Your search keyword '"Yan Ke"' showing total 4,367 results

1. Prediction Model of Water Demand for Scouring Siltation in Coastal River Networks Based on APSO and SVM: A Case Study of Doulong Port

Author

MA Zhutong, XIANG Long, and YAN Ke

Subjects

water diversion for scouring siltation, water demand for scouring siltation, support vector machine, adaptive particle swarm optimization, sensitivity analysis, River, lake, and water-supply engineering (General), TC401-506

Abstract

Siltation in coastal river networks is a serious water security issue, and balancing siltation through water diversion is an important measure in ecological water resource dispatching. Taking the Doulong Port in the Lixiahe region of Jiangsu Province as the research subject, this paper redefined the water demand for scouring siltation based on the characteristic of scouring siltation in the area, so as to reflect the water demand for the net change in sediment monitored. By analyzing the in-situ monitoring data for the downstream channel of Doulong Port from 2001 to 2018, the paper extracted key variables such as initial riverbed volume, siltation amount, time duration, rainfall volume, and the frequency of sluice openings. A predictive model of water demand for scouring siltation was constructed, which combined adaptive particle swarm optimization (APSO) algorithm with support vector machine (SVM) and optimized the model parameters of the SVM through the APSO algorithm, enhancing the prediction accuracy of the APSO-SVM model. Furthermore, Sobol sensitivity analysis indicates that siltation amount, initial riverbed volume, and the frequency of sluice openings are the main variables affecting the water demand for scouring siltation, while rainfall volume and time duration show significant interactive effects. This study provides a theoretical basis and practical guidance for water resource management and channel maintenance, contributing to the improvement of water diversion efficiency in sea-entry channels and channel safety.

Published

2024

2. XGBoost-SHAP-based interpretable diagnostic framework for knee osteoarthritis: a population-based retrospective cohort study

Author

Zijuan Fan, Wenzhu Song, Yan Ke, Ligan Jia, Songyan Li, Jiao Jiao Li, Yuqing Zhang, Jianhao Lin, and Bin Wang

Subjects

Knee osteoarthritis, Classification, XGBoost, Boruta, SHAP, Machine learning, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Objective To use routine demographic and clinical data to develop an interpretable individual-level machine learning (ML) model to diagnose knee osteoarthritis (KOA) and to identify highly ranked features. Methods In this retrospective, population-based cohort study, anonymized questionnaire data was retrieved from the Wu Chuan KOA Study, Inner Mongolia, China. After feature selections, participants were divided in a 7:3 ratio into training and test sets. Class balancing was applied to the training set for data augmentation. Four ML classifiers were compared by cross-validation within the training set and their performance was further analyzed with an unseen test set. Classifications were evaluated using sensitivity, specificity, positive predictive value, negative predictive value, accuracy, area under the curve(AUC), G-means, and F1 scores. The best model was explained using Shapley values to extract highly ranked features. Results A total of 1188 participants were investigated in this study, among whom 26.3% were diagnosed with KOA. Comparatively, XGBoost with Boruta exhibited the highest classification performance among the four models, with an AUC of 0.758, G-means of 0.800, and F1 scores of 0.703. The SHAP method reveals the top 17 features of KOA according to the importance ranking, and the average of the experience of joint pain was recognized as the most important features. Conclusions Our study highlights the usefulness of machine learning in unveiling important factors that influence the diagnosis of KOA to guide new prevention strategies. Further work is needed to validate this approach.

Published

2024

3. Mechanics and Permeability Evolution Mechanism of Bedded Sandy Mudstone under Fluid-Solid Coupling Action

Author

LIU Xinyu, CHAI Zhaoyun, XIN Zipeng, XIAO Chang, LIU Xiangyu, LI Tianyu, YAN Ke, and DUAN Biying

Subjects

permeability, bedded sandy mudstone, bedding, finite difference method, discrete element simulation, Chemical engineering, TP155-156, Materials of engineering and construction. Mechanics of materials, TA401-492, Technology

Abstract

[Purposes] In order to better understand the permeability changes of coal measure bedded sandy mudstone under stress, the mechanical characteristics and permeability of bedded sandy mudstone were studied by discrete element simulation on the basis of the stress seepage coupling laboratory tests. [Methods] First, the failure mode and the relationship between the full stress-strain loading process and the permeability of sandy mudstone were studied by the stress-seepage coupling laboratory tests in the bedding directions of parallel and perpendicular rock bedding. Second, in the discrete element software PFC2D, a method to characterize the flow field by solving the finite difference method is proposed for the first time, which can well reflect the stress-strain response and permeability changes of sandy mudstone, and the simulated stress-strain and permeability curves obtained are consistent with experimental results, with the fluid flowing intensively along the main fracture. Finally, according to the calibrated parameters, the stress and permeability of rock samples at different bedding angles are simulated, and the relationships between the maximum permeability or peak strength and bedding angles are explored. [Findings] The results show that the strength and permeability of layered sandy mudstone are anisotropic. The flow field direction, flow rate, and contact force chain in the rock sample are closely related to the crack, and the strong contact force chain is concentrated near the shear zone at the joint of the sample. With the increase of the bedding angle α, the peak intensity changes in a“ U” shape, and the maximum permeability decreases linearly. [Conclusions] This numerical simulation method fully takes into account the influence of rock mechanics and seepage characteristics, which provides a theoretical basis for the surrounding rock seepage prevention and reinforcement project, and a new idea for the fluid-structure interaction of discrete element simulation.

Published

2024

4. FACSNet: Forensics aided content selection network for heterogeneous image steganalysis

Author

Siyuan Huang, Minqing Zhang, Yongjun Kong, Yan Ke, and Fuqiang Di

Subjects

Steganography, Steganalysis, Deep learning, Forensics aided, Content selection, Medicine, Science

Abstract

Abstract The main goal of image steganalysis, as a technique of confrontation with steganography, is to determine the presence or absence of secret information in conjunction with the specific statistical characteristics of the carrier. With the development of deep learning technology in recent years, the performance of steganography has been gradually enhanced. Especially for the complex reality environment, the image content is mixed and heterogeneous, which brings great challenges to the practical application of image steganalysis technology. In order to solve this problem, we design a forensics aided content selection network (FACSNet) for heterogeneous image steganalysis. Considering the heterogeneous situation of real images, a forensics aided module is introduced to pre-categorise the images to be tested, so that the network is able to detect different categories of images in a more targeted way. The complexity of the images is also further analysed and classified using the content selection module to train a more adapted steganalyser. By doing this, the network is allowed to achieve better performance in recognising and classifying the heterogeneous images for detection. Experimental results show that our designed FACSNet is able to achieve excellent detection performance in heterogeneous environments, improving the detection accuracy by up to 7.14% points, with certain robustness and practicality.

Published

2024

5. Bibliometric mapping of mesenchymal stem cell therapy for bone regeneration from 2013 to 2023

Author

Qianqian Chen, Yiqi Su, Zhen Yang, Qiyuan Lin, Yan Ke, Dan Xing, and Hui Li

Subjects

visualization research, mesenchymal stem cell, cell therapy, bone regeneration, CiteSpace, VOSviewer, Medicine (General), R5-920

Abstract

Mesenchymal stem cells (MSCs) have shown significant potential in bone regeneration and regenerative medicine in recent years. With the advancement of tissue engineering, MSCs have been increasingly applied in bone repair and regeneration, and their clinical application potential has grown through interdisciplinary approaches involving biomaterials and genetic engineering. However, there is a lack of systematic reviews summarizing their applications in bone regeneration. To address this gap, we analyzed the latest research on MSCs for bone regeneration published from 2013 to 2023. Using the Web of Science Core Collection, we conducted a literature search in December 2024 and employed bibliometric tools like CiteSpace and VOSviewer for a comprehensive analysis of the key research trends. Our findings focus on the development of cell engineering, highlighting the advantages, limitations, and future prospects of MSC applications in bone regeneration. These insights aim to enhance understanding of MSC-based bone regeneration, inspire new research directions, and facilitate the clinical translation of MSC research.

Published

2025

6. General secure encryption algorithm for separable reversible data hiding in encrypted domain

Author

Hongli Wan, Minqing Zhang, Yan Ke, Zongbao Jiang, and Fuqiang Di

Subjects

Reversible data hiding in encrypted domain, High-security, Known plaintext attack, Key conversion, Global intra-block bit-plane scrambling, Separability, Electronic computers. Computer science, QA75.5-76.95

Abstract

The separable reversible data hiding in encrypted domain (RDH-ED) algorithm leaves out the embedding space for the information before or after encryption and makes the operation of extracting the information and restoring the image not interfere with each other. The encryption method employed not only affects the embedding space of the information and separability, but is more crucial for ensuring security. However, the commonly used XOR, scram-bling or combination methods fall short in security, especially against known plaintext attack (KPA). Therefore, in order to improve the security of RDH-ED and be widely applicable, this paper proposes a high-security RDH-ED encryption algorithm that can be used to reserve space before encryption (RSBE) and free space after encryption (FSAE). During encryption, the image undergoes block XOR, global intra-block bit-plane scrambling (GIBS) and inter-block scrambling sequentially. The GIBS key is created through chaotic mapping transformation. Subsequently, two RDH-ED algorithms based on this encryption are proposed. Experimental results indicate that the algorithm outlined in this paper maintains consistent key communication traffic post key conversion. Additionally, its computational complexity remains at a constant level, satisfying separability criteria, and is suitable for both RSBE and FSAE methods. Simultaneously, while satisfying the security of a single encryption technique, we have expanded the key space to 28Np×Np!×8!Np, enabling resilience against various existing attack methods. Notably, particularly in KPA testing scenarios, the average decryption success rate is a mere 0.0067% and 0.0045%, highlighting its exceptional security. Overall, this virtually unbreakable system significantly enhances image security while preserving an appropriate embedding capacity.

Published

2024

7. Analysis of fertility characteristics and trends of registered population in a neighborhood in Jing’ an District,Shanghai from 2013 to 2022

Author

YAN Ke, WAN Qiuping, YANG Xiaoming, and HU Hong

Subjects

birth rate, fertility rate, childbearing age, urban community, Medicine

Abstract

ObjectiveTo analyze the fertility characteristics of the registered population in a neighborhood in Jing’an District, Shanghai from 2013 to 2022, and to provide a reference for population development planning and allocation of public health resources.MethodsData on newborns and puerperae registered in the neighborhood were collected through the Shanghai Birth Medical Information System and Public Security Department information system. Statistical analysis was conducted using Excel 2010, and the Joinpoint regression model was used to describe the changes.ResultsFrom 2013 to 2022, the crude birth rate, general fertility rate, and total fertility rate showed a declining trend, with average annual percent change (AAPC) values of -7.62%, -6.99%, and -4.54%, respectively. The average age of first childbirth and the age of childbearing among women gradually increased, with AAPC values of 1.24% and 1.28%, respectively. In the past 10 years, the total number of newborns showed a downward trend, with an AAPC value of -6.15%. After the implementation of the two-child policy, the proportion of second children showed an increasing trend, with an AAPC value of 7.37%.ConclusionThe fertility level of the population in the neighborhood is declining. The two-child policy has not significantly improved fertility rates, and the age of childbearing in women continues to rise. Diverse measures are needed to encourage childbirths and promote healthy births.

Published

2024

8. Short-term natural gas load forecasting model based on CEEMD-LSTM

Author

YAN Ke, PENG Xingyu, LIU Xiaokun, ZHANG Kun, ZHANG Yuchun, MU Weiwei, and LI Fusheng

Subjects

natural gas load forecasting, complementary ensemble empirical mode decomposition(ceemd), long short-term memory(lstm) network, hyperparameter optimization, Oils, fats, and waxes, TP670-699, Gas industry, TP751-762

Abstract

[Objective] Pipeline network companies need to forecast the short-term natural gas loads of downstream users to ensure a stable gas supply. However, traditional load forecasting methods have various problems such as poor fitting effect and low forecasting accuracy. A combined short-term natural gas load forecasting model based on the Complementary Ensemble of Empirical Mode Decomposition(CEEMD) and the Long Short-Term Memory(LSTM) network is proposed to improve the accuracy of short-term natural gas load forecasting. [Methods] To fully explore the internal hidden feature information of the load series and to avoid the mutual interference between different component features and additional noise, the original load series was decomposed into a finite number of Intrinsic Mode Function(IMF) components through CEEMD. Different IMF components were input into the LSTM model for iterative multi-step forecasting, the hyperparameters of the LSTM model were optimized based on the Bayesian algorithm to improve the learning effect and the forecasting accuracy, and the forecasting results of individual components were superimposed and reconstructed to obtain the final forecasting results. [Results] The comparison of forecasting results obtained by different combined models indicates that the errors in the values forecast by CEEMD-LSTM based on the real values are smaller, proving that the forecasting accuracy is higher. The Bayesian hyperparameter tuning further improves the forecasting accuracy but takes longer forecasting time. [Conclusion] Compared with other forecasting models, the combined CEEMDLSTM forecasting model can effectively extract the time order information of load series, eliminate the influence of nonlinear factors,and reduce reconstruction errors while suppressing modal superposition, thus improving forecasting accuracy. This method can provide a reference for the scheduling management and operation optimization of natural gas pipeline networks.

Published

2024

9. Symmetrical femtosecond laser arc incision in correcting corneal astigmatism in cataract patients

Author

Zun-Xia Hu, Jing Sima, Jia-Guo Cao, Yan Ke, Ying-Ying Zhang, Qiong-Tian Guo, Yu-Ping He, Hong-Xia Liao, Xiao Tan, Bo Qin, and Li Li

Subjects

femtosecond laser arc incision keratotomy, astigmatism, cataract, higher-order aberrations, Ophthalmology, RE1-994

Abstract

AIM: To evaluate the effect of symmetrical arc incision correcting corneal astigmatism in femtosecond laser-assisted phacoemulsification (FLACS). METHODS: This study enrolled patients with cataract combined with regular corneal astigmatism of >0.75 D, who underwent FLACS. Symmetrical arc incision was set at 8 mm diameter and 85% depth. The follow-up time was 3-24mo (4.92±3.49mo). Pentacam recorded the corneal astigmatism and higher-order aberration at pre-operation and post-operation. The changes in corneal astigmatism were analyzed by Alpins method. The correlation of astigmatism type, age, corneal horizontal diameter, corneal thickness, arc incision length, and correction index (CI) was analyzed, and the residual corneal astigmatism was compared with the residual whole eye astigmatism. RESULTS: Totally 79 patients (102 eyes) were enrolled, 10 patients had corneal epithelial injury, 1 patient occurred corneal epithelial hyperplasia. The corneal astigmatism was 1.23±0.38 D pre-operation, and decreased to 0.76±0.39 D post-operation (t=10.146, P=0.000). Corneal high-order aberration was 0.17±0.08 μm pre-operation and 0.24±0.11 μm post-operation (t=-5.186, P=0.000). The residual corneal astigmatism and residual whole eye astigmatism were no significant difference (t=-0.347, P=0.729). Using Alpin's method, the following were determined: target-induced astigmatism (TIA) =1.23±0.38 D, surgery-induced astigmatism (SIA) =0.77±0.45 D, difference vector (DV)=0.77±0.39 D, and CI=0.54±0.28. Age, astigmatism size, corneal horizontal diameter, corneal thickness, and arc incision length were not correlated with CI. The CI for against the rule astigmatism (ATR) was better than that for with the rule astigmatism (WTR; P=0.001). CONCLUSION: Femtosecond laser-assisted astigmatic keratotomy has better CI of ATR, but increase higher-order corneal aberration. CI is not ideal, it's not a perfect choice if we pursue ideal correction effect.

Published

2023

10. Long-term Prognosis Analysis and Influencing Factors of Concurrent Chemotherapy and Radio-therapy for Cervical and Upper Thoracic Esophageal Squamous Cell Carcinoma

Author

YAN Ke, WEI Wanyi, DENG Wenzhao, SHEN Wenbin, LI Shuguang, DU Xingyu, ZHANG Xueyuan, YANG Jie, ZHU Shuchai

Subjects

esophageal cancers, carcinoma, squamous cell, chemoradiotherapy, synchronous chemoradiotherapies, prognosis, root cause analysis, Medicine

Abstract

Background The incidence of cervical and upper thoracic esophageal cancer is relatively low, with difficulties and controversies of mode in treatment, lack of convenient and accurate prognostic biomarkers, and poor overall prognosis. Objective To investigate the long-term prognosis of patients with cervical and upper thoracic esophageal squamous cell carcinoma under concurrent chemotherapy and radio-therapy (CCRT) . Methods Patients with cervical and thoracic upper esophageal cancer who received CCRT in the Department of Radiotherapy of the Fourth Hospital of Hebei Medical University from January 2013 to December 2017 were selected as the research subjects. General data, Eastern Cooperative Oncology Group (ECOG) score, tumor site, tumor length, TNM stage, radiotherapy dose, irradiation mode, chemotherapy regimen, toxic and side effects were collected by electronic medical record system, and neutrophil to lymphocyte ratio (dNLR) was calculated. The patients were divided into the dNLR

Published

2023

11. Effect of Consolidation Chemotherapy on Prognosis of StageⅡ-Ⅲ Esophageal Squamous Cell Carcinoma Patients Treated with Definitive Concurrent Chemotherapy and Radio-therapy

Author

YAN Ke, WEI Wanyi, LI Shuguang, YAO Weinan, DONG Jing, WANG Xiaobin, ZHANG Xueyuan, YANG Jie, SHEN Wenbin, ZHU Shuchai

Subjects

esophageal cancers, carcinoma, squamous cell, chemoradiotherapy, synchronous chemoradiotherapies, consolidation chemotherapy, prognosis, root cause analysis, Medicine

Abstract

Background The improvement efficacy of consolidation chemotherapy after definitive concurrent chemotherapy and radio-therapy (CCRT) on the prognosis of patients with locally advanced esophageal squamous cell carcinoma (ESCC) remains controversial. In addition, there is a lack of nutritional risk screening tools which can consistently and accurately predict the survival of patients with esophageal cancer. Objective To investigate the effect of consolidation chemotherapy on the prognosis of patients with locally advanced ESCC receiving definitive CCRT. Methods A total of 223 patients with ESCC who received definitive CCRT in the department of radiotherapy, the Fourth Hospital of Hebei Medical University from January 2013 to December 2018 were selected as the research objects and divided into the simple CCRT group (n=87) and combined consolidation chemotherapy group (n=136) according to chemoradiotherapy regimen adopted by the patients. General data, ECOG score, tumor site, tumor length, TNM stage, radiotherapy dose, irradiation mode and chemotherapy regimen of the included patients were collected by electronic medical record system. Nutritional Risk Screening 2002 (NRS 2002) was used to score the nutritional status of the patients before chemoradiotherapy. Efficacy evaluation was performed within 1 month after CCRT, including complete response (CR), partial response (PR), stable disease (SD), and progressive disease (PD). Patients were followed up by telephone (completed by the follow-up center) and outpatient review until 2022-09-30, with overall survival (OS), local relapse-free survival (LRRFS) and distant metastasis-free survival (DMFS) collected. Survival curves of OS, LRRFS and DMFS were plotted by Kaplan-Meier method and compared by Log-rank test. Univariate and multivariate Cox risk regression models were used to explore the influencing factors of patient prognosis. Results There was no significant difference in baseline data between the simple CCRT group and combined consolidation chemotherapy group (P>0.05). There was no significant difference in the rates of OS, LRRFS and DMFS between the two groups (χ2=1.942, 0.743, 1.272; P=0.163, 0.389, 0.259). There were significant differences in the rates of OS, LRRFS and DMFS between patients with NRS 2002 score

Published

2023

12. Convergent relationships between flower economics and hydraulic traits across aquatic and terrestrial herbaceous plants

Author

Yan Ke, Feng-Ping Zhang, Yun-Bing Zhang, Wei Li, Qin Wang, Da Yang, Jiao-Lin Zhang, and Kun-Fang Cao

Subjects

Aquatic plants, Floral longevity, Flower economics traits, Flower hydraulic traits, Terrestrial plants, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Maintaining open flowers is critical for successful pollination and depends on long-term water and carbon balance. Yet the relationship between how flower hydraulic traits are coordinated in different habitats is poorly understood. Here, we hypothesize that the coordination and trade-offs between floral hydraulics and economics traits are independent of environmental conditions. To test this hypothesis, we investigated a total of 27 flower economics and hydraulic traits in six aquatic and six terrestrial herbaceous species grown in a tropical botanical garden. We found that although there were a few significant differences, most flower hydraulics and economics traits did not differ significantly between aquatic and terrestrial herbaceous plants. Both flower mass per area and floral longevity were significantly positively correlated with the time required for drying full-hydrated flowers to 70% relative water content. Flower dry matter content was strongly and positively related to drought tolerance of the flowers as indicated by flower water potential at the turgor loss point. In addition, there was a trade-off between hydraulic efficiency and the construction cost of a flower across species. Our results show that flowers of aquatic and terrestrial plants follow the same economics spectrum pattern. These results suggest a convergent flower economics design across terrestrial and aquatic plants, providing new insights into the mechanisms by which floral organs adapt to aquatic and terrestrial habitats.

Published

2023

13. Leaf habit differentiation explains trait tradeoffs across savanna woody plants

Author

Yangsiding Wang, Da Yang, G. German Vargas, Guangyou Hao, Jennifer S. Powers, Yan Ke, Qin Wang, Yunbing Zhang, and Jiaolin Zhang

Subjects

Dry-hot habitat, Gas exchange, Hydraulics, Phenology, Tolerance, Valley savanna, Ecology, QH540-549.5

Abstract

Identifying how leaf habit subdivisions link to the fast–slow and avoidance–tolerance trait tradeoffs can provide new insight into divergence in ecophysiological strategies among plant functional groups. Here, we tested a hypothesis that the differentiation across deciduous, semi-deciduous and evergreen woody species contributes to physiological trait tradeoffs in a dry-hot valley savanna. We investigated 11 photosynthetic, morphological and hydraulic traits of 24 species including 8 deciduous, 10 semi-deciduous and 6 evergreen species. Deciduous species were grouped in the fast and avoidance side associated with high values of maximum photosynthetic rates, stomatal conductance and leaf size, while evergreen species were grouped in the slow and tolerance side associated with high photosynthetic water use efficiency, leaf mass per area, sapwood density, Huber value, leaf water potential at turgor loss point and water potential causing 50% loss of stem hydraulic conductance. Semi-deciduous species generally had intermediate trait values and represented different physiological characteristics when compared to deciduous and evergreen species. The physiological trait tradeoffs showed a close linkage to the differentiation of these three leaf habits. Our findings clearly reveal trait tradeoffs related to fast–slow and avoidance–tolerance strategies among diverse savanna plants, suggesting a syndrome in multiple ecophysiology strategies across different leaf habits.

Published

2024

14. Exploring the role of macrophages in the progression from atypical hyperplasia to endometrial carcinoma through single-cell transcriptomics and bulk transcriptomics analysis

Author

Xiaolei Song, Re Na, Nianghai Peng, Wenming Cao, and Yan Ke

Subjects

ScRNA-seq, bulk-seq, macrophage, atypical endometrial hyperplasia, endometrial carcinoma, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

IntroductionIn this study, we aimed to identify key genes in endometrial cancer by conducting single-cell analysis of macrophages.MethodsWe sourced clinical data from the TCGA database as well as supplementary datasets GSE201926 and GSE173682. Using bulk-seq data of atypical endometrial hyperplasia and endometrial cancer, we pinpointed key differentially expressed genes. Single-cell RNA sequencing was utilized for further gene expression analysis. Cluster analysis was conducted on TCGA tumor data, identifying two distinct subtypes. Statistical methods employed included LASSO regression for diagnostic modeling and various clustering algorithms for subtype identification.ResultsWe found that subtype B was closely related to cellular metabolism. A diagnostic model was established using LASSO regression and was based on the genes CDH18, H19, PAGE2B, PXDN, and THRB. This model effectively differentiated the prognosis of cervical cancer. We also constructed a prognosis model and a column chart based on these key genes.DiscussionThrough CIBERSORT analysis, CDH18 and PAGE2B were found to be strongly associated with macrophage M0. We propose that these genes influence the transformation from atypical endometrial hyperplasia to endometrial cancer by affecting macrophage M0. In conclusion, these key genes may serve as therapeutic targets for endometrial cancer. A new endometrial cancer risk prognosis model and column chart have been constructed based on these genes, offering a reliable direction for future cervical cancer treatment.

Published

2023

15. Case report: The intrauterine suture surgery—an original method in the treatment of old uterine false passage

Author

Xiaolei Song, Re Na, Nianghai Peng, Wenming Cao, Yan Ke, Ping Liu, and Chunlin Chen

Subjects

new technique of intrauterine suture, old uterine false passage, intrauterine adhesions, conservative treatment failure, abnormal uterine bleeding, Surgery, RD1-811

Abstract

ObjectiveTo introduce an effective approach using the hysteroscopy system for patients with old uterine false passage after a failed conservative treatment.Materials and methodsThis study presents the case of a 34-year-old woman who was treated in the Department of Gynecology of Shenzhen Integrated Traditional Chinese and Western Medicine Hospital in 2018 with the complaint of “menstrual volumereduction for 2 years after abortion.” A hysteroscopy was performed to make a clear diagnosis: (1) uterine cavity adhesion and (2) old uterine false passage. After the separation of adhesions, the patient was treated with estradiol and progesterone in sequence (estradiol valerate 3 mg, b.i.d., oral for 21 days; and dydrogesterone tablets 10 mg, b.i.d., oral for the second half of the cycle) for 3 months. After the review of the hysteroscopy results, it was found that there was no improvement in the old false passage; therefore, a suture and knotting surgery under hysteroscopy was performed to treat the old false passage in the uterus within 10 min, and the intraoperative blood loss was 2 ml. The patient was discharged 24 h postoperatively without any adverse perioperative complications.ResultsTwo months after the operation, the review of the hysteroscopy results showed that the old false passage in the uterus disappeared. After the 6-month follow-up, the menstrual volume increased compared with the previous one, close to the normal menstrual volume, and the patient experienced no pain and menstrual discomfort. The patient was lost to follow-up and was contacted again in 2022. It was found out that in 2019, she was pregnant with a baby boy who is now 3 years old and healthy.ConclusionThe intrauterine suture surgery presents a clear visual field to old uterine false passage after a failed conservative treatment. In patients with old uterine false passage suffering from reduced fertility, the intrauterine suture surgery can be a minimally invasive and effective alternative if the conservative treatment for old uterine false passage failed.

Published

2023

16. Advances in related research about the development of glioma and its relationship with human cytomegalovirus infection

Author

YAN Ke, ZHAO Hai⁃feng, WU Jie, WANG Wei⁃hua, ZHU Wen⁃yu, and HUANG Qiang

Subjects

glioma, cytomegalovirus, review, Neurology. Diseases of the nervous system, RC346-429

Abstract

Cancer is a form of inflammation, which is different from common inflammation in that it is uncontrollable and difficult to identify pathogenic microorganisms. Most tumors are related to specific pathogenic microorganisms, especially viral infections. The relationship between gliomas and human cytomegalovirus (HCMV) infection has been debated for decades. This article puts forward the author’s own point of view as an interpretation on the basis of objectively expounding the positive and negative points of view, and put forward a further solution to the dispute, for clinical reference.

Published

2022

17. The usage of drainage after primary total hip or knee arthroplasty: best evidence selection and risk of bias considerations

Author

Huibin Long, Zhichang Li, Dan Xing, Yan Ke, and Jianhao Lin

Subjects

Arthroplasty, Overview, Drainage, Evidence, Risk-of bias, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Numerous systematic reviews investigating the benefit of the usage of drainage after primary total hip or knee arthroplasty have been published with divergent conclusions. We aim to determine the best available evidence and consider risk of bias of these articles and to provide recommendations. Methods A systematic search of systematic reviews published through to May 2020 was performed in MEDLINE, EMBASE and Cochrane library. Methodological quality, risk of bias and best evidence choice of included articles were evaluated by AMSTAR instrument, ROBIS tool and Jadad decision algorithm, respectively. We selected systematic reviews with high methodological quality and low risk of bias ultimately as best evidence. Results Twelve meta-analyses were included lastly. According to the ROBIS tool, seven of the included systematic reviews were with low risk of bias and five with high risk of bias. The Jadad decision algorithm suggested that two reviews conducted by Zan et al. for hip and Si et al. et al. for knee were selected as the best evidence, with highest AMSTAR score and low risk of bias. Conclusions Ten systematic reviews were included as low-quality with only two high-quality studies. Based on the current available evidence, we have insufficient confidence to draw conclusion that whether to use closed suction drainage for both total knee and hip arthroplasty. To verify the necessity and benefit of using closed suction drainage after primary total knee and hip arthroplasty, and develop exact recommendations, further studies are still required.

Published

2021

18. From Histopathology Images to Cell Clouds: Learning Slide Representations with Hierarchical Cell Transformer

Author

Yang, Zijiang, Qiu, Zhongwei, Lin, Tiancheng, Chao, Hanqing, Chang, Wanxing, Yang, Yelin, Zhang, Yunshuo, Jiao, Wenpei, Shen, Yixuan, Liu, Wenbin, Fu, Dongmei, Jin, Dakai, Yan, Ke, Lu, Le, Jiang, Hui, and Bian, Yun

Subjects

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

Abstract

It is clinically crucial and potentially very beneficial to be able to analyze and model directly the spatial distributions of cells in histopathology whole slide images (WSI). However, most existing WSI datasets lack cell-level annotations, owing to the extremely high cost over giga-pixel images. Thus, it remains an open question whether deep learning models can directly and effectively analyze WSIs from the semantic aspect of cell distributions. In this work, we construct a large-scale WSI dataset with more than 5 billion cell-level annotations, termed WSI-Cell5B, and a novel hierarchical Cell Cloud Transformer (CCFormer) to tackle these challenges. WSI-Cell5B is based on 6,998 WSIs of 11 cancers from The Cancer Genome Atlas Program, and all WSIs are annotated per cell by coordinates and types. To the best of our knowledge, WSI-Cell5B is the first WSI-level large-scale dataset integrating cell-level annotations. On the other hand, CCFormer formulates the collection of cells in each WSI as a cell cloud and models cell spatial distribution. Specifically, Neighboring Information Embedding (NIE) is proposed to characterize the distribution of cells within the neighborhood of each cell, and a novel Hierarchical Spatial Perception (HSP) module is proposed to learn the spatial relationship among cells in a bottom-up manner. The clinical analysis indicates that WSI-Cell5B can be used to design clinical evaluation metrics based on counting cells that effectively assess the survival risk of patients. Extensive experiments on survival prediction and cancer staging show that learning from cell spatial distribution alone can already achieve state-of-the-art (SOTA) performance, i.e., CCFormer strongly outperforms other competing methods.

Published

2024

19. From Pixels to Gigapixels: Bridging Local Inductive Bias and Long-Range Dependencies with Pixel-Mamba

Author

Qiu, Zhongwei, Chao, Hanqing, Lin, Tiancheng, Chang, Wanxing, Yang, Zijiang, Jiao, Wenpei, Shen, Yixuan, Zhang, Yunshuo, Yang, Yelin, Liu, Wenbin, Jiang, Hui, Bian, Yun, Yan, Ke, Jin, Dakai, and Lu, Le

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Histopathology plays a critical role in medical diagnostics, with whole slide images (WSIs) offering valuable insights that directly influence clinical decision-making. However, the large size and complexity of WSIs may pose significant challenges for deep learning models, in both computational efficiency and effective representation learning. In this work, we introduce Pixel-Mamba, a novel deep learning architecture designed to efficiently handle gigapixel WSIs. Pixel-Mamba leverages the Mamba module, a state-space model (SSM) with linear memory complexity, and incorporates local inductive biases through progressively expanding tokens, akin to convolutional neural networks. This enables Pixel-Mamba to hierarchically combine both local and global information while efficiently addressing computational challenges. Remarkably, Pixel-Mamba achieves or even surpasses the quantitative performance of state-of-the-art (SOTA) foundation models that were pretrained on millions of WSIs or WSI-text pairs, in a range of tumor staging and survival analysis tasks, {\bf even without requiring any pathology-specific pretraining}. Extensive experiments demonstrate the efficacy of Pixel-Mamba as a powerful and efficient framework for end-to-end WSI analysis.

Published

2024

20. SGTC: Semantic-Guided Triplet Co-training for Sparsely Annotated Semi-Supervised Medical Image Segmentation

Author

Yan, Ke, Cai, Qing, Zhang, Fan, Cao, Ziyan, and Liu, Zhi

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Although semi-supervised learning has made significant advances in the field of medical image segmentation, fully annotating a volumetric sample slice by slice remains a costly and time-consuming task. Even worse, most of the existing approaches pay much attention to image-level information and ignore semantic features, resulting in the inability to perceive weak boundaries. To address these issues, we propose a novel Semantic-Guided Triplet Co-training (SGTC) framework, which achieves high-end medical image segmentation by only annotating three orthogonal slices of a few volumetric samples, significantly alleviating the burden of radiologists. Our method consist of two main components. Specifically, to enable semantic-aware, fine-granular segmentation and enhance the quality of pseudo-labels, a novel semantic-guided auxiliary learning mechanism is proposed based on the pretrained CLIP. In addition, focusing on a more challenging but clinically realistic scenario, a new triple-view disparity training strategy is proposed, which uses sparse annotations (i.e., only three labeled slices of a few volumes) to perform co-training between three sub-networks, significantly improving the robustness. Extensive experiments on three public medical datasets demonstrate that our method outperforms most state-of-the-art semi-supervised counterparts under sparse annotation settings. The source code is available at https://github.com/xmeimeimei/SGTC., Comment: Accepted by AAAI 2025

Published

2024

21. Electromagnetic polarizabilities of the spin-$\frac{1}{2}$ singly heavy baryons in heavy baryon chiral perturbation theory

Author

Chen, Yan-Ke, Wen, Liang-Zhen, Meng, Lu, and Zhu, Shi-Lin

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice

Abstract

We calculate the electromagnetic polarizabilities of the spin-$\frac{1}{2}$ singly heavy baryons in the heavy baryon chiral perturbation theory up to $\mathcal{O}(p^3)$. We estimate the low-energy constants using the magnetic moments of singly charmed baryons from lattice QCD simulations and the experimental decay widths of $\Sigma_c$ and $\Sigma_c^*$. Our results indicate that the long-range chiral corrections make significant contributions to the polarizabilities. Additionally, the magnetic dipole transitions $\mathcal{B}_6^* \to \mathcal{B}_6 +\gamma $ also provide large contribution to the magnetic polarizabilities., Comment: 17 pages, 1 figure, 6 tables

Published

2024

22. Decision Transformer vs. Decision Mamba: Analysing the Complexity of Sequential Decision Making in Atari Games

Author

Yan, Ke

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

This work analyses the disparity in performance between Decision Transformer (DT) and Decision Mamba (DM) in sequence modelling reinforcement learning tasks for different Atari games. The study first observed that DM generally outperformed DT in the games Breakout and Qbert, while DT performed better in more complicated games, such as Hero and Kung Fu Master. To understand these differences, we expanded the number of games to 12 and performed a comprehensive analysis of game characteristics, including action space complexity, visual complexity, average trajectory length, and average steps to the first non-zero reward. In order to further analyse the key factors that impact the disparity in performance between DT and DM, we employ various approaches, including quantifying visual complexity, random forest regression, correlation analysis, and action space simplification strategies. The results indicate that the performance gap between DT and DM is affected by the complex interaction of multiple factors, with the complexity of the action space and visual complexity (particularly evaluated by compression ratio) being the primary determining factors. DM performs well in environments with simple action and visual elements, while DT shows an advantage in games with higher action and visual complexity. Our findings contribute to a deeper understanding of how the game characteristics affect the performance difference in sequential modelling reinforcement learning, potentially guiding the development of future model design and applications for diverse and complex environments.

Published

2024

23. Spontaneous emission in Casimir-Rabi oscillations through a weak optomechanical coupling

Author

Yan, Ke-Xiong, Qiu, Yuan, Xiao, Yang, Song, Jie, Chen, Ye-Hong, and Xia, Yan

Subjects

Quantum Physics

Abstract

The dynamical Casimir effect (DCE) describes the energy conversion from a mechanical motion to the electromagnetic fields. When the mechanical oscillator is in a mechanically excited state, the free evolution due to the DCE produces radiation in the vacuum, in analogy with the spontaneous emission from an excited atom. In this manuscript, we investigate such a spontaneous radiation process by employing the quantum trajectory approach. When the dissipation rate of the system is very low, there can be a reversible energy exchange between the mirror in the excited state and the vacuum field, and this reversible exchange is called vacuum Casimir-Rabi oscillations. Multiple quantum trajectory simulations of this process show that the number of trajectories responsible for the generation of radiation can reach a significant value when the mechanical dissipation rate is less than the photon dissipation rate. We also find that two-photon (two/three-phonon) bundle emission occurs in photon (phonon) emission. In comparison to pure two-photon and three-phonon free dissipation, the probability of two-photon bundle emission and two-phonon bundle emission are observed to be marginally elevated as a consequence of the presence of the DCE. This pattern may assist in developing a deeper comprehension of the physical characteristics of photon and phonon emission in the DCE., Comment: 9 pages, 9 figures, comments are welcome

Published

2024

24. SAFE: Slow and Fast Parameter-Efficient Tuning for Continual Learning with Pre-Trained Models

Author

Zhao, Linglan, Zhang, Xuerui, Yan, Ke, Ding, Shouhong, and Huang, Weiran

Subjects

Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition

Abstract

Continual learning aims to incrementally acquire new concepts in data streams while resisting forgetting previous knowledge. With the rise of powerful pre-trained models (PTMs), there is a growing interest in training incremental learning systems using these foundation models, rather than learning from scratch. Existing works often view PTMs as a strong initial point and directly apply parameter-efficient tuning (PET) in the first session for adapting to downstream tasks. In the following sessions, most methods freeze model parameters for tackling forgetting issues. However, applying PET directly to downstream data cannot fully explore the inherent knowledge in PTMs. Additionally, freezing the parameters in incremental sessions hinders models' plasticity to novel concepts not covered in the first session. To solve the above issues, we propose a Slow And Fast parameter-Efficient tuning (SAFE) framework. In particular, to inherit general knowledge from foundation models, we include a transfer loss function by measuring the correlation between the PTM and the PET-applied model. After calibrating in the first session, the slow efficient tuning parameters can capture more informative features, improving generalization to incoming classes. Moreover, to further incorporate novel concepts, we strike a balance between stability and plasticity by fixing slow efficient tuning parameters and continuously updating the fast ones. Specifically, a cross-classification loss with feature alignment is proposed to circumvent catastrophic forgetting. During inference, we introduce an entropy-based aggregation strategy to dynamically utilize the complementarity in the slow and fast learners. Extensive experiments on seven benchmark datasets verify the effectiveness of our method by significantly surpassing the state-of-the-art., Comment: Accepted by NeurIPS 2024

Published

2024

25. Intestinal Symptoms among Children Aged 2-7 Years with Autism Spectrum Disorder in 13 Cities of China

Author

Ting Yang, Qian Zhang, Li Chen, Ying Dai, Fei-Yong Jia, Yan Hao, Ling Li, Jie Zhang, Li-Jie Wu, Xiao-Yan Ke, Ming-Ji Yi, Qi Hong, Jin-Jin Chen, Shuan-Feng Fang, Yi-Chao Wang, Qi Wang, Chun-Hua Jin, Jie Chen, and Ting-Yu Li

Abstract

Background: Autism spectrum disorder (ASD) is a multifactorial, pervasive, neurodevelopmental disorder, of which intestinal symptoms collectively represent one of the most common comorbidities. Methods: In this study, 1,222 children with ASD and 1,206 typically developing (TD) children aged 2-7 years were enrolled from 13 cities in China. Physical measurement and basic information questionnaires were conducted in ASD and TD children. The Childhood Autism Rating Scale (CARS), Social Responsiveness Scale (SRS), and Autism Behavior Checklist (ABC) were used to evaluate the clinical symptoms of children with ASD. The six-item Gastrointestinal Severity Index (6-GSI) was used to evaluate the prevalence of intestinal symptoms in two groups. Results: The detection rates of constipation, stool odor, and total intestinal symptoms in ASD children were significantly higher than those in TD children (40.098% vs. 25.622%, 17.021% vs. 9.287%, and 53.601% vs. 41.294%, respectively). Autistic children presenting with intestinal comorbidity had significantly higher scores on the ABC, SRS, CARS, and multiple subscales than autistic children without intestinal symptoms, suggesting that intestinal comorbidity may exacerbates the core symptoms of ASD children. Conclusion: Intestinal dysfunction was significantly more common in autistic than in TD children. This dysfunction may aggravate the core symptoms of children with ASD.

Published

2024

26. Efficacy and safety of a single intra-articular injection of 6 ml Hylan G-F 20 compared to placebo in Chinese patients with symptomatic knee osteoarthritis

Author

Yan Ke, Wenxue Jiang, Yongsheng Xu, Yajun Chen, Qingsong Zhang, Qingyun Xue, Jianhao Lin, Wilson Ngai, Gaowei Nian, Mir Sohail Fazeli, Yao Xie, and Zhenan Zhu

Subjects

Knee osteoarthritis, Single 6 ml Hylan G-F 20 injection, Clinical outcomes, Placebo effect, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Single 6 ml Hylan G-F 20 injection, is indicated for knee osteoarthritis patients who have failed to respond to non-pharmacologic therapy and/or simple analgesics. To obtain more thorough understanding of the clinical efficacy and safety, a randomized clinical trial was conducted comparing intra-articular (IA) administration of single 6 ml Hylan G-F 20 injection versus placebo in knee OA patients of Chinese ethnicity. Methods This was a randomized, multi-center, double-blind, placebo-controlled clinical trial conducted in 21 centers across China. Four hundred forty adults with knee OA received a single 6 ml Hylan G-F 20 or placebo injection and were evaluated for clinical efficacy and safety outcomes over 26 weeks. Western Ontario and McMaster Universities OA (WOMAC) A1 index, treatment-emergent adverse events (TEAEs) and standard safety parameters were measured at pre-injection, and at weeks 1, 4, 8, 12, 16, 20 and 26 post-injection. Results Four hundred forty patients (male: 98 [22.3%]; female: 342 [77.7%]) were randomized. The mean age [standard deviation (SD)] was 61.5 (7.9) years. All patients were of East Asian ethnicity. Mean WOMAC A1 score at baseline was 5.3 (1.2) and 5.2 (1.3) in single 6 ml Hylan G-F 20 injection and placebo groups, respectively. Significant reductions of WOMAC A1 score were observed in both treatment groups when compared to baseline at 26 weeks post-injection, with the mean reduction of [standard error (SE)/percentage] -2.146 (0.108)/− 40.5% and − 2.271 (0.110) /− 43.7% in the single 6 ml Hylan G-F 20 injection and the placebo groups, respectively. Additionally, clinically important reductions in pain at 26 weeks was reported in 67.0 and 68.2% in single 6 ml Hylan G-F 20 injection and placebo groups (p = 0.36). Regarding safety, TEAEs were similar between the two treatment groups (hylan G-F 20 single: 61.5%; placebo: 64.5%). Conclusions While the magnitude of the effect of a single 6 ml Hylan G-F 20 injection in this study is consistent with previously published literature with respect to the efficacy and safety of the drug, the current study shows a strong IA placebo effect and did not established superiority of single 6 ml Hylan G-F 20 injection over IA placebo in Chinese knee OA patients. Trial registration Prospectively registered Jun 16, 2017 at www.clinicaltrials.gov ( NCT03190369 ).

Published

2021

27. The accelerometer-based navigation system demonstrated superior radiological outcomes in restoring mechanical alignment and component sagittal positioning in total knee arthroplasty

Author

Jiaxiang Gao, Yunfei Hou, Rujun Li, Yan Ke, Zhichang Li, and Jianhao Lin

Subjects

Total knee arthroplasty, Accelerometer-based navigation, Mechanical axis, Component sagittal positioning, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background This study aimed to determine whether the accelerometer-based navigation (ABN) could improve the accuracy of restoring mechanical axis (MA), component positioning, and clinical outcomes compared to conventional (CON) total knee arthroplasty (TKA). Methods A total of 301 consecutive patients (ABN: 27, CON: 274) were included. A 1:4 propensity score matching (PSM) was performed between the two groups according to preoperative demographic and clinical parameters. The postoperative MA, femoral coronal angle (FCA), femoral sagittal angle (FSA), tibial coronal angle (TCA) and tibial sagittal angle (TSA) were compared. Absolute deviations of aforementioned angles were calculated as the absolute value of difference between the exact and ideal value and defined as norms if within 3°, otherwise regarded as outliers. Additional clinical parameters, including the Knee Society knee and function scores (KSKS and KSFS) and range of motion (ROM), were assessed at final follow-up (FU) (mean FU was 21.88 and 21.56 months respectively for ABN and CON group). A secondary subgroup analysis and comparison on clinical outcomes were conducted between norms and outliers in different radiological parameters. Results A total of 98 patients/102 knees were analyzed after the PSM (ABN: 21 patients/24 knees, CON: 77 patients/78 knees). In the ABN group, the mean MA, FCA and TSA were significantly improved (p = 0.019, 0.006,

Published

2021

28. The value of endoscopic resection for non-ampullary duodenal lesions: A single-center experience

Author

Zhengqi Li, Lizhou Dou, Yong Liu, Yueming Zhang, Shun He, Jiqing Zhu, Yan Ke, Xudong Liu, Yumeng Liu, Hoiloi Ng, and Guiqi Wang

Subjects

endoscopic resection, non-ampullary duodenal lesions, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background: To observe and preliminarily evaluate the efficacy and safety of endoscopic mucosal resection (EMR) and endoscopic submucosal dissection (ESD) in the treatment of non-ampullary duodenal lesions (NADLs). Methods: This retrospective observational study included 84 patients who underwent endoscopic resection (ER) with non-ampullary duodenal lesions, between March 2010 and November 2020, at the Cancer Hospital of the Chinese Academy of Medical Sciences (Beijing, China). Data on patient demographics, therapeutic outcomes, and follow-up results were analyzed. Results: There were 44 patients undergoing EMR, and 40 patients accepting ESD. The overall en bloc resection rate was 98.8% (83/84). For the neoplastic lesions, the overall en bloc resection rate and curative rate were 98.5% (67/68) and 89.7% (61/68), respectively. The procedure-related bleeding and perforation rates were 2.4% and 10.7%, respectively. Univariate analysis results indicated that the main correlation factor of non-curative pathologic resection was tumor size (p = 0.004) and resection size (P < 0.01). There showed a higher curative rate in patients with tumors less than 25 mm in diameter. Multivariate logistic regression analyses determined that the tumor size (OR 0.935; 95% CI 0.878-0.995; P = 0.035) was associated with non-curative resection. No recurrences were observed in patients who had undergone a complete ER during a follow-up period of 42.8 months (range, 3-127 months). Conclusion: Endoscopic resection is an effective, safe, and feasible treatment for non-ampullary duodenal lesions.

Published

2021

29. TAS: Distilling Arbitrary Teacher and Student via a Hybrid Assistant

Author

Li, Guopeng, Wang, Qiang, Yan, Ke, Ding, Shouhong, Gao, Yuan, and Xia, Gui-Song

Subjects

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

Abstract

Most knowledge distillation (KD) methodologies predominantly focus on teacher-student pairs with similar architectures, such as both being convolutional neural networks (CNNs). However, the potential and flexibility of KD can be greatly improved by expanding it to novel Cross-Architecture KD (CAKD), where the knowledge of homogeneous and heterogeneous teachers can be transferred flexibly to a given student. The primary challenge in CAKD lies in the substantial feature gaps between heterogeneous models, originating from the distinction of their inherent inductive biases and module functions. To this end, we introduce an assistant model as a bridge to facilitate smooth feature knowledge transfer between heterogeneous teachers and students. More importantly, within our proposed design principle, the assistant model combines the advantages of cross-architecture inductive biases and module functions by merging convolution and attention modules derived from both student and teacher module functions. Furthermore, we observe that heterogeneous features exhibit diverse spatial distributions in CAKD, hindering the effectiveness of conventional pixel-wise mean squared error (MSE) loss. Therefore, we leverage a spatial-agnostic InfoNCE loss to align features after spatial smoothing, thereby improving the feature alignments in CAKD. Our proposed method is evaluated across some homogeneous model pairs and arbitrary heterogeneous combinations of CNNs, ViTs, and MLPs, achieving state-of-the-art performance for distilled models with a maximum gain of 11.47% on CIFAR-100 and 3.67% on ImageNet-1K. Our code and models will be released., Comment: 18 pages, 6 figures, and 12 tables

Published

2024

30. Generative Image Steganography Based on Point Cloud

Author

Yangjie, Zhong, Jia, Liu, Meiqi, Liu, Yan, Ke, and Minqing, Zhang

Subjects

Computer Science - Cryptography and Security, Computer Science - Computers and Society

Abstract

In deep steganography, the model size is usually related to the underlying mesh resolution, and a separate neural network needs to be trained as a message extractor. In this paper, we propose a generative image steganography based on point cloud representation, which represents image data as a point cloud, learns the distribution of the point cloud data, and represents it in the form of a continuous function. This method breaks through the limitation of the image resolution, and can generate images with arbitrary resolution according to the actual need, and omits the need for explicit data for image steganography. At the same time, using a fixed point cloud extractor transfers the training of the network to the point cloud data, which saves the training time and avoids the risk of exposing the steganography behavior caused by the transmission of the message extractor. Experiments prove that the steganographic images generated by the scheme have very high image quality and the accuracy of message extraction reaches more than 99%., Comment: 11pages,13figures

Published

2024

31. End-to-end Multi-source Visual Prompt Tuning for Survival Analysis in Whole Slide Images

Author

Qiu, Zhongwei, Chao, Hanqing, Liu, Wenbin, Shen, Yixuan, Lu, Le, Yan, Ke, Jin, Dakai, Bian, Yun, and Jiang, Hui

Subjects

Electrical Engineering and Systems Science - Image and Video Processing

Abstract

Survival analysis using pathology images poses a considerable challenge, as it requires the localization of relevant information from the multitude of tiles within whole slide images (WSIs). Current methods typically resort to a two-stage approach, where a pre-trained network extracts features from tiles, which are then used by survival models. This process, however, does not optimize the survival models in an end-to-end manner, and the pre-extracted features may not be ideally suited for survival prediction. To address this limitation, we present a novel end-to-end Visual Prompt Tuning framework for survival analysis, named VPTSurv. VPTSurv refines feature embeddings through an efficient encoder-decoder framework. The encoder remains fixed while the framework introduces tunable visual prompts and adaptors, thus permitting end-to-end training specifically for survival prediction by optimizing only the lightweight adaptors and the decoder. Moreover, the versatile VPTSurv framework accommodates multi-source information as prompts, thereby enriching the survival model. VPTSurv achieves substantial increases of 8.7% and 12.5% in the C-index on two immunohistochemical pathology image datasets. These significant improvements highlight the transformative potential of the end-to-end VPT framework over traditional two-stage methods.

Published

2024

32. Doubly heavy tetraquark bound and resonant states

Author

Wu, Wei-Lin, Ma, Yao, Chen, Yan-Ke, Meng, Lu, and Zhu, Shi-Lin

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice, Nuclear Theory

Abstract

We calculate the energy spectrum of the S-wave doubly heavy tetraquark systems, including the $ QQ^{(\prime)}\bar q\bar q$, $QQ^{(\prime)}\bar s\bar q$, and $ QQ^{(\prime)}\bar s\bar s$ ($Q^{(\prime)}=b,c$ and $q=u,d$) systems within the constituent quark model. We use the complex scaling method to obtain bound states and resonant states simultaneously, and the Gaussian expansion method to solve the complex-scaled four-body Schr\"odinger equation. With a novel definition of the root-mean-square radii, we are able to distinguish between meson molecules and compact tetraquark states. The compact tetraquarks are further classified into three different types with distinct spatial configurations: compact even tetraquarks, compact diquark-antidiquark tetraquarks and compact diquark-centered tetraquarks. In the $ I(J^P)=0(1^+) $ $QQ\bar q\bar q$ system, there exists the $ D^*D $ molecular bound state with a binding energy of $ -14 $ MeV, which is the candidate for $ T_{cc}(3875)^+ $. The shallow $\bar B^*\bar B$ molecular bound state is the bottom analog of $T_{cc}(3875)^+$. Moreover, we identify two resonant states near the $D^*D^*$ and $\bar B^*\bar B^*$ thresholds. In the $ J^P=1^+ $ $bb\bar q\bar q\,(I=0)$ and $bb\bar s\bar q$ systems, we obtain deeply bound states with a compact diquark-centered tetraquark configuration and a dominant $\chi_{\bar 3_c\otimes 3_c}$ component, along with resonant states with similar configurations as their radial excitations. These states are the QCD analog of the helium atom. We also obtain some other bound states and resonant states with ``QCD hydrogen molecule" configurations. Moreover, we investigate the heavy quark mass dependence of the $ I(J^P)=0(1^+) $ $ QQ\bar q\bar q $ bound states. We strongly urge the experimental search for the predicted states., Comment: 17 pages, 13 figures, version accepted by PRD

Published

2024

33. Fully strange tetraquark resonant states as the cousins of $X(6900)$

Author

Ma, Yao, Wu, Wei-Lin, Meng, Lu, Chen, Yan-Ke, and Zhu, Shi-Lin

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice, Nuclear Theory

Abstract

We conduct systematic calculations of the S-wave fully strange systems with ``normal" $\left(J^{P C}=0^{++}, 1^{+-}, 2^{++}\right)$ and ``exotic" $\left(J^{P C}=0^{+-}, 1^{++}, 2^{+-}\right)$ C-parities, which are the strange analogue of the fully charmed tetraquark state $X(6900)$. Within a constituent quark potential model, we employ the Gaussian expansion method to solve the four-body Schr\"odinger equation and the complex scaling method to identify resonant states. We obtain a series of resonant states and zero-width states in the mass range of 2.7 to 3.3 GeV, with their widths ranging from less than 1 MeV to about 50 MeV. Their rms radii strongly indicate that they are compact tetraquark states. Among these states, the $T_{4s,2^{++}}(2714)$ may be the most likely one to be observed experimentally. We urge the experimental exploration of the $2^{++}$ $s s \bar{s} \bar{s}$ state around 2.7 GeV in the $\phi\phi$ channel. Since the lowest S-wave $s s \bar{s} \bar{s}$ state is around 2.7 GeV, the compact P-wave $s s \bar{s} \bar{s}$ states are expected to be heavier. Hence, $\phi(2170)$ and $X(2370)$ are unlikely to be compact tetraquark states., Comment: 9 pages, 2 figures. Comments are welcomed

Published

2024

34. Generating three-photon Rabi oscillations without a large-detuning condition

Author

Yan, Ke-Xiong, Qiu, Yuan, Xiao, Yang, Chen, Ye-Hong, and Xia, Yan

Subjects

Quantum Physics

Abstract

It is well known that in the quantum Rabi model, a three-photon resonance occurs when the cavity field bare frequency is about 1/3 of the atomic transition frequency. In this manuscript, we show that the resonance can also be generated in the absence of the 1/3 condition by employing an artificial atom with tunable transition frequency. To realize the protocol, the modulation frequency should be comparable to the cavity frequency in order to induce a counter-rotating interaction in the effective Hamiltonian. In this way, three-photon Rabi oscillations can be observed in a small-detuning regime, thus avoiding the excitation of high-energy states. We derive an effective Hamiltonian (equivalent to the anisotropic Rabi model Hamiltonian) to determine the magnitude of the energy splitting and the resonance position. Numerical simulations results show that the protocol not only generates a three-photon resonance, but also has a detectable output photon flux. We hope the protocol can be exploited for the realization of Fock-state sources and the generation of multiparticle entanglement., Comment: 10 pages, 10 figures, comments are welcome

Published

2024

35. Separable Reversible Data Hiding Scheme in Homomorphic Encrypted Domain Based on NTRU

Author

Neng Zhou, Minqing Zhang, Han Wang, Yan Ke, and Fuqiang Di

Subjects

Reversible data hiding, encrypted domain, public key cryptosystem, homomorphic property, number theory research unit (NTRU), Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

NTRU (Number Theory Research Unit) has the characteristics of resistance to quantum computing attacks, fast encryption and decryption, and high security. It is very suitable for wireless confidential data networks and authentication systems. Combined with reversible data hiding technology, a separable reversible data hiding scheme in homomorphic encrypted domain based on NTRU is proposed. The image owner directly divides the cover-image into groups of a reference pixel and T adjacent pixels. Then, the grouped image is encrypted by NTRU. Finally, the encrypted image is uploaded to the data hider. The encrypted image is divided into groups by the same grouping method as the image owner. After that, the data hider calculates T absolute differences of adjacent pixels in each group to obtain histogram of the absolute differences. The additional data can be embedded into the encrypted image by shifting histogram of the absolute differences. After receiving the encrypted image with hidden data, the receiver can either use the data hiding key to directly extract the additional data from encrypted domain to obtain the encrypted image, or use the private key and data hiding key to extract the additional data from plaintext domain to get the cover-image. Experimental results show that our scheme has higher security and better embedding performance comparing with other state-of-the-art works.

Published

2020

36. Recent Advances of Image Steganography With Generative Adversarial Networks

Author

Jia Liu, Yan Ke, Zhuo Zhang, Yu Lei, Jun Li, Minqing Zhang, and Xiaoyuan Yang

Subjects

Image steganography, generative adversarial nets, cover synthesis, generative model, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In the past few years, the Generative Adversarial Network (GAN), which proposed in 2014, has achieved great success. There have been increasing research achievements based on GAN in the field of computer vision and natural language processing. Image steganography is an information security technique aiming at hiding secret messages in common digital images for covert communication. Recently, research on image steganography has demonstrated great potential by introducing GAN and other neural network techniques. In this paper, we review the art of steganography with GANs according to the different strategies in data hiding, which are cover modification, cover selection, and cover synthesis. We discuss the characteristics of the three strategies of GAN-based steganography and analyze their evaluation metrics. Finally, some existing problems of image steganography with GAN are summarized and discussed. Potential future research topics are also forecasted.

Published

2020

37. LIDIA: Precise Liver Tumor Diagnosis on Multi-Phase Contrast-Enhanced CT via Iterative Fusion and Asymmetric Contrastive Learning

Author

Huang, Wei, Liu, Wei, Zhang, Xiaoming, Yin, Xiaoli, Han, Xu, Li, Chunli, Gao, Yuan, Shi, Yu, Lu, Le, Zhang, Ling, Zhang, Lei, and Yan, Ke

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The early detection and precise diagnosis of liver tumors are tasks of critical clinical value, yet they pose significant challenges due to the high heterogeneity and variability of liver tumors. In this work, a precise LIver tumor DIAgnosis network on multi-phase contrast-enhance CT, named LIDIA, is proposed for real-world scenario. To fully utilize all available phases in contrast-enhanced CT, LIDIA first employs the iterative fusion module to aggregate variable numbers of image phases, thereby capturing the features of lesions at different phases for better tumor diagnosis. To effectively mitigate the high heterogeneity problem of liver tumors, LIDIA incorporates asymmetric contrastive learning to enhance the discriminability between different classes. To evaluate our method, we constructed a large-scale dataset comprising 1,921 patients and 8,138 lesions. LIDIA has achieved an average AUC of 93.6% across eight different types of lesions, demonstrating its effectiveness. Besides, LIDIA also demonstrated strong generalizability with an average AUC of 89.3% when tested on an external cohort of 828 patients., Comment: Accepted to MICCAI 2024

Published

2024

38. Improved Esophageal Varices Assessment from Non-Contrast CT Scans

Author

Li, Chunli, Zhang, Xiaoming, Gao, Yuan, Yin, Xiaoli, Lu, Le, Zhang, Ling, Yan, Ke, and Shi, Yu

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition

Abstract

Esophageal varices (EV), a serious health concern resulting from portal hypertension, are traditionally diagnosed through invasive endoscopic procedures. Despite non-contrast computed tomography (NC-CT) imaging being a less expensive and non-invasive imaging modality, it has yet to gain full acceptance as a primary clinical diagnostic tool for EV evaluation. To overcome existing diagnostic challenges, we present the Multi-Organ-cOhesion-Network (MOON), a novel framework enhancing the analysis of critical organ features in NC-CT scans for effective assessment of EV. Drawing inspiration from the thorough assessment practices of radiologists, MOON establishes a cohesive multiorgan analysis model that unifies the imaging features of the related organs of EV, namely esophagus, liver, and spleen. This integration significantly increases the diagnostic accuracy for EV. We have compiled an extensive NC-CT dataset of 1,255 patients diagnosed with EV, spanning three grades of severity. Each case is corroborated by endoscopic diagnostic results. The efficacy of MOON has been substantiated through a validation process involving multi-fold cross-validation on 1,010 cases and an independent test on 245 cases, exhibiting superior diagnostic performance compared to methods focusing solely on the esophagus (for classifying severe grade: AUC of 0.864 versus 0.803, and for moderate to severe grades: AUC of 0.832 versus 0.793). To our knowledge, MOON is the first work to incorporate a synchronized multi-organ NC-CT analysis for EV assessment, providing a more acceptable and minimally invasive alternative for patients compared to traditional endoscopy., Comment: Early accepted to MICCAI 2024

Published

2024

39. Fully heavy tetraquark resonant states with different flavors

Author

Wu, Wei-Lin, Ma, Yao, Chen, Yan-Ke, Meng, Lu, and Zhu, Shi-Lin

Subjects

High Energy Physics - Phenomenology, High Energy Physics - Experiment, High Energy Physics - Lattice

Abstract

We use the quark potential model to calculate the mass spectrum of the S-wave fully heavy tetraquark systems with different flavors, including the $ bc\bar b\bar c, bb\bar c\bar c, cc\bar c\bar b $ and $ bb\bar b\bar c $ systems. We employ the Gaussian expansion method to solve the four-body Schr\"odinger equation, and the complex scaling method to identify resonant states. The $ bc\bar b\bar c, bb\bar c\bar c, cc\bar c\bar b $ and $ bb\bar b\bar c $ resonant states are obtained in the mass regions of $ (13.2,13.5) $, $ (13.3,13.6) $, $ (10.0,10.3) $, $ (16.5,16.7) $ GeV, respectively. Among these states, the $ bc\bar b\bar c $ tetraquark states are the most promising ones to be discovered in the near future. We recommend the experimental exploration of the $ 1^{++} $ and $ 2^{++} $ $ bc\bar b\bar c $ states with masses near $ 13.3 $ GeV in the $ J/\psi\Upsilon $ channel. From the root-mean-square radii, we find that all the resonant states we have identified are compact tetraquark states., Comment: 10 pages,7 figures,8 tables. arXiv admin note: text overlap with arXiv:2401.14899

Published

2024

40. Image steganography based on generative implicit neural representation

Author

Yangjie, Zhong, Jia, Liu, Yan, Ke, and Meiqi, Liu

Subjects

Computer Science - Cryptography and Security, 68T07, E.3

Abstract

In the realm of advanced steganography, the scale of the model typically correlates directly with the resolution of the fundamental grid, necessitating the training of a distinct neural network for message extraction. This paper proposes an image steganography based on generative implicit neural representation. This approach transcends the constraints of image resolution by portraying data as continuous functional expressions. Notably, this method permits the utilization of a diverse array of multimedia data as cover images, thereby broadening the spectrum of potential carriers. Additionally, by fixing a neural network as the message extractor, we effectively redirect the training burden to the image itself, resulting in both a reduction in computational overhead and an enhancement in steganographic speed. This approach also circumvents potential transmission challenges associated with the message extractor. Experimental findings reveal that this methodology achieves a commendable optimization efficiency, achieving a completion time of just 3 seconds for 64x64 dimensional images, while concealing only 1 bpp of information. Furthermore, the accuracy of message extraction attains an impressive mark of 100%., Comment: 33 pages, 15 figures and 5 tables

Published

2024

41. Dual Relation Mining Network for Zero-Shot Learning

Author

Han, Jinwei, Gao, Yingguo, Lin, Zhiwen, Yan, Ke, Ding, Shouhong, Gao, Yuan, and Xia, Gui-Song

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Zero-shot learning (ZSL) aims to recognize novel classes through transferring shared semantic knowledge (e.g., attributes) from seen classes to unseen classes. Recently, attention-based methods have exhibited significant progress which align visual features and attributes via a spatial attention mechanism. However, these methods only explore visual-semantic relationship in the spatial dimension, which can lead to classification ambiguity when different attributes share similar attention regions, and semantic relationship between attributes is rarely discussed. To alleviate the above problems, we propose a Dual Relation Mining Network (DRMN) to enable more effective visual-semantic interactions and learn semantic relationship among attributes for knowledge transfer. Specifically, we introduce a Dual Attention Block (DAB) for visual-semantic relationship mining, which enriches visual information by multi-level feature fusion and conducts spatial attention for visual to semantic embedding. Moreover, an attribute-guided channel attention is utilized to decouple entangled semantic features. For semantic relationship modeling, we utilize a Semantic Interaction Transformer (SIT) to enhance the generalization of attribute representations among images. Additionally, a global classification branch is introduced as a complement to human-defined semantic attributes, and we then combine the results with attribute-based classification. Extensive experiments demonstrate that the proposed DRMN leads to new state-of-the-art performances on three standard ZSL benchmarks, i.e., CUB, SUN, and AwA2.

Published

2024

42. Artificial intelligence for context-aware visual change detection in software test automation

Author

Moradi, Milad, Yan, Ke, Colwell, David, and Asgari, Rhona

Subjects

Computer Science - Software Engineering, Computer Science - Artificial Intelligence

Abstract

Automated software testing is integral to the software development process, streamlining workflows and ensuring product reliability. Visual testing within this context, especially concerning user interface (UI) and user experience (UX) validation, stands as one of crucial determinants of overall software quality. Nevertheless, conventional methods like pixel-wise comparison and region-based visual change detection fall short in capturing contextual similarities, nuanced alterations, and understanding the spatial relationships between UI elements. In this paper, we introduce a novel graph-based method for visual change detection in software test automation. Leveraging a machine learning model, our method accurately identifies UI controls from software screenshots and constructs a graph representing contextual and spatial relationships between the controls. This information is then used to find correspondence between UI controls within screenshots of different versions of a software. The resulting graph encapsulates the intricate layout of the UI and underlying contextual relations, providing a holistic and context-aware model. This model is finally used to detect and highlight visual regressions in the UI. Comprehensive experiments on different datasets showed that our change detector can accurately detect visual software changes in various simple and complex test scenarios. Moreover, it outperformed pixel-wise comparison and region-based baselines by a large margin in more complex testing scenarios. This work not only contributes to the advancement of visual change detection but also holds practical implications, offering a robust solution for real-world software test automation challenges, enhancing reliability, and ensuring the seamless evolution of software interfaces.

Published

2024

43. Generation of an induced pluripotent stem cell line from a patient with surfactant metabolism dysfunction carrying ABCA3 mutations

Author

Xiaojuan Yin, Danhua Zhao, Zhichen Tian, Jia Chen, Jinghan Chi, Yan Ke, Liu He, Xuan Zhang, Yanmei He, and Zhichun Feng

Subjects

Biology (General), QH301-705.5

Abstract

Surfactant dysfunction is a genetically heterogeneous pulmonary disease that causes dyspnea. ATP binding cassette protein transporter subunit A3 (ABCA3) is the main pathogenic gene of pulmonary surfactant dysfunction. In this study, we established an induced pluripotent stem cell line (SMCPGHi001-A) from the peripheral blood cells of a 49-day-old male infant, carrying compound heterozygous variations of the ABCA3 gene (c.3997_3998del, p.R1333fs, and c.3137C > T, p.A1046V). This iPSC line would be a useful tool to study the pathogenesis, disease development, and treatment of pulmonary surfactant dysfunction.

Published

2021

44. Fluorinated N,P co-doped biomass carbon with high-rate performance as cathode material for lithium/fluorinated carbon battery: Fluorinated N,P co-doped biomass carbon with high-rate performance as cathode material

Author

Yan, Ke, Zou, Yan, Bao, Liang-Xue, Xia, Qi, Meng, Ling-Yi, Lin, Hai-Chen, Chen, Hui-Xin, and Yue, Hong-Jun

Published

2025

45. Incomplete Information Mean-Field Games and Related Riccati Equations

Author

Li, Min, Nie, Tianyang, Wang, Shujun, and Yan, Ke

Published

2024

46. High glass transition temperature dopant-free hole transport material via D-A-π-A-D-strategy for perovskite solar cell

Author

Liao, Cheng-Hui, Yuan, Li-Gang, Zhang, Yi-Heng, Zhu, Wei-Ya, Qin, Min-Chao, He, Zhi-Bo, Huang, Jie-Lin, Xiao, Hao-Lin, Li, Zhi-Heng, Lu, Xin-Hui, Yan, Ke-You, and Li, Yuan

Published

2024

47. Effects of KLF11 on Vascular Smooth Muscle Cells and its Underlying Mechanisms in Intracranial Aneurysm

Author

Yan, Ke, Bian, Jiarong, He, Liang, Song, Bingwei, Shen, Linhai, and Zhen, Yong

Published

2024

48. Research on the nonlinear resonance response of the high-speed spindle system supported by preloaded ball bearings

Author

Fang, Bin, Zhang, Jin-hua, Wan, Shao-ke, Yan, Ke, and Hong, Jun

Published

2024

49. Generative Steganography by Sampling

Author

Zhuo Zhang, Jia Liu, Yan Ke, Yu Lei, Jun Li, Minqing Zhang, and Xiaoyuan Yang

Subjects

Generative adversarial network, image inpainting, steganography, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In this paper, a novel data-driven information hiding scheme called “generative steganography by sampling” (GSS) is proposed. Unlike in traditional modification-based steganography, in our method the stego image is directly sampled by a powerful generator: no explicit cover is used. Both parties share a secret key used for message embedding and extraction. The Jensen-Shannon divergence is introduced as a new criterion for evaluating the security of generative steganography. Based on these principles, we propose a simple practical generative steganography method that uses semantic image inpainting. The message is written in advance to an uncorrupted region that needs to be retained in the corrupted image. Then, the corrupted image with the secret message is fed into a Generator trained by a generative adversarial network (GAN) for semantic completion. Message loss and prior loss terms are proposed for penalizing message extraction error and unrealistic stego image. In our design, we first train a generator whose training target is the generation of new data samples from the same distribution as that of existing training data. Next, for the trained generator, backpropagation to the message and prior loss are introduced to optimize the coding of the input noise data for the generator. The presented experiments demonstrate the potential of the proposed framework based on both qualitative and quantitative evaluations of the generated stego images.

Published

2019

50. In-Situ Monitoring the SERS Spectra of para-Aminothiophenol Adsorbed on Plasmon-Tunable Au@Ag Core–Shell Nanostars

Author

Yan Ke, Bin Chen, Mengen Hu, Ningning Zhou, Zhulin Huang, and Guowen Meng

Subjects

plasmon-driven photocatalysis, SERS, nanostars, resonant excitation, Chemistry, QD1-999

Abstract

Plasmon-induced photocatalysis on noble metal surfaces has attracted broad attention due to its application in sunlight energy conversion, while the selectivity of plasmonic platforms remains unclear. Herein, we present the controlled plasmon-mediated oxidation of para-aminothiophenol (p-ATP) by employing Au@Ag core–shell nanostars with tunable tip plasmons in visible–near-infrared range as reactors. In-situ Raman measurements indicate that Au@Ag core–shell nanostars essentially promote the conversion of p-ATP to 4,4′-dimercaptoazobenzene (DMAB) due to hot carriers excited by localized surface plasmon resonance. Au@Ag nanostars with plasmon modes under resonant light excitation suggested higher catalytic efficiency, as evidenced by the larger intensity ratios between 1440 cm−1 (N=N stretching of DMAB) and 1080 cm−1 shifts (C–S stretching of p-ATP). Importantly, the time-dependent surface-enhanced Raman scattering spectra showed that the conversion efficiency of p-ATP was mainly dictated by the resonance condition between the tip plasmon mode of Au@Ag core–shell nanostars and the excitation light, as well as the choice of excitation wavelength. These results show that plasmon bands of metal nanostructures play an important role in the efficiency of plasmon-driven photocatalysis.

Published

2022