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1. C${^2}$RL: Content and Context Representation Learning for Gloss-free Sign Language Translation and Retrieval

Author

Chen, Zhigang, Zhou, Benjia, Huang, Yiqing, Wan, Jun, Hu, Yibo, Shi, Hailin, Liang, Yanyan, Lei, Zhen, and Zhang, Du

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language
Abstract

Sign Language Representation Learning (SLRL) is crucial for a range of sign language-related downstream tasks such as Sign Language Translation (SLT) and Sign Language Retrieval (SLRet). Recently, many gloss-based and gloss-free SLRL methods have been proposed, showing promising performance. Among them, the gloss-free approach shows promise for strong scalability without relying on gloss annotations. However, it currently faces suboptimal solutions due to challenges in encoding the intricate, context-sensitive characteristics of sign language videos, mainly struggling to discern essential sign features using a non-monotonic video-text alignment strategy. Therefore, we introduce an innovative pretraining paradigm for gloss-free SLRL, called C${^2}$RL, in this paper. Specifically, rather than merely incorporating a non-monotonic semantic alignment of video and text to learn language-oriented sign features, we emphasize two pivotal aspects of SLRL: Implicit Content Learning (ICL) and Explicit Context Learning (ECL). ICL delves into the content of communication, capturing the nuances, emphasis, timing, and rhythm of the signs. In contrast, ECL focuses on understanding the contextual meaning of signs and converting them into equivalent sentences. Despite its simplicity, extensive experiments confirm that the joint optimization of ICL and ECL results in robust sign language representation and significant performance gains in gloss-free SLT and SLRet tasks. Notably, C${^2}$RL improves the BLEU-4 score by +5.3 on P14T, +10.6 on CSL-daily, +6.2 on OpenASL, and +1.3 on How2Sign. It also boosts the R@1 score by +8.3 on P14T, +14.4 on CSL-daily, and +5.9 on How2Sign. Additionally, we set a new baseline for the OpenASL dataset in the SLRet task.

Published
2024

2. FeTT: Continual Class Incremental Learning via Feature Transformation Tuning

Author

Qiang, Sunyuan, Lin, Xuxin, Liang, Yanyan, Wan, Jun, and Zhang, Du

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Continual learning (CL) aims to extend deep models from static and enclosed environments to dynamic and complex scenarios, enabling systems to continuously acquire new knowledge of novel categories without forgetting previously learned knowledge. Recent CL models have gradually shifted towards the utilization of pre-trained models (PTMs) with parameter-efficient fine-tuning (PEFT) strategies. However, continual fine-tuning still presents a serious challenge of catastrophic forgetting due to the absence of previous task data. Additionally, the fine-tune-then-frozen mechanism suffers from performance limitations due to feature channels suppression and insufficient training data in the first CL task. To this end, this paper proposes feature transformation tuning (FeTT) model to non-parametrically fine-tune backbone features across all tasks, which not only operates independently of CL training data but also smooths feature channels to prevent excessive suppression. Then, the extended ensemble strategy incorporating different PTMs with FeTT model facilitates further performance improvement. We further elaborate on the discussions of the fine-tune-then-frozen paradigm and the FeTT model from the perspectives of discrepancy in class marginal distributions and feature channels. Extensive experiments on CL benchmarks validate the effectiveness of our proposed method.

Published
2024

3. Dynamic Feature Learning and Matching for Class-Incremental Learning

Author

Qiang, Sunyuan, Liang, Yanyan, Wan, Jun, and Zhang, Du

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Class-incremental learning (CIL) has emerged as a means to learn new classes incrementally without catastrophic forgetting of previous classes. Recently, CIL has undergone a paradigm shift towards dynamic architectures due to their superior performance. However, these models are still limited by the following aspects: (i) Data augmentation (DA), which are tightly coupled with CIL, remains under-explored in dynamic architecture scenarios. (ii) Feature representation. The discriminativeness of dynamic feature are sub-optimal and possess potential for refinement. (iii) Classifier. The misalignment between dynamic feature and classifier constrains the capabilities of the model. To tackle the aforementioned drawbacks, we propose the Dynamic Feature Learning and Matching (DFLM) model in this paper from above three perspectives. Specifically, we firstly introduce class weight information and non-stationary functions to extend the mix DA method for dynamically adjusting the focus on memory during training. Then, von Mises-Fisher (vMF) classifier is employed to effectively model the dynamic feature distribution and implicitly learn their discriminative properties. Finally, the matching loss is proposed to facilitate the alignment between the learned dynamic features and the classifier by minimizing the distribution distance. Extensive experiments on CIL benchmarks validate that our proposed model achieves significant performance improvements over existing methods.

Published
2024

4. Continual Learning on Graphs: A Survey

Author

Tian, Zonggui, Zhang, Du, and Dai, Hong-Ning

Subjects
Computer Science - Machine Learning
Abstract

Recently, continual graph learning has been increasingly adopted for diverse graph-structured data processing tasks in non-stationary environments. Despite its promising learning capability, current studies on continual graph learning mainly focus on mitigating the catastrophic forgetting problem while ignoring continuous performance improvement. To bridge this gap, this article aims to provide a comprehensive survey of recent efforts on continual graph learning. Specifically, we introduce a new taxonomy of continual graph learning from the perspective of overcoming catastrophic forgetting. Moreover, we systematically analyze the challenges of applying these continual graph learning methods in improving performance continuously and then discuss the possible solutions. Finally, we present open issues and future directions pertaining to the development of continual graph learning and discuss how they impact continuous performance improvement.

Published
2024

5. PMMTalk: Speech-Driven 3D Facial Animation from Complementary Pseudo Multi-modal Features

Author

Han, Tianshun, Gui, Shengnan, Huang, Yiqing, Li, Baihui, Liu, Lijian, Zhou, Benjia, Jiang, Ning, Lu, Quan, Zhi, Ruicong, Liang, Yanyan, Zhang, Du, and Wan, Jun

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Speech-driven 3D facial animation has improved a lot recently while most related works only utilize acoustic modality and neglect the influence of visual and textual cues, leading to unsatisfactory results in terms of precision and coherence. We argue that visual and textual cues are not trivial information. Therefore, we present a novel framework, namely PMMTalk, using complementary Pseudo Multi-Modal features for improving the accuracy of facial animation. The framework entails three modules: PMMTalk encoder, cross-modal alignment module, and PMMTalk decoder. Specifically, the PMMTalk encoder employs the off-the-shelf talking head generation architecture and speech recognition technology to extract visual and textual information from speech, respectively. Subsequently, the cross-modal alignment module aligns the audio-image-text features at temporal and semantic levels. Then PMMTalk decoder is employed to predict lip-syncing facial blendshape coefficients. Contrary to prior methods, PMMTalk only requires an additional random reference face image but yields more accurate results. Additionally, it is artist-friendly as it seamlessly integrates into standard animation production workflows by introducing facial blendshape coefficients. Finally, given the scarcity of 3D talking face datasets, we introduce a large-scale 3D Chinese Audio-Visual Facial Animation (3D-CAVFA) dataset. Extensive experiments and user studies show that our approach outperforms the state of the art. We recommend watching the supplementary video.

Published
2023

6. Gloss-free Sign Language Translation: Improving from Visual-Language Pretraining

Author

Zhou, Benjia, Chen, Zhigang, Clapés, Albert, Wan, Jun, Liang, Yanyan, Escalera, Sergio, Lei, Zhen, and Zhang, Du

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Sign Language Translation (SLT) is a challenging task due to its cross-domain nature, involving the translation of visual-gestural language to text. Many previous methods employ an intermediate representation, i.e., gloss sequences, to facilitate SLT, thus transforming it into a two-stage task of sign language recognition (SLR) followed by sign language translation (SLT). However, the scarcity of gloss-annotated sign language data, combined with the information bottleneck in the mid-level gloss representation, has hindered the further development of the SLT task. To address this challenge, we propose a novel Gloss-Free SLT based on Visual-Language Pretraining (GFSLT-VLP), which improves SLT by inheriting language-oriented prior knowledge from pre-trained models, without any gloss annotation assistance. Our approach involves two stages: (i) integrating Contrastive Language-Image Pre-training (CLIP) with masked self-supervised learning to create pre-tasks that bridge the semantic gap between visual and textual representations and restore masked sentences, and (ii) constructing an end-to-end architecture with an encoder-decoder-like structure that inherits the parameters of the pre-trained Visual Encoder and Text Decoder from the first stage. The seamless combination of these novel designs forms a robust sign language representation and significantly improves gloss-free sign language translation. In particular, we have achieved unprecedented improvements in terms of BLEU-4 score on the PHOENIX14T dataset (>+5) and the CSL-Daily dataset (>+3) compared to state-of-the-art gloss-free SLT methods. Furthermore, our approach also achieves competitive results on the PHOENIX14T dataset when compared with most of the gloss-based methods. Our code is available at https://github.com/zhoubenjia/GFSLT-VLP., Comment: Accepted to ICCV'23

Published
2023

7. FM-ViT: Flexible Modal Vision Transformers for Face Anti-Spoofing

Author

Liu, Ajian, Tan, Zichang, Yu, Zitong, Zhao, Chenxu, Wan, Jun, Liang, Yanyan, Lei, Zhen, Zhang, Du, Li, Stan Z., and Guo, Guodong

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The availability of handy multi-modal (i.e., RGB-D) sensors has brought about a surge of face anti-spoofing research. However, the current multi-modal face presentation attack detection (PAD) has two defects: (1) The framework based on multi-modal fusion requires providing modalities consistent with the training input, which seriously limits the deployment scenario. (2) The performance of ConvNet-based model on high fidelity datasets is increasingly limited. In this work, we present a pure transformer-based framework, dubbed the Flexible Modal Vision Transformer (FM-ViT), for face anti-spoofing to flexibly target any single-modal (i.e., RGB) attack scenarios with the help of available multi-modal data. Specifically, FM-ViT retains a specific branch for each modality to capture different modal information and introduces the Cross-Modal Transformer Block (CMTB), which consists of two cascaded attentions named Multi-headed Mutual-Attention (MMA) and Fusion-Attention (MFA) to guide each modal branch to mine potential features from informative patch tokens, and to learn modality-agnostic liveness features by enriching the modal information of own CLS token, respectively. Experiments demonstrate that the single model trained based on FM-ViT can not only flexibly evaluate different modal samples, but also outperforms existing single-modal frameworks by a large margin, and approaches the multi-modal frameworks introduced with smaller FLOPs and model parameters., Comment: 12 pages, 7 figures

Published
2023

12. Effect of Solid-state Fermentation on the Physico-chemical Properties of Wheat Bran

Author

ZHANG Du-qin, SHEN Zhu-jiang, and TAN Bin

Subjects
wheat bran, soli-state fermentation, dietary fiber, physic-chemical property, correlation analysis, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641
Abstract

Saccharomyces cerevisiae (S. cerevisiae) and Lactobacillus plantarum (L. plantarum) were used in separate and mixed for solid-state fermentation (SSF) of wheat bran (WB). Effects of SSF on the physicochemical properties of WB and dietary fiber content and composition were determined, and the correlation between various indicators was analyzed. Accordingly, the possible reasons of SSF improving nutrition and processing qualities of WB were preliminary explained, which is to the benefit of expanding the utilization of SSF in whole grain processing. Results showed that soluble dietary fiber (SDF) and arabinoxylan content of the fermented WB increased by 40.6% and 15.2%, respectively. WB fermented with a mixture of S. cerevisiae and L. plantarum had the highest water- and oil-holding capacity. SSF significantly decreased the peak denaturation temperature (TP), enthalpy, and crystallinity of WB from 195.35 ℃, 3 869.50 J/g, and 15.86% to 178.30 ℃, 3 276.67 J/g, and 15.24%, respectively (P

Published
2024
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13. Decoupling and Recoupling Spatiotemporal Representation for RGB-D-based Motion Recognition

Author

Zhou, Benjia, Wang, Pichao, Wan, Jun, Liang, Yanyan, Wang, Fan, Zhang, Du, Lei, Zhen, Li, Hao, and Jin, Rong

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Decoupling spatiotemporal representation refers to decomposing the spatial and temporal features into dimension-independent factors. Although previous RGB-D-based motion recognition methods have achieved promising performance through the tightly coupled multi-modal spatiotemporal representation, they still suffer from (i) optimization difficulty under small data setting due to the tightly spatiotemporal-entangled modeling;(ii) information redundancy as it usually contains lots of marginal information that is weakly relevant to classification; and (iii) low interaction between multi-modal spatiotemporal information caused by insufficient late fusion. To alleviate these drawbacks, we propose to decouple and recouple spatiotemporal representation for RGB-D-based motion recognition. Specifically, we disentangle the task of learning spatiotemporal representation into 3 sub-tasks: (1) Learning high-quality and dimension independent features through a decoupled spatial and temporal modeling network. (2) Recoupling the decoupled representation to establish stronger space-time dependency. (3) Introducing a Cross-modal Adaptive Posterior Fusion (CAPF) mechanism to capture cross-modal spatiotemporal information from RGB-D data. Seamless combination of these novel designs forms a robust spatialtemporal representation and achieves better performance than state-of-the-art methods on four public motion datasets. Our code is available at https://github.com/damo-cv/MotionRGBD., Comment: open sourced; codes and models are available:https://github.com/damo-cv/MotionRGBD; transformer-based method

Published
2021

20. Contrastive Context-Aware Learning for 3D High-Fidelity Mask Face Presentation Attack Detection

Author

Liu, Ajian, Zhao, Chenxu, Yu, Zitong, Wan, Jun, Su, Anyang, Liu, Xing, Tan, Zichang, Escalera, Sergio, Xing, Junliang, Liang, Yanyan, Guo, Guodong, Lei, Zhen, Li, Stan Z., and Zhang, Du

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Face presentation attack detection (PAD) is essential to secure face recognition systems primarily from high-fidelity mask attacks. Most existing 3D mask PAD benchmarks suffer from several drawbacks: 1) a limited number of mask identities, types of sensors, and a total number of videos; 2) low-fidelity quality of facial masks. Basic deep models and remote photoplethysmography (rPPG) methods achieved acceptable performance on these benchmarks but still far from the needs of practical scenarios. To bridge the gap to real-world applications, we introduce a largescale High-Fidelity Mask dataset, namely CASIA-SURF HiFiMask (briefly HiFiMask). Specifically, a total amount of 54,600 videos are recorded from 75 subjects with 225 realistic masks by 7 new kinds of sensors. Together with the dataset, we propose a novel Contrastive Context-aware Learning framework, namely CCL. CCL is a new training methodology for supervised PAD tasks, which is able to learn by leveraging rich contexts accurately (e.g., subjects, mask material and lighting) among pairs of live faces and high-fidelity mask attacks. Extensive experimental evaluations on HiFiMask and three additional 3D mask datasets demonstrate the effectiveness of our method.

Published
2021

27. Study on grouting suspension performance of gasification ash of coal-based oil

Author

ZHAO Ju, ZHENG Xuezhao, CEN Xiaoxin, ZHANG Du, BAO Yintan, and YUN Shaoqiang

Subjects
coal-based oil, gasification ash, suspension agent, suspension rate, fluidity, Mining engineering. Metallurgy, TN1-997
Abstract

This paper proposes an idea of pouring gasification ash into the underground goaf as a grouting fire prevention and extinguishing material. In order to effectively solve the problem that the gasification ash slurry of coal-based oil tends to block the pipeline in the process of grouting, the influence of three suspension agents such as xanthan gum, carboxymethyl cellulose(CMC) and sodium soil on the suspension rate and fluidity of gasification ash slurry was studied through a series of experiments. The results showed that with the increase of the amount of suspension agent, the suspension rate of slurry increased gradually, and its fluidity decreased gradually. More specifically, when the addition amount of xanthan gum, CMC and sodium-soil was 0.25%, 1.5%and 3%, respectively, the suspension rate reached the maximum with 81.82%, 72.73% and 53.24%, respectively. Among the three suspending agents, xanthan gum has the best suspending effect on gasification ash, followed by CMC and sodium-soil. The fluidity experiment showed that the fluidity of the slurry was the worst with adding xanthan gum to the slurry, which is not beneficial for the pipeline transportation of the slurry. While sodium-clay is added to slurry, the fluidity of the slurry is the best. But it is prone to water-cement separation and blockage of the pipe. Hence, considering suspension rate and flow, CMC was selected as suspension agent.

Published
2023
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38. Research on Pitting Corrosion Resistance of 8367, 904L and 316L Austenitic Stainless Steels

Author

ZHANG Du - bao, FANG Ke - wei, LUO Kun - jie, FAN Guo - hui, LI Cheng - tao, WANG Li, SHEN Jian

Subjects
8367, 904l, 316l, critical pitting temperature, pitting potential, corrosion rate, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology
Abstract

In order to study the pitting corrosion resistances of 8367, 904L and 316L austenitic stainless steels in different environments, electrochemical tests and immersion corrosion tests were used to analyze the pitting equivalent, critical pitting temperature, pitting potential, and corrosion rate. Results showed that the critical pitting temperatures of 8367, 904L and 316L stainless steels in 3.5% NaCl solution were 66 ℃, 50 ℃ and 15 ℃, respectively. The critical pitting position of 8367 had no obvious change with the increase of medium temperature, while the critical pitting positions of 904L and 316L stainless steels decreased gradually, leading to a result that Eb(8367)>Eb(904L)>Eb(316L). Moreover, 8367 stainless steel had low corrosion rates at 20 ℃ and 50 ℃ in 4% FeCl3 solution, and the corrosion rates changed little with the increase of temperature. The corrosion rates of 904L and 316L stainless steel in 4% FeCl3 solution at 20 ℃ and 50 ℃ were higher than that of 8367 stainless steel, and the corrosion rates increased greatly with the rising of temperature.

Published
2022
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41. Feasibility study of photon‐counting CT for material identification based on YSO/SiPM detector: A proof of concept.

Author

Zhang, Du, Wu, Bin, Xi, Daoming, Chen, Rui, Xiao, Peng, and Xie, Qingguo

Abstract

Background: Current photon‐counting computed tomography (CT) systems utilize semiconductor detectors, such as cadmium telluride (CdTe), cadmium zinc telluride (CZT), and silicon (Si), which convert x‐ray photons directly into charge pulses. An alternative approach is indirect detection, which involves Yttrium Orthosilicate (YSO) scintillators coupled with silicon photomultipliers (SiPMs). This presents an attractive and cost‐effective option due to its low cost, high detection efficiency, low dark count rate, and high sensor gain. Objective: This study aims to establish a comprehensive quantitative imaging framework for three‐energy‐bin proof‐of‐concept photon‐counting CT based on YSO/SiPM detectors developed in our group using multi‐voltage threshold (MVT) digitizers and assess the feasibility of this spectral CT for material identification. Methods: We developed a proof‐of‐concept YSO/SiPM‐based benchtop spectral CT system and established a pipeline for three‐energy‐bin photon‐counting CT projection‐domain processing. The empirical A‐table method was employed for basis material decomposition, and the quantitative imaging performance of the spectral CT system was assessed. This evaluation included the synthesis errors of virtual monoenergetic images, electron density images, effective atomic number images, and linear attenuation coefficient curves. The validity of employing A‐table methods for material identification in three‐energy‐bin spectral CT was confirmed through both simulations and experimental studies. Results: In both noise‐free and noisy simulations, the thickness estimation experiments and quantitative imaging results demonstrated high accuracy. In the thickness estimation experiment using the practical spectral CT system, the mean absolute error for the estimated thickness of the decomposed Al basis material was 0.014 ± 0.010 mm, with a mean relative error of 0.66% ± 0.42%. Similarly, for the decomposed polymethyl methacrylate (PMMA) basis material, the mean absolute error in thickness estimation was 0.064 ± 0.058 mm, with a mean relative error of 0.70% ± 0.38%. Additionally, employing the equivalent thickness of the basis material allowed for accurate synthesis of 70 keV virtual monoenergetic images (relative error 1.85% ± 1.26%), electron density (relative error 1.81% ± 0.97%), and effective atomic number (relative error 2.64% ± 1.26%) of the tested materials. In addition, the average synthesis error of the linear attenuation coefficient curves in the energy range from 40 to 150 keV was 1.89% ± 1.07%. Conclusions: Both simulation and experimental results demonstrate the accurate generation of 70 keV virtual monoenergetic images, electron density, and effective atomic number images using the A‐table method. Quantitative imaging results indicate that the YSO/SiPM‐based photon‐counting detector is capable of accurately reconstructing virtual monoenergetic images, electron density images, effective atomic number images, and linear attenuation coefficient curves, thereby achieving precise material identification. [ABSTRACT FROM AUTHOR]

Published
2024
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42. Feasibility study of YSO/SiPM based detectors for virtual monochromatic image synthesis.

Author

Zhang, Du, Wu, Bin, Xi, Daoming, Chen, Rui, Xiao, Peng, and Xie, Qingguo

Subjects
*DUAL energy CT (Tomography), *SEMICONDUCTOR detectors, *CADMIUM zinc telluride, *ATTENUATION coefficients, *CADMIUM telluride
Abstract

The development of photon-counting CT systems has focused on semiconductor detectors like cadmium zinc telluride (CZT) and cadmium telluride (CdTe). However, these detectors face high costs and charge-sharing issues, distorting the energy spectrum. Indirect detection using Yttrium Orthosilicate (YSO) scintillators with silicon photomultiplier (SiPM) offers a cost-effective alternative with high detection efficiency, low dark count rate, and high sensor gain.This work aims to demonstrate the feasibility of the YSO/SiPM detector (DexScanner L103) based on the Multi-Voltage Threshold (MVT) sampling method as a photon-counting CT detector by evaluating the synthesis error of virtual monochromatic images.In this study, we developed a proof-of-concept benchtop photon-counting CT system, and employed a direct method for empirical virtual monochromatic image synthesis (EVMIS) by polynomial fitting under the principle of least square deviation without X-ray spectral information. The accuracy of the empirical energy calibration techniques was evaluated by comparing the reconstructed and actual attenuation coefficients of calibration and test materials using mean relative error (MRE) and mean square error (MSE).In dual-material imaging experiments, the overall average synthesis error for three monoenergetic images of distinct materials is 2.53% ±2.43%. Similarly, in K-edge imaging experiments encompassing four materials, the overall average synthesis error for three monoenergetic images is 4.04% ±2.63%. In rat biological soft-tissue imaging experiments, we further predicted the densities of various rat tissues as follows: bone density is 1.41±0.07 g/cm3, adipose tissue density is 0.91±0.06 g/cm3, heart tissue density is 1.09±0.04 g/cm3, and lung tissue density is 0.32±0.07 g/cm3. Those results showed that the reconstructed virtual monochromatic images had good conformance for each material.This study indicates the SiPM-based photon-counting detector could be used for monochromatic image synthesis and is a promising method for developing spectral computed tomography systems. [ABSTRACT FROM AUTHOR]

Published
2024
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43. PAL-YOLOv8: A Lightweight Algorithm for Insulator Defect Detection.

Author

Zhang, Du, Cao, Kerang, Han, Kai, Kim, Changsu, and Jung, Hoekyung

Subjects
ALGORITHMS, NECK
Abstract

To address the challenges of high model complexity and low accuracy in detecting small targets in insulator defect detection using UAV aerial imagery, we propose a lightweight algorithm, PAL-YOLOv8. Firstly, the baseline model, YOLOv8n, is enhanced by incorporating the PKI Block from PKINet to improve the C2f module, effectively reducing the model complexity and enhancing feature extraction capabilities. Secondly, Adown from YOLOv9 is employed in the backbone and neck for downsampling, which retains more feature information while reducing the feature map size, thus improving the detection accuracy. Additionally, Focaler-SIoU is used as the bounding-box regression loss function to improve model performance by focusing on different regression samples. Finally, pruning is applied to the improved model to further reduce its size. The experimental results show that PAL-YOLOv8 achieves an mAP50 of 95.0%, which represents increases of 5.5% and 2.6% over YOLOv8n and YOLOv9t, respectively. Furthermore, GFLOPs is only 3.9, the model size is just 2.7 MB, and the parameter count is only 1.24 × 106. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Three Sclerotinia species as the cause of white mold on pea in Chongqing and Sichuan of China

Author

Dong DENG, Su-li SUN, Chen-zhang DU, Chao XIANG, Jue-chen LONG, Wei-dong CHEN, and Zhen-dong ZHU

Subjects
Pisum sativum, white mold, Sclerotinia sclerotiorum, Sclerotinia minor, Sclerotinia trifoliorum, Agriculture (General), S1-972
Abstract

White mold of pea caused by Sclerotinia sclerotiorum is a common disease in China. However, we discovered that the diverse Sclerotinia species could cause white mold on pea plants in Chongqing and Sichuan of China during recent disease surveys. Thus, the objective of this study was to confirm the causal agents from diseased pea plants. The obtained isolates of white mold from Chongqing and Sichuan were identified by morphological characters and molecular characterization to determine the pathogen species, and their pathogenicity was confirmed on pea through completing Koch's postulates. Fungal isolates of Sclerotinia-like were obtained from diseased plants or sclerotia. Based on morphological characteristics and molecular characterization, 30 isolates were identified to three species, six isolates as S. minor, seven as S. sclerotiorum, and 17 as S. trifoliorum. In pathogenicity tests on pea cultivars Zhongwan 4 and Longwan 1, all 30 isolates caused typical symptoms of white mold on the inoculated plants, and the inoculated pathogens were re-isolated from the diseased plants. This study confirmed that white mold of pea was caused by three Sclerotinia species, S. sclerotiorum, S. minor and S. trifoliorum in Chongqing and Sichuan. It is the first report that S. minor and S. trifoliorum cause white mold of pea in Southwest China.

Published
2021
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50. The Current Research and Application of Solid-state Fermentation of Wheat Bran

Author

ZHANG Du-qin, TAN Bin, WANG Li-ping, and YE Yan-jun

Subjects
wheat bran, solid-state fermentation, secondary metabolites, microbial inoculums, whole-grain food, research and application, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641
Abstract

Wheat bran is the main by-product during the milling process of wheat flour,which is rich in bioactive substances.It could be used as the substrate for microbial growth in the process of solid-state fermentation and in various industrial production fields.The current research and application of solidstate fermented wheat bran in metabolites production,microbial inoculums preparation,whole-grain food processing,and feed substitution were reviewed in this study,and their prospects were also put forward,in order to provide a theoretical reference for the further and systematic research of wheat bran solid-state fermentation.

Published
2021
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