoa Hà nội

Sinh ngày 4/3/1974 tại Hà nội.

Tốt nghiệp ĐH tại Khoa Điện tử Viễn thông Trường Đại học Bách khoa Hà Nội năm 1995;  thạc sỹ năm 1996 tại Viện Quốc gia Viễn thông Evry, Cộng hoà Pháp. Nhận bằng tiến sỹ năm 2003 tại trường Đại học Kỹ thuật Berlin, Cộng hoà Liên bang Đức.

Hiện đang giảng dạy tại Viện Công nghệ Thông tin và Truyền thông, Trường ĐH Bách khoa Hà nội.

Lĩnh vực nghiên cứu: Mạng cảm biến không dây và các ứng dụng.

Tel:  0912528824.

References

VINH TRAN QUANG and TAKUMI MIYOSHI, “Adaptive Routing Protocol with Energy Efficiency and Event Clustering for Wireless Sensor Networks”, IEICE Trans. Commun., Vol.E91–B, No.9, pp 323-333, 2008,.

W.R. HEINZELMAN, A. CHANDRAKASAN, AND H. BALAKRISHNAN, “Energy-efficient Communication Protocol for Wireless Microsensor Networks”, in IEEE Computer Society Proc. of the Thirty Third Hawaii International Conference on System Sciences (HICSS '00), Washington, DC, USA, vol. 8, pp. 8020, Jan. 2000.

T. TRAN VINH, T. NGO-QUYNH, M. BANH, “Energy Mesh Routing Protocol for Wireless Sensor Networks” in Proc. of Advanced Technologies for Communications (ATC 2012), pp. 260-270, Oct. 2002.

SIBILA RATNARAJ, SARANGAPANI JAGANNATHAN, AND VITTAL RAO, “OEDSR: Optimized Energy-Delay Sub-network Routing in Wireless Sensor Network”, 2006.

AZZEDINE BOUKERCHE, RICHARD WERNER N. PAZZI, REGINA B. ARAUJO2,“HPEQ - A Hierarchical Periodic, Event-driven and Query-based Wireless Sensor Network Protocol”, in Proc. Of IEEE Conference on Local Computer Networks 30th Anniversary (LCN’05), 2005.

nordic semi-conductors, nrf905 multiband transceiver, http://ww.nordicsemi.com.

Cc2420 sing-chip 2.4Ghz IEEE 802.15.4 compliant and zigbee ready rf transceiver, http://ti.com/lit/gpn/cc2420.

K.R. CHOWDHURY, N. NANDIRAJU, D. CAVALCANTI, D.P. AGRAWAL, “Cmac-G a multi-channel energy efficient mac for wireless sensor networks”, in Proc. of IEEE Wireless Comminication and Networking Conference (WCNC), pp. 1172–1177, 2006.

M. RAMAKRISHNAN, P.V. RANJAN, “Multi channel mac for wireless sensor networks”, International Journal of Computer Networks and Communications 1, pp. 47–54, 2009.

M. RAMAKRISHNAN, P.V. RANJAN, “Multi channel mac implementation for wireless sensor networks”, in Proc. of International Conference on Advances in Computing, Control, and Telecommunication Technologies, ACT’09, pp. 809–813, 2009.

M. CACCAMO, L. ZHANG, S. LUI, G. BUTTAZZO, “An implicit prioritized access protocol for wireless sensor networks”, in Proc. of the 23rd IEEE Real-Time Systems Symposium, pp. 39–48, 2002,

A. GUPTA, C. GUI, P. MOHAPATRA, Exploiting multi-channel clustering for power efficiency in sensor networks, in Proc. Of Comsware 2006: First International Conference on Communication System Software and Middleware, pp. 1–10,2006,.

Y. WU, J. STANKOVIC, T. HE, S. LIN, Realistic and efficient multi-channel communications in wireless sensor networks, in Proc. of the 27th IEEE International Conference on Computer Communications INFOCOM, pp. 1193–1201, 2008.

G. ZHOU, C. HUANG, T. YAN, T. HE, J. STANKOVIC, T. ABDELZAHER, MMSN: Multi-frequency media access control for wireless sensor networks, in Proc of the 25th IEEE International Conference on Computer Communications, pp. 1–13, 2006.

O.D. INCEL, S. DULMAN, P. JANSEN, Multi-channel support for dense wireless sensor networking, in Proc. of the First European Conference on Smart Sensing and Context, EuroSSC 2006, Enschede, the Netherlands, Lecture Notes in Computer Science, vol. 4272, Springer, Berlin, pp. 1–14, 2006.

S. MASTOOREH, S. HAMED, K. ANTONIS, HYMAC: Hybrid tdma/fdma medium access control protocol for wireless sensor networks, in Proc. Of PIMRC 2007, 18th IEEE Personal, Indoor and Mobile Radio Communications Symposium, pp. 1–5, 2007.

H. LE, D. HENRIKSSON, T. ABDELZAHER, A practical multi-channel media access control protocol for wireless sensor networks, in Proc. of the 7th International Conference on Information Processing in Sensor Networks, pp. 70–81, 2008.

OMNeT++, version 4.2, a discrete event simulation system, http://www.omnetpp.org.

LATRÉ, BENOÎT, ET AL, Throughput and delay analysis of unslotted IEEE 802.15. 4,Journal of Networks1.1 pp. 20-28, 2006.

Published
2015-12-31
Section
Bài báo