A cross-layer judgment scheme for solving retransmission problem in IEEE 802.15.4 wireless sensor networks
Pages 197 - 202
Abstract
In IEEE 802.15.4 wireless personal area networks (WPANs), the reliable data transmission is one of important issues such as the body information for medical treatments. Some handshaking mechanisms in literatures were studied and proposed to guarantee successful frame transmission. One of handshaking mechanisms adopts ACK frame, which is replied by the receiver back to the sender when the data frame is correctly received. This is a popular mechanism. However, there are many different reasons causing data frames which cannot be correctly received on the receiver such as the fading channel, data frame collision and hidden terminal problem and so on. Therefore, a sender should have different data retransmission policies and procedures. Neglecting these reasons of failed transmission, the retransmission frame may fail again, and the transmission efficiency will be degraded. In this paper, we propose a cross-layer judgment scheme to solve the retransmission problem. It does not require the cost of extra control overhead, but it can judge correctly the reasons of failed transmission from overlapped signals. Thus, the sender can adjust adaptive system parameters to handle the retransmission procedure. Simulation results demonstrate that the proposed scheme can effectively improve the transmission efficiency.
References
[1]
H. Bai, M. Atiquzzaman, and D. Lilja. Wireless sensor network for aircraft health monitoring. In IEEE BroadNets 2004, pages 748--750, October 2004.
[2]
W.-T. Chen, B.-B. Jian, and S.-C. Lo. An adaptive retransmission scheme with qos support for the ieee 802.11 mac enhancement. In IEEE VTC 2002, pages 70--74, May 2002.
[3]
I. Demirkol and C. Ersoy. Energy and delay optimized contention for wireless sensor networks. Computer-Networks, 53:2106--2119, August 2009.
[4]
I. W. Group. Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications. Sep. 1999.
[5]
I. W. Group. Standard for Part 15.4: Wireless Medium Access Control (MAC) and Physical Layer (PHY) Specifications for Low Rate Wireless Personal Area Networks (LR-WPANs). 2006.
[6]
T. Instruments. Data Sheet for CC2420 2.4GHz IEEE 802.15.4/Zigbee RF Transceiver at http://focus.ti.com/docs/toolsw/folders/print/cc2430dk.html.
[7]
P. K. V. J. Deng and Z. J. Haas. A new backoff algorithm for the ieee 802.11 distributed coordination function. In Communication Networks and Distributed Systems Modeling and Simulation, January 2004.
[8]
A. Koubaa, R. Severino, M. Alves, and E. Tovar. Improving quality-of-service in wireless sensor networks by mitigating hidden-node collisions. IEEE Trans. on Ind. Informat., 5:299--313, August 2009.
[9]
C. R. Krishna, S. Chakrabarti, and D. Datta. A modified backoff algorithm for ieee 802.11 dcf-based mac protocol in a mobile ad hoc network. In IEEE TENCON 2004, pages 664--667, November 2004.
[10]
S. S. J. Misic and V. B. Misic. Avoiding thebottlenecks in the mac layer in 802.15.4 low rate wpan. In ICPADS 2005, pages 363--367, 2005.
[11]
A.-C. Pang and H.-W. Tseng. Dynamic backoff for wireless personal networks. In IEEE Globecom 2004, pages 1580--1584, December 2004.
[12]
V. Rajaravivarma, Y. Yang, and T. Yang. An overview of wireless sensor network and applications. In 35th Symposium on System Theory 2003, pages 432--436, March 2003.
[13]
F. A. Tobagi and L. Kleinrock. Packet switching in radio channels: Part ii-the hidden terminal problem in carrier sense multiple-access and the busy-tone solution. IEEE Trans. on Commun., 23:1417--1433, December 1975.
[14]
H.-W. Tseng, A.-C. Pang, J. Chen, and C.-F. Kuo. An adaptive contention control strategy for ieee 802.15.4-based wireless sensor networks. IEEE Trans. on Veh. Technol., 58:5164--5173, May 2009.
[15]
H.-W. Tseng, S.-C. Yang, P.-C. Yeh, and A.-C. Pang. A cross-layer scheme for solving hidden device problem in ieee 802.15.4 wireless sensor networks. IEEE Sensors Journal, 11:493--504, February 2011.
[16]
Y.-C. Tseng, S.-Y. Ni, and E.-Y. Shih. Adaptive approaches to relieving broadcast storms in a wireless multihop mobile ad hoc network. IEEE Trans. on Computers, 52:545--557, May 2003.
[17]
G. W. Wong and R. W. Donaldson. Improving the qos performance of edcf in ieee 802.11e wireless lans. In IEEE Pacific Rim Conference on Communications, Computers and signal Processing (PACRIM), pages 392--396, Augest 2003.
Index Terms
- A cross-layer judgment scheme for solving retransmission problem in IEEE 802.15.4 wireless sensor networks
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Published In
October 2012
488 pages
ISBN:9781450314923
DOI:10.1145/2401603
- General Chairs:
- Yookun Cho,
- Rex E. Gantenbein,
- Tei-Wei Kuo,
- Program Chair:
- Vahid Tarokh
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Published: 23 October 2012
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