Universitat Oberta de Catalunya
Muraoka, Kazushi
Watteyne, Thomas
Accettura, Nicola
Vilajosana i Guillén, Xavier
Pister, Kristofer
NEC Corporation
Inria
Laboratory for Analysis and Architecture of Systems
Universitat Oberta de Catalunya. Internet Interdisciplinary Institute (IN3)
University of California, Berkeley
2018-06-12T12:23:20Z
2018-06-12T12:23:20Z
2016-05-25
The IETF IPv6 over the time synchronized channel hopping mode of IEEE 802.15.4e (6TiSCH) working group standardizes a distributed mechanism for neighbor motes to agree on a schedule to communicate, driven by a scheduling function. This letter introduces the notion of housekeeping to the schedule function, in which motes relocate cells in the schedule to build a collision-free schedule in a distribute manner. The solution, based on detecting underperforming cells and listening for unexpected packets, does not require additional signaling traffic or state. This letter shows that simple housekeeping rules introduced allow a network to contain 17% more motes and suffer from 64% fewer collision, while maintaining end-to-end reliability above 99.5% in a typical industrial environment. This solution is now being discussed for standardization at 6TiSCH.
English
time synchronized channel hopping (TSCH); distributed scheduling; time synchronized channel hopping (TSCH); programació distribuïda; time synchronized channel hopping (TSCH); programación distribuida; Wireless communication systems; Comunicació sense fil, Sistemes de; Comunicación inalámbricos, Sistemas de
IEEE Sensors Journal
IEEE Sensors Journal, 2016, 16(15)
https://ieeexplore.ieee.org/document/7478619/
info:eu-repo/grantAgreement/TEC2015-71303-R
Articles [361]
