A Novel Multiplex Network-Based Sensor Information Fusion Model and Its Application to Industrial Multiphase Flow System. Gao, Z., Dang, W., Mu, C., Yang, Y., Li, S., & Grebogi, C. IEEE Transactions on Industrial Informatics, 14(9):3982–3988, September, 2018. Conference Name: IEEE Transactions on Industrial Informatics
doi  abstract   bibtex   
Increasingly advanced technology allows the monitoring of complex systems from a wide variety of perspectives. But the exploration of such systems from a multichannel sensor information viewpoint remains a complicated challenge of ongoing interest. In this paper, first, based on a well-designed double-layer distributed-sector conductance (DLDSC) sensor, systematic oil-water and gas-liquid two-phase flow experiments are carried out to capture abundant spatiotemporal flow information. Second, well flow parameter measurement performance of the DLDSC sensor is effectively validated from the perspective of normalized conductance. Third, a novel multiplex network-based model is presented to implement data mining and characterize the evolution of flow dynamics. The results demonstrate that the model is powerful for the exploration of the spatial flow behaviors from heterogeneity to randomness in the studied two-phase flows.
@article{gao_novel_2018,
	title = {A {Novel} {Multiplex} {Network}-{Based} {Sensor} {Information} {Fusion} {Model} and {Its} {Application} to {Industrial} {Multiphase} {Flow} {System}},
	volume = {14},
	issn = {1941-0050},
	doi = {10.1109/TII.2017.2785384},
	abstract = {Increasingly advanced technology allows the monitoring of complex systems from a wide variety of perspectives. But the exploration of such systems from a multichannel sensor information viewpoint remains a complicated challenge of ongoing interest. In this paper, first, based on a well-designed double-layer distributed-sector conductance (DLDSC) sensor, systematic oil-water and gas-liquid two-phase flow experiments are carried out to capture abundant spatiotemporal flow information. Second, well flow parameter measurement performance of the DLDSC sensor is effectively validated from the perspective of normalized conductance. Third, a novel multiplex network-based model is presented to implement data mining and characterize the evolution of flow dynamics. The results demonstrate that the model is powerful for the exploration of the spatial flow behaviors from heterogeneity to randomness in the studied two-phase flows.},
	number = {9},
	journal = {IEEE Transactions on Industrial Informatics},
	author = {Gao, Zhongke and Dang, Weidong and Mu, Chaoxu and Yang, Yuxuan and Li, Shan and Grebogi, Celso},
	month = sep,
	year = {2018},
	note = {Conference Name: IEEE Transactions on Industrial Informatics},
	keywords = {Complex networks, Complex systems, Industrial multiphase flow, Multiplexing, Voltage measurement, information fusion, multiplex network, signal analysis},
	pages = {3982--3988},
}
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