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Analysis of Distributed and Autonomous Scheduling Functions for 6TiSCH Networks

Francesca Righetti, Carlo Vallati, Sajal K. Das, Giuseppe Anastasi

2020IEEE Access21 citationsDOIOpen Access PDF

Abstract

The 6TiSCH architecture is expected to play a significant role to enable the Internet of Things paradigm also in industrial environments, where reliability and timeliness are of paramount importance to support critical applications. Many research activities have focused on the Scheduling Function (SF) used for managing the allocation of communication resources in order to guarantee the application requirements. Two different approaches have mainly attracted the interest of researchers, namely distributed and autonomous scheduling. Although many different (both distributed and autonomous) SFs have been proposed and analyzed, a direct comparison of these two approaches is still missing. In this work, we compare some different SFs, using different behaviors in allocating resources, and investigate the pros and cons of using distributed or autonomous scheduling in four different scenarios, by means of both simulations and measurements in a real testbed. Based on our results, we also provide a number of guidelines to select the most appropriate SF, and its configuration parameters, depending on the specific use case.

Topics & Concepts

TestbedComputer scienceScheduling (production processes)Distributed computingArchitectureThe InternetIndustrial InternetInternet of ThingsComputer networkEmbedded systemWorld Wide WebVisual artsEconomicsOperations managementArtIoT and Edge/Fog ComputingEnergy Efficient Wireless Sensor NetworksReal-Time Systems Scheduling