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146 results on '"Ming, Wenlong"'

1. Pathological Primitive Segmentation Based on Visual Foundation Model with Zero-Shot Mask Generation

Author

Arnob, Abu Bakor Hayat, Wang, Xiangxue, Jiao, Yiping, Gan, Xiao, Ming, Wenlong, and Xu, Jun

Subjects
Computer Science - Computer Vision and Pattern Recognition, I.4.6, I.2
Abstract

Medical image processing usually requires a model trained with carefully crafted datasets due to unique image characteristics and domain-specific challenges, especially in pathology. Primitive detection and segmentation in digitized tissue samples are essential for objective and automated diagnosis and prognosis of cancer. SAM (Segment Anything Model) has recently been developed to segment general objects from natural images with high accuracy, but it requires human prompts to generate masks. In this work, we present a novel approach that adapts pre-trained natural image encoders of SAM for detection-based region proposals. Regions proposed by a pre-trained encoder are sent to cascaded feature propagation layers for projection. Then, local semantic and global context is aggregated from multi-scale for bounding box localization and classification. Finally, the SAM decoder uses the identified bounding boxes as essential prompts to generate a comprehensive primitive segmentation map. The entire base framework, SAM, requires no additional training or fine-tuning but could produce an end-to-end result for two fundamental segmentation tasks in pathology. Our method compares with state-of-the-art models in F1 score for nuclei detection and binary/multiclass panoptic(bPQ/mPQ) and mask quality(dice) for segmentation quality on the PanNuke dataset while offering end-to-end efficiency. Our model also achieves remarkable Average Precision (+4.5%) on the secondary dataset (HuBMAP Kidney) compared to Faster RCNN. The code is publicly available at https://github.com/learner-codec/autoprom_sam., Comment: 2024 IEEE International Symposium on Biomedical Imaging

Published
2024
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4. Design and Operation of Hybrid Multi-Terminal Soft Open Points using Feeder Selector Switches for Flexible Distribution System Interconnection

Author

Deakin, Matthew, Taylor, Phil C., Bialek, Janusz, and Ming, Wenlong

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Distribution systems will require new cost-effective solutions to provide network capacity and increased flexibility to accommodate Low Carbon Technologies. To address this need, we propose the Hybrid Multi-Terminal Soft Open Point (Hybrid MT-SOP) to efficiently provide distribution system interconnection capacity. Each leg of the Hybrid MT-SOP has an AC/DC converter connected in series with a bank of AC switches (Feeder Selector Switches) to allow the converter to connect to any of the feeders at a node. Asymmetric converter sizing is shown to increase feasible power transfers by up to 50% in the three-terminal case, whilst a conic mixed-integer program is formulated to optimally select the device configuration and power transfers. A case study shows the Hybrid MT-SOP increasing utilization of the converters by more than one third, with a 13% increase in system loss reduction as compared to an equally-sized MT-SOP., Comment: Preprint submitted to Electric Power Systems Research (Power Systems Computation Conference 2022)

Published
2022

5. Hybrid Open Points: an Efficient Tool for Increasing Network Capacity in Distribution Systems

Author

Deakin, Matthew, Sarantakos, Ilias, Greenwood, David M., Bialek, Janusz, Taylor, Phil C., Ming, Wenlong, and Patsios, Charalampos

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

This letter introduces the Hybrid Open Point (HOP), a device consisting of an electromechanical switch connected in parallel with a power converter, for the purpose of providing additional network capacity in interconnected distribution systems. The HOP switch is used for bulk power transfer at low-cost, whilst the HOP converter provides targeted power transfer when the HOP switch is open. The device can replace either a Normally Open Point (Type 1 HOP) or a Normally Closed Point (Type 2 HOP). Simple interconnection and teed interconnection configurations are studied considering fault level and radiality constraints, with realistic use-cases identified for both HOP types. The HOP is shown to provide secure network capacity more cost-effectively than the classical Soft Open Point., Comment: Article accepted with IEEE PES Letters, and will subsequently be published in IEEE Transactions on Power Delivery

Published
2021

12. Dissolvable photovoltaic cells on hydrogel.

Author

Li, Benxuan, Zhan, Shijie, Li, Zhe, Ming, Wenlong, Amaratunga, Gehan A. J., and Hou, Bo

Subjects
ELECTRIC power, PHOTOVOLTAIC cells, RENEWABLE energy sources, SOLAR cells, PHOTOVOLTAIC power systems, SMECTIC liquid crystals, ENERGY harvesting
Abstract

Solar energy is potentially the largest source of renewable energy for providing electrical power for human society. However, significant advances are required to make photovoltaic technologies have a low-carbon footprint in manufacture, be environmentally friendly at the end of their lives through recyclability, and be biodegradable. Here we report dissolvable organic photovoltaic devices based on poly(2-hydroxyethyl methacrylate), which show equal power conversion efficiency to their glass substrate-based counterparts. We use a novel method of including smectic liquid crystal (7-dioctyl[1]benzothieno[3,2- b][1]benzothiophene, C8-BTBT) as a crystal phase regulator in the heterojunction donor:acceptor polymer system to maintain the disposable organic solar cell efficiency without pre- or post-thermal annealing. The results show strong promise not only for more sustainable solar-cell fabrication but also as disposable and biocompatible solar cells for self-powered (energy harvesting) wearable and biomedical devices. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Prediction of Bone Marrow Biopsy Results From MRI in Multiple Myeloma Patients Using Deep Learning and Radiomics

Author

Wennmann, Markus, primary, Ming, Wenlong, additional, Bauer, Fabian, additional, Chmelik, Jiri, additional, Klein, André, additional, Uhlenbrock, Charlotte, additional, Grözinger, Martin, additional, Kahl, Kim-Celine, additional, Nonnenmacher, Tobias, additional, Debic, Manuel, additional, Hielscher, Thomas, additional, Thierjung, Heidi, additional, Rotkopf, Lukas T., additional, Stanczyk, Nikolas, additional, Sauer, Sandra, additional, Jauch, Anna, additional, Götz, Michael, additional, Kurz, Felix T., additional, Schlamp, Kai, additional, Horger, Marius, additional, Afat, Saif, additional, Besemer, Britta, additional, Hoffmann, Martin, additional, Hoffend, Johannes, additional, Kraemer, Doris, additional, Graeven, Ullrich, additional, Ringelstein, Adrian, additional, Bonekamp, David, additional, Kleesiek, Jens, additional, Floca, Ralf O., additional, Hillengass, Jens, additional, Mai, Elias K., additional, Weinhold, Niels, additional, Weber, Tim F., additional, Goldschmidt, Hartmut, additional, Schlemmer, Heinz-Peter, additional, Maier-Hein, Klaus, additional, Delorme, Stefan, additional, and Neher, Peter, additional

Published
2023
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21. Decentralized Control for Multi-Terminal Cascaded Medium-Voltage Converters Considering Multiple Crossovers

Author

Chen, Jinlei, Wang, Sheng, Liang, Jun, Navaratne, Rukshan, and Ming, Wenlong

Abstract

Decentralized control with multiple droop characteristics can significantly improve the accuracy of power flow in medium-voltage direct-current (MVdc) networks. However, multiple crossovers caused by different control characteristics can lead to the drifts of power and voltage and instability issues. When this type of control is implemented in the cascaded three-level neutral-point-clamped (C3L-NPC) converters, on one hand, the mechanism of such the power and voltage drifts was not investigated. On the other hand, power control accuracy, dc voltage balancing across submodules (SMs) and multiple crossovers should all be considered, which requires suitable control methods. To address the challenges, firstly, the mechanism behind the power and dc voltage drifts is analyzed. Secondly, a control scheme is presented to improve the power control accuracy and dc voltage balancing and concurrently, to avoid the multiple crossovers. This is achieved by suitable droop gain design and adding a secondary power compensator. The presented control scheme is verified in MATLAB/Simulink simulation and experimentally validated in a three-terminal MVdc testbed. Results show that the accuracy of steady-state power flow is improved by 15% due to the elimination of multiple crossovers, while the power accuracy at dynamics improved by 13% with the secondary power compensator.

Published
2024
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22. Motor Overvoltage Mitigation Using SiC-Based Zero-Voltage Switching Inverter

Author

Yunus, Suleman, Ming, Wenlong, and Ugalde-Loo, Carlos E.

Abstract

The motor overvoltage phenomenon is an issue that may arise from the high voltage slew rates ($\mathrm{d}v/\mathrm{d}t$) of silicon carbide mosfets in cable-fed drives. This can lead to substantial strain on cable and motor insulation, resulting from partial discharges and uneven voltage distribution. In line with this, this article presents a novel method to select inductor and capacitor parameters for a zero-voltage switching (ZVS) inverter to mitigate motor overvoltage. The ZVS inverter employs only one additional active switch on the positive dc terminal compared with two-level inverters. This prevents the need for bulky LCR and RC passive filters or multilevel inverters in conventional solutions, which may lead to increased volume and losses. The presented approach suppresses overvoltage oscillations by profiling the $\mathrm{d}v/\mathrm{d}t$ of both resonant and natural commutations while minimizing the switching losses. A comparison with alternative techniques for mitigating motor overvoltage was conducted to demonstrate the method's efficacy, including two-level passive filter strategies and three-level inverters. The presented technique was validated through simulations in PLECS and MATLAB/Simulink, demonstrating a 1% increase in efficiency and a 30% reduction in volume. Furthermore, the method was experimentally verified, showing the measured overvoltage being reduced from 2 to 1.06 per unit.

Published
2024
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32. Radiogenomics analysis reveals the associations of dynamic contrast-enhanced–MRI features with gene expression characteristics, PAM50 subtypes, and prognosis of breast cancer

Author

Ming, Wenlong, primary, Zhu, Yanhui, additional, Bai, Yunfei, additional, Gu, Wanjun, additional, Li, Fuyu, additional, Hu, Zixi, additional, Xia, Tiansong, additional, Dai, Zuolei, additional, Yu, Xiafei, additional, Li, Huamei, additional, Gu, Yu, additional, Yuan, Shaoxun, additional, Zhang, Rongxin, additional, Li, Haitao, additional, Zhu, Wenyong, additional, Ding, Jianing, additional, Sun, Xiao, additional, Liu, Yun, additional, Liu, Hongde, additional, and Liu, Xiaoan, additional

Published
2022
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39. Power Electronic Converters for Microgrids

Author

Ming, Wenlong

Subjects
Technology & Engineering
Abstract

Power electronic converters are indispensable building blocks of microgrids. They are the enabling technology for many applications of microgrids, e.g., renewable energy integration, transportation electrification, energy storage, and power supplies for computing. In this chapter, the requirements, functions, and operation of power electronic converters are introduced. Then, different topologies of the converters used in microgrids are discussed, including DC/DC converters, single-phase DC/AC converters, three-phase three-wire, and four-wire DC/AC converters. The remaining parts of this chapter focus on how to optimally design and control these converters with the emerging wide-bandgap semiconductors. Correlated tradeoffs of converter efficiency, power density, and cost are analyzed using Artificial Neural Networks to find the optimal design of the converters.

Published
2022

42. Demonstration of Converter Control Interactions in MMC-HVDC Systems

Author

Chen, Jinlei, primary, Wang, Sheng, additional, Ugalde-Loo, Carlos E., additional, Ming, Wenlong, additional, Adeuyi, Oluwole D., additional, D’Arco, Salvatore, additional, Ceballos, Salvador, additional, Parker, Max, additional, Finney, Stephen, additional, Pitto, Andrea, additional, Cirio, Diego, additional, and Azpiri, Iñigo, additional

Published
2022
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47. Identifying Associations between DCE-MRI Radiomic Features and Expression Heterogeneity of Hallmark Pathways in Breast Cancer: A Multi-Center Radiogenomic Study.

Author

Ming, Wenlong, Zhu, Yanhui, Li, Fuyu, Bai, Yunfei, Gu, Wanjun, Liu, Yun, Sun, Xiao, Liu, Xiaoan, and Liu, Hongde

Subjects
*CONTRAST-enhanced magnetic resonance imaging, *BREAST cancer, *FEATURE extraction, *HETEROGENEITY, *INDIVIDUALIZED medicine, *RANDOM forest algorithms
Abstract

Background: To investigate the relationship between dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) radiomic features and the expression activity of hallmark pathways and to develop prediction models of pathway-level heterogeneity for breast cancer (BC) patients. Methods: Two radiogenomic cohorts were analyzed (n = 246). Tumor regions were segmented semiautomatically, and 174 imaging features were extracted. Gene set enrichment analysis (GSEA) and gene set variation analysis (GSVA) were performed to identify significant imaging-pathway associations. Random forest regression was used to predict pathway enrichment scores. Five-fold cross-validation and grid search were used to determine the optimal preprocessing operation and hyperparameters. Results: We identified 43 pathways, and 101 radiomic features were significantly related in the discovery cohort (p-value < 0.05). The imaging features of the tumor shape and mid-to-late post-contrast stages showed more transcriptional connections. Ten pathways relevant to functions such as cell cycle showed a high correlation with imaging in both cohorts. The prediction model for the mTORC1 signaling pathway achieved the best performance with the mean absolute errors (MAEs) of 27.29 and 28.61% in internal and external test sets, respectively. Conclusions: The DCE-MRI features were associated with hallmark activities and may improve individualized medicine for BC by noninvasively predicting pathway-level heterogeneity. [ABSTRACT FROM AUTHOR]

Published
2023
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