Your search keyword '"Mengqi He"' showing total 5 results

1. Weakly Supervised Semantic and Attentive Data Mixing Augmentation for Fine-Grained Visual Categorization

Author

Mengqi He, Qilong Cheng, and Guanqiu Qi

Subjects

Data augmentation, fine-grained visual categorization, attention, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

As a key factor, the availability of large-scale training samples determines the improvement of visual performance. However, the size of Fine-Grained Visual Categorization (FGVC) datasets is always limited. Therefore, overfitting as an issue in FGVC-related training needs to be solved. Data mixing augmentation is a widely-used data augmentation method. In most of the recently proposed data mixing augmentation methods, random patch selection may generate meaningless training samples and result in model instability during the training process. This paper proposes a data mixing augmentation strategy termed Semantic and Attentive Data Mixing (SADMix) to select semantic patches for the generation of new training samples. In SADMix, a certain number of critical regions are localized according to convolutional activations. An image patch is selected from these localized regions for the generation of new training samples. The size, aspect ratio, and center location of these image patches are changed according to the random values from a beta distribution. These image patches with semantic information are used to mix two training images. According to the class activation map (CAM), training images and their labels are mixed proportionally to generate new mixed training samples and the corresponding labels. The proposed SADMix is tested on three fine-grained datasets, which are CUB-200-2011, FGVC Aircraft, and Stanford Cars, respectively. The experimental results confirm the effectiveness of the proposed SADMix.

Published

2022

2. Remaining Useful Life Prediction of Parts and Components based on BiLSTM Autoencoder with Attention Mechanism and Skip Connection

Author

Honghui Li, Yuhang Duan, Mengqi He, and Yanhui Bai

Subjects

Computer science, Topology, Autoencoder, Mechanism (sociology), Connection (mathematics)

Published

2021

3. Dynamic Monitoring of Voltage Difference Fault in Energy Storage System Based on Adaptive Threshold Algorithm

Author

Bibin Huang, Mengqi He, Jun Jia, Hu Yan, Gao Lang, Ji Zhao, and Huachi Xu

Subjects

021103 operations research, Power station, Computer science, 0211 other engineering and technologies, 02 engineering and technology, Fault (power engineering), 01 natural sciences, Energy storage, Constant false alarm rate, Power (physics), Threshold voltage, 010104 statistics & probability, EWMA chart, 0101 mathematics, Algorithm, Voltage

Abstract

For the problem that the fixed threshold setting method cannot realize dynamic monitoring of voltage difference fault, a data-driven method is adopted in this paper to establish an adaptive threshold algorithm for voltage difference of the energy storage system by combining the threshold setting for battery voltage difference of the energy storage system with the exponentially weighted moving-average (EWMA) method. Compared with other methods, the alarm threshold obtained by the algorithm can realize dynamic monitoring of the voltage difference in the whole charging and discharging process and improve the accuracy of early warning. The actual operation data of a power grid-side energy storage power station in China show that the false alarm rate and omissive alarm rate of the algorithm are lower than 1%, which can greatly alleviate the workload of operation and maintenance personnel while ensuring the safe and reliable operation of the system, with good application and promotion value.

Published

2020

4. A Soft Pneumatic Crawling Robot with Unbalanced Inflation

Author

Mengqi He, Peng Qi, Naijia Wang, Yi Sun, and Yushi Cui

Subjects

0301 basic medicine, Inflation, Computer science, media_common.quotation_subject, 030106 microbiology, Constraint (computer-aided design), Control engineering, Forward locomotion, Crawling, Pipeline (software), GeneralLiterature_MISCELLANEOUS, 03 medical and health sciences, 030104 developmental biology, Robot, Search and rescue, media_common

Abstract

Soft pneumatic robots have gained research interests in many fields, showing an advantage of compliance and safeness to human-robotic interaction and various environments. In this paper, a multi/dual-chamber soft crawling robot based on unbalanced pneumatic actuation is presented, which requires only simple design and control to realize the forward locomotion and steering. The design is composed of three parts: the main part of the crawling robot is made of hyper-elastic silicone rubber; an unstretchable fabric is attached outside of part of the robot to form an exterior constraint; two chambers are mounted on the head as steering module. Experiments validate the design in principle and an adequate locomotion performance of the robot. Due to the simple, low-cost structure and its flexible actuation, such crawling robots can be used to perform pipeline exploration, search and rescue missions.

Published

2020

5. Research on Railway Intelligent Operation and Maintenance and Its System Architecture

Author

Honghui Li, Yuhang Duan, and Mengqi He

Subjects

Workflow, Work (electrical), Computer science, InformationSystems_INFORMATIONSYSTEMSAPPLICATIONS, Systems architecture, Systems engineering, Railway transportation, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Architecture, Informatization, Maintenance system

Abstract

With the continuous development of railway informatization, railway operation and maintenance system also needs to be more intelligent. Starting from the basic concepts of operation and maintenance, intelligent operation and maintenance and railway intelligent operation and maintenance, according to the current operation and maintenance situation of some systems in the railway industry, this paper studies the overall architecture and workflow of the railway intelligent operation and maintenance system. Intelligent operation and maintenance technology can provide technical means for ensuring railway transportation safety, improving maintenance efficiency and reducing operation and maintenance cost. The implementation of railway intelligent operation and maintenance system will make railway operation and maintenance move forward from traditional decentralized mode to centralized and unified mode, so as to make railway operation and maintenance work more scientific and efficient and improve the overall operation and maintenance level of railway.

Published

2020