Zhipeng Chen

Orcid: 0000-0002-5890-3072

Affiliations:

Central South University, School of Automation, Changsha, China

According to our database¹, Zhipeng Chen authored at least 22 papers between 2018 and 2024.

Collaborative distances:

Dijkstra number² of five.
Erdős number³ of three.

Timeline

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Bibliography

2024

Iterative Self-Guided Image Filtering.

[BibT_eX]

[DOI]

IEEE Trans. Circuits Syst. Video Technol., August, 2024

A Novel Sensing Imaging Equipment Under Extremely Dim Light for Blast Furnace Burden Surface: Starlight High-Temperature Industrial Endoscope.

[BibT_eX]

[DOI]

IEEE CAA J. Autom. Sinica, April, 2024

A novel detection method for ore-coke ratio of blast furnace based on structure-texture entropy of images.

[BibT_eX]

[DOI]

Inf. Sci., February, 2024

2023

Structure-preserving texture smoothing with scale-aware intensity aggregation structure measurement.

[BibT_eX]

[DOI]

Digit. Signal Process., May, 2023

Structure-Preserving Texture Smoothing via Scale-Aware Bilateral Total Variation.

[BibT_eX]

[DOI]

IEEE Trans. Circuits Syst. Video Technol., April, 2023

A Novel Non-Contact and Real-Time Blast Furnace Stockline Detection Method Based on Burden Surface Video Streams.

[BibT_eX]

[DOI]

IEEE Trans. Instrum. Meas., 2023

2022

Optimal Temperature Rise Control for a Large-Scale Vertical Quench Furnace System.

[BibT_eX]

[DOI]

IEEE Trans. Syst. Man Cybern. Syst., 2022

High-Precision Real-Time Detection of Blast Furnace Stockline Based on High-Dimensional Spatial Characteristics.

[BibT_eX]

[DOI]

Sensors, 2022

Real-Time Detection and Short-Term Prediction of Blast Furnace Burden Level Based on Space-Time Fusion Features.

[BibT_eX]

[DOI]

Sensors, 2022

2021

Soft Sensor Modeling of Blast Furnace Wall Temperature Based on Temporal-Spatial Dimensional Finite-Element Extrapolation.

[BibT_eX]

[DOI]

IEEE Trans. Instrum. Meas., 2021

Mass Flow Measurement of Molten Iron From Blast Furnace, Based on Trusted Region Stacking Using Single High-Speed Camera.

[BibT_eX]

[DOI]

IEEE Trans. Instrum. Meas., 2021

Velocity Measurement of Blast Furnace Molten Iron Based on Mixed Morphological Features of Boundary Pixel Sets.

[BibT_eX]

[DOI]

IEEE Trans. Instrum. Meas., 2021

Soft Sensors Based on Adaptive Stacked Polymorphic Model for Silicon Content Prediction in Ironmaking Process.

[BibT_eX]

[DOI]

IEEE Trans. Instrum. Meas., 2021

Detection of Blast Furnace Stockline Based on a Spatial-Temporal Characteristic Cooperative Method.

[BibT_eX]

[DOI]

IEEE Trans. Instrum. Meas., 2021

Dust distribution study at the blast furnace top based on k-Sε -up model.

[BibT_eX]

[DOI]

IEEE CAA J. Autom. Sinica, 2021

2020

A Novel 3-D High-Temperature Industrial Endoscope With Large Field Depth and Wide Field.

[BibT_eX]

[DOI]

IEEE Trans. Instrum. Meas., 2020

Compensation Method for Molten Iron Temperature Measurement Based on Heterogeneous Features of Infrared Thermal Images.

[BibT_eX]

[DOI]

IEEE Trans. Ind. Informatics, 2020

A Real-Time 3D Measurement System for the Blast Furnace Burden Surface Using High-Temperature Industrial Endoscope.

[BibT_eX]

[DOI]

Sensors, 2020

Classification of silicon content variation trend based on fusion of multilevel features in blast furnace ironmaking.

[BibT_eX]

[DOI]

Inf. Sci., 2020

2019

Temperature Measurement and Compensation Method of Blast Furnace Molten Iron Based on Infrared Computer Vision.

[BibT_eX]

[DOI]

IEEE Trans. Instrum. Meas., 2019

Two-Stage Control of Endpoint Temperature for Pebble Stove Combustion.

[BibT_eX]

[DOI]

IEEE Access, 2019

2018

Temperature Measurement Method for Blast Furnace Molten Iron Based on Infrared Thermography and Temperature Reduction Model.

[BibT_eX]

[DOI]

Sensors, 2018

Zhipeng Chen

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