Title :
Topology construction in RPL networks over beacon-enabled 802.15.4
Author :
Vucinic, Malisa ; Romaniello, Gabriele ; Guelorget, Laurene ; Tourancheau, Bernard ; Rousseau, Frederic ; Alphand, Olivier ; Duda, A. ; Damon, Laurent
Author_Institution :
Grenoble Inf. Lab., Grenoble Alps Univ., Grenoble, France
Abstract :
In this paper, we propose a new scheme that allows coupling beacon-enabled IEEE 802.15.4 with the RPL routing protocol while keeping full compliance with both standards. We provide a means for RPL to pass the routing information to Layer 2 before the 802.15.4 topology is created by encapsulating RPL DIO messages in beacon frames. The scheme takes advantage of 802.15.4 command frames to solicit RPL DIO messages. The effect of the command frames is to reset the Trickle timer that governs sending DIO messages. We provide a detailed analysis of the overhead incurred by the proposed scheme to understand topology construction costs. We have evaluated the scheme using Contiki and the instruction-level Cooja simulator and compared our results against the most common scheme used for dissemination of the upper-layer information in beacon-enabled PANs. The results show energy savings during the topology construction phase and in the steady state.
Keywords :
Zigbee; routing protocols; telecommunication network topology; 802.15.4 command frames; Contiki; RPL DIO messages; RPL routing protocol; Trickle timer; beacon-enabled IEEE 802.15.4; instruction-level Cooja simulator; steady state; topology construction; topology construction phase; Bismuth; Delays; IEEE 802.15 Standards; Network topology; Payloads; Topology; IEEE 802.15.4; RPL; Wireless Sensor Networks; beacon-enabled mode; multi-hop networks; topology construction;
Conference_Titel :
Computers and Communication (ISCC), 2014 IEEE Symposium on
Conference_Location :
Funchal
DOI :
10.1109/ISCC.2014.6912563
