Distributed behavior model orchestration in cognitive internet of things solution

Chung Sheng Li, Frederica Darema, Victor Chang*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

38 Citations (Scopus)

Abstract

The introduction of pervasive and ubiquitous instrumentation within Internet of Things (IoT) leads to unprecedented real-time visibility (instrumentation), optimization and fault-tolerance of the power grid, traffic, transportation, water, oil & gas, to give some examples. Interconnecting those distinct physical, people, and business worlds through ubiquitous instrumentation, even though still in its embryonic stage, has the potential to create intelligent IoT solutions that are much greener, more efficient, comfortable, and safer. An essential new direction to materialize this potential is to develop comprehensive models of such systems dynamically interacting with the instrumentation in a feed-back control loop. We describe here opportunities in applying cognitive computing on interconnected and instrumented worlds (Cognitive Internet of Things–CIoT) and call out the system-of-systems trend among distinct but interdependent worlds, and Dynamic Data-Driven Application System (DDDAS)-based methods for advanced understanding, analysis, and real-time decision support capabilities with the accuracy of full-scale models.

Original languageEnglish
Pages (from-to)414-434
Number of pages21
JournalEnterprise Information Systems
Volume12
Issue number4
DOIs
Publication statusPublished - 21 Apr 2018

Keywords

  • CIoT
  • DDDAS
  • Internet of things
  • autonomy
  • behavior models
  • cognitive computing
  • dynamic data driven applications systems
  • edge computing
  • fog computing
  • infosymbiotic systems
  • progressive representation
  • smart grid
  • smarter planet
  • world models

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