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438 results on '"Shang, Meng"'

1. A Masked Semi-Supervised Learning Approach for Otago Micro Labels Recognition

Author

Shang, Meng, Dedeyne, Lenore, Dupont, Jolan, Vercauteren, Laura, Amini, Nadjia, Lapauw, Laurence, Gielen, Evelien, Verschueren, Sabine, Varon, Carolina, De Raedt, Walter, and Vanrumste, Bart

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

The Otago Exercise Program (OEP) serves as a vital rehabilitation initiative for older adults, aiming to enhance their strength and balance, and consequently prevent falls. While Human Activity Recognition (HAR) systems have been widely employed in recognizing the activities of individuals, existing systems focus on the duration of macro activities (i.e. a sequence of repetitions of the same exercise), neglecting the ability to discern micro activities (i.e. the individual repetitions of the exercises), in the case of OEP. This study presents a novel semi-supervised machine learning approach aimed at bridging this gap in recognizing the micro activities of OEP. To manage the limited dataset size, our model utilizes a Transformer encoder for feature extraction, subsequently classified by a Temporal Convolutional Network (TCN). Simultaneously, the Transformer encoder is employed for masked unsupervised learning to reconstruct input signals. Results indicate that the masked unsupervised learning task enhances the performance of the supervised learning (classification task), as evidenced by f1-scores surpassing the clinically applicable threshold of 0.8. From the micro activities, two clinically relevant outcomes emerge: counting the number of repetitions of each exercise and calculating the velocity during chair rising. These outcomes enable the automatic monitoring of exercise intensity and difficulty in the daily lives of older adults.

Published
2024

3. DS-MS-TCN: Otago Exercises Recognition with a Dual-Scale Multi-Stage Temporal Convolutional Network

Author

Shang, Meng, Dedeyne, Lenore, Dupont, Jolan, Vercauteren, Laura, Amini, Nadjia, Lapauw, Laurence, Gielen, Evelien, Verschueren, Sabine, Varon, Carolina, De Raedt, Walter, and Vanrumste, Bart

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Signal Processing
Abstract

The Otago Exercise Program (OEP) represents a crucial rehabilitation initiative tailored for older adults, aimed at enhancing balance and strength. Despite previous efforts utilizing wearable sensors for OEP recognition, existing studies have exhibited limitations in terms of accuracy and robustness. This study addresses these limitations by employing a single waist-mounted Inertial Measurement Unit (IMU) to recognize OEP exercises among community-dwelling older adults in their daily lives. A cohort of 36 older adults participated in laboratory settings, supplemented by an additional 7 older adults recruited for at-home assessments. The study proposes a Dual-Scale Multi-Stage Temporal Convolutional Network (DS-MS-TCN) designed for two-level sequence-to-sequence classification, incorporating them in one loss function. In the first stage, the model focuses on recognizing each repetition of the exercises (micro labels). Subsequent stages extend the recognition to encompass the complete range of exercises (macro labels). The DS-MS-TCN model surpasses existing state-of-the-art deep learning models, achieving f1-scores exceeding 80% and Intersection over Union (IoU) f1-scores surpassing 60% for all four exercises evaluated. Notably, the model outperforms the prior study utilizing the sliding window technique, eliminating the need for post-processing stages and window size tuning. To our knowledge, we are the first to present a novel perspective on enhancing Human Activity Recognition (HAR) systems through the recognition of each repetition of activities.

Published
2024

4. A Multi-Stage Temporal Convolutional Network for Volleyball Jumps Classification Using a Waist-Mounted IMU

Author

Shang, Meng, De Bleecker, Camilla, Vanrenterghem, Jos, De Ridder, Roel, Verschueren, Sabine, Varon, Carolina, De Raedt, Walter, and Vanrumste, Bart

Subjects
Computer Science - Machine Learning
Abstract

Monitoring the number of jumps for volleyball players during training or a match can be crucial to prevent injuries, yet the measurement requires considerable workload and cost using traditional methods such as video analysis. Also, existing methods do not provide accurate differentiation between different types of jumps. In this study, an unobtrusive system with a single inertial measurement unit (IMU) on the waist was proposed to recognize the types of volleyball jumps. A Multi-Layer Temporal Convolutional Network (MS-TCN) was applied for sample-wise classification. The model was evaluated on ten volleyball players and twenty-six volleyball players, during a lab session with a fixed protocol of jumping and landing tasks, and during four volleyball training sessions, respectively. The MS-TCN model achieved better performance than a state-of-the-art deep learning model but with lower computational cost. In the lab sessions, most jump counts showed small differences between the predicted jumps and video-annotated jumps, with an overall count showing a Limit of Agreement (LoA) of 0.1+-3.40 (r=0.884). For comparison, the proposed algorithm showed slightly worse results than VERT (a commercial jumping assessment device) with a LoA of 0.1+-2.08 (r=0.955) but the differences were still within a comparable range. In the training sessions, the recognition of three types of jumps exhibited a mean difference from observation of less than 10 jumps: block, smash, and overhead serve. These results showed the potential of using a single IMU to recognize the types of volleyball jumps. The sample-wise architecture provided high resolution of recognition and the MS-TCN required fewer parameters to train compared with state-of-the-art models., Comment: NA

Published
2023

5. Otago Exercises Monitoring for Older Adults by a Single IMU and Hierarchical Machine Learning Models

Author

Shang, Meng, Dedeyne, Lenore, Dupont, Jolan, Vercauteren, Laura, Amini, Nadjia, Lapauw, Laurence, Gielen, Evelien, Verschueren, Sabine, Varon, Carolina, De Raedt, Walter, and Vanrumste, Bart

Subjects
Computer Science - Machine Learning
Abstract

Otago Exercise Program (OEP) is a rehabilitation program for older adults to improve frailty, sarcopenia, and balance. Accurate monitoring of patient involvement in OEP is challenging, as self-reports (diaries) are often unreliable. With the development of wearable sensors, Human Activity Recognition (HAR) systems using wearable sensors have revolutionized healthcare. However, their usage for OEP still shows limited performance. The objective of this study is to build an unobtrusive and accurate system to monitor OEP for older adults. Data was collected from older adults wearing a single waist-mounted Inertial Measurement Unit (IMU). Two datasets were collected, one in a laboratory setting, and one at the homes of the patients. A hierarchical system is proposed with two stages: 1) using a deep learning model to recognize whether the patients are performing OEP or activities of daily life (ADLs) using a 10-minute sliding window; 2) based on stage 1, using a 6-second sliding window to recognize the OEP sub-classes performed. The results showed that in stage 1, OEP could be recognized with window-wise f1-scores over 0.95 and Intersection-over-Union (IoU) f1-scores over 0.85 for both datasets. In stage 2, for the home scenario, four activities could be recognized with f1-scores over 0.8: ankle plantarflexors, abdominal muscles, knee bends, and sit-to-stand. The results showed the potential of monitoring the compliance of OEP using a single IMU in daily life. Also, some OEP sub-classes are possible to be recognized for further analysis., Comment: 10 pages

Published
2023
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7. HMGB2 drives tumor progression and shapes the immunosuppressive microenvironment in hepatocellular carcinoma: insights from multi-omics analysis

Author

Yan-zhu Chen, Zhi-shang Meng, and Zuo-lin Xiang

Subjects
hepatocellular carcinoma, HMGB2, multi-omics approaches, computational biology and bioinformatics, tumor microenvironment, immunosuppression, Immunologic diseases. Allergy, RC581-607
Abstract

BackgroundHepatocellular carcinoma (HCC) poses a significant health burden globally, with high mortality rates despite various treatment options. Immunotherapy, particularly immune-checkpoint inhibitors (ICIs), has shown promise, but resistance and metastasis remain major challenges. Understanding the intricacies of the tumor microenvironment (TME) is imperative for optimizing HCC management strategies and enhancing patient prognosis.MethodsThis study employed a comprehensive approach integrating multi-omics approaches, including single-cell RNA sequencing (scRNA-seq), bulk RNA sequencing (Bulk RNA-seq), and validation in clinical samples using spatial transcriptomics (ST) and multiplex immunohistochemistry (mIHC). The analysis aimed to identify key factors influencing the immunosuppressive microenvironment associated with HCC metastasis and immunotherapy resistance.ResultsHMGB2 is significantly upregulated in HCCTrans, a transitional subgroup associated with aggressive metastasis. Furthermore, HMGB2 expression positively correlates with an immunosuppressive microenvironment, particularly evident in exhausted T cells. Notably, HMGB2 expression correlated positively with immunosuppressive markers and poor prognosis in HCC patients across multiple cohorts. ST combined with mIHC validated the spatial expression patterns of HMGB2 within the TME, providing additional evidence of its role in HCC progression and immune evasion.ConclusionHMGB2 emerges as a critical player of HCC progression, metastasis, and immunosuppression. Its elevated expression correlates with aggressive tumor behavior and poor patient outcomes, suggesting its potential as both a therapeutic target and a prognostic indicator in HCC management.

Published
2024
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15. The Promoting Role of Green Finance Reform and Innovation on the Sustainable Development of Low-Carbon Enterprises - An Analysis Based on Recursive Neural Networks

Author

Shi Lulu and Shang Meng

Subjects
recurrent neural network, fuzzy relationship matrix, dimensionless processing, green financial reforms, 68p30, Mathematics, QA1-939
Abstract

The government has introduced a series of green financial support policies to support the low-carbon technological innovation of enterprises, and it has become an inevitable trend to take the road of high-quality development with clean, low-carbon efficiency and safety. In this paper, in order to further realize the quantitative analysis of green financial reform on the sustainable development of low-carbon enterprises, based on the principles of the evaluation index system construction on the sustainable development of low-carbon enterprises evaluation index system design, to determine the evaluation index level thesis domain, its data dimensionless processing, so that its evaluation indexes are composed of fuzzy relationship matrix. With the help of a recursive neural network, we analyze the low-carbon sustainable development of enterprises in the context of green financial reform. It is found that the squared error of the mean value of the enterprise low carbon sustainable development ability index based on a recursive neural network is 0.044. During the implementation of the green financial reform policy, the low carbon sustainable development ability of the sample enterprises has been improved, among which the growth trend of enterprise D (0.50415-0.44039=0.06376) is more rapid, which strongly confirms that the green financial reform and innovation promote the sustainable development of the low carbon enterprises. The promotion of green financial reform and innovation has been confirmed to have a strong effect on the sustainable development of low-carbon enterprises.

Published
2024
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17. Research progress of endothelial-to-mesenchymal transition in ocular diseases

Author

Zhi-Shang Meng, Wen-Yi Wu, and Jing Luo

Subjects
endothelial-mesenchymal transition, ocular diseases, tgf-β, fibrosis, Ophthalmology, RE1-994
Abstract

Endothelial-to-mesenchymal transition(EndoMT)is a change in the transformation or differentiation of endothelial cells into mesenchymal cells under physiological or pathological conditions, accompanied by changes in phenotype and function, and is an important part of fiber repair. It is widely involved in the pathophysiological process of embryonic development, tumor invasion and a variety of fibrotic diseases. Research on the role of EndoMT in ocular diseases has also made some progress. This article will review the basic biological characteristics, mechanism and research results of EndoMT in ophthalmological diseases, intending to theoretically reveal its possibility as a treatment target and a key point of regenerative medicine technology in related diseases, provide a reference for clinical practice and scientific research.

Published
2022
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18. Offense and defense between streamers and customers in live commerce marketing: Protection motivation and information overload.

Author

Cao, Junwei, Zhong, Lingling, Liu, Dong, Zhang, Guihua, and Shang, Meng

Subjects
CONSUMER behavior, INFORMATION overload, STRUCTURAL equation modeling, CONSUMER protection, LATENT variables
Abstract

While live commerce provides consumers with a new shopping experience, it also leads them to experience shopping failures and to develop a self-protection mechanism to prevent wrong purchases. To address this issue, merchants have attempted to explore new marketing methods for live commerce, giving rise to an offense and defense game between streamers and consumers. In this study, we sought to confirm the effectiveness of consumer protection mechanisms and the impact of streamers' information overload marketing strategy in live commerce. Accordingly, we constructed a hypothetical model based on protection motive theory and information overload theory. In addition, we analyzed the data from the simulated live streaming marketing on seven hundred people through partial least squares structural equation modeling. The results indicate that product utilitarian value uncertainty, consumers' experiential efficacy, and response costs, which are the main factors in the formation of consumer protection mechanisms, influence consumers' intention to stop their purchases. Streamers can circumvent consumer self-protection mechanisms through information overload marketing by reducing utilitarian value uncertainty and consumers' experiential efficacy and increasing consumers' response costs. However, consumers would be able to rebuild their self-protection mechanism through consumer resilience, which moderates the effects of information overload. This study's results provide important theoretical perspectives and new ideas for formulating marketing strategies for live commerce. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Response surface optimization of light conditions for organic matter accumulation in two different shapes of Arthrospira platensis

Author

Sun Jian-Fei, Shang Meng-hui, and Zang Xiao-nan

Subjects
Arthrospira platensis, shape, red and blue LED, light cycle, light intensity, response surface experiment, Nutrition. Foods and food supply, TX341-641
Abstract

Arthrospira platensis has attracted wide attention as a cyanobacteria with high nutritional value. In this research, the response surface method was used to study the effects of light cycle, light intensity and red-blue LED conditions on the growth and organic matter accumulation in spiral shaped strain A. platensis OUC623 and linear shaped strain A. platensis OUC793. The light conditions suitable for A. platensis OUC623 were as follows: growth (light time 12.01 h, light intensity 35.64 μmol/m2s, LED red: blue = 6.38:1); chlorophyll a (light time 12.75 h, light intensity 31.06 μmol/m2s, red: blue = 6.25:1); carotenoid (light time 13.12 h, light intensity 32.25 μmol/m2s, red: blue = 5.79:1); polysaccharide (light time 16.00 h, light intensity 31.32 μmol/m2s, blue: red = 6.24:1); protein (light time 12.18 h, light intensity 6.12 μmol/m2s, blue: red = 7.95:1); phycocyanin (light time12.00 h, light intensity 5.00 μmol/m2s, blue: red = 8.00:1). The light conditions suitable for A. platensis OUC793 were as follows: growth (light time 13.52 h, light intensity 40.22 μmol/m2s, red: blue = 5.98:1); chlorophyll a (light time 14.22 h, light intensity 44.96 μmol/m2s, red: blue = 5.94:1); carotenoid (light time 14.13 h, light intensity 44.50 μmol/m2s, red: blue = 6.02:1); polysaccharide (light time 16.00 h, light intensity 31.85 μmol/m2s, blue: red = 6.08:1); protein (light time12.00 h, light intensity 5.00 μmol/m2s, blue: red = 8.00:1); phycocyanin (light time12.01 h, light intensity 5.01 μmol/m2s, blue: red = 8.00:1). Under the theoretical optimal light conditions, compared with white LED, the growth rate, chlorophyll a, carotenoid, phycocyanin, protein and polysaccharide contents in strain 623 increased by 91.67%, 114.70%, 85.05%, 563.54%, 386.14%, 201.18%, and in strain 793 increased by 75.00%, 150.94%, 113.43%, 427.09%, 1284.71%, 312.38%, respectively. The two strains showed different advantages. Growth rate, chlorophyll a, polysaccharide, protein and phycocyanin content of strain 623 were higher than those of strain 793, while carotenoid was higher in strain 793. After optimization, both strains could reach a good growth state, and the growth rate and organic matter content were close. And then a 20 L photobioreactor was used to expand the culture of the two strains, validating the theoretical optimal light conditions of response surface method. This study laid the foundation for the establishment of optical conditions for organic matter accumulation in two different strains of A. platensis, which provided more options for meeting the industrialization needs of A. platensis.

Published
2023
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27. Constructing Alkyl Chain Modified FeII Spin Crossover Complexes through Complementary Pair Strategy.

Author

Peng, Ya‐Lin, Lu, Han‐Han, Shang, Meng‐Jia, Sun, Hui‐Ying, Jiang, Wen‐Jing, Xiao, Jing‐Yi, Liu, Tao, and Meng, Yin‐Shan

Subjects
SPIN crossover, ISONICOTINIC acid, TRANSITION temperature, MAGNETIC susceptibility, MAGNETIC measurements
Abstract

Four alkyl chains and cyclohexane modified FeII complexes [Fe(Ln)(L')](ClO4)2⋅solv (n=1, 2, 3, 4) were synthesized and characterized. X‐ray diffraction study showed that these complexes were constituted by asymmetric mononuclear FeII entities, incorporating alkyl‐chain‐modified bppCOOH (2,6‐bis(1H‐pyrazol‐1‐yl)isonicotinic acid) ligands and 6,6"‐2,6‐dimethoxyphenyl‐substituted terpy ligand (L'). Magnetic susceptibility measurements revealed that complexes 1, 2, and 3 were in the high spin state across the measured temperature range, whereas complex 4 displayed an incomplete spin crossover phenomenon, with a transition temperature (T1/2) at 240 K. Investigations into variable‐temperature structure and magneto‐structural correlations revealed that the integration of alkyl‐chain‐modified bipyridyl units fostered the π⋅⋅⋅π intra‐ and intermolecular interactions, contributing to distinct crystal stacking and spatial configurations in complex 4 when compared to its counterparts. These findings underscore the pivotal influence of intramolecular interactions on the FeII spin states and highlight the significance of designing flexible ligands for modulating spin‐crossover characteristics. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Role of PAI-1 in hepatic steatosis and dyslipidemia

Author

Levine, Joshua A., Oleaga, Carlota, Eren, Mesut, Amaral, Ansel P., Shang, Meng, Lux, Elizabeth, Khan, Sadiya S., Shah, Sanjiv J., Omura, Yasuhiro, Pamir, Nathalie, Hay, Joshua, Barish, Grant, Miyata, Toshio, Tavori, Hagai, Fazio, Sergio, and Vaughan, Douglas E.

Published
2021
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48. Supplementary Figures S1-S6 from Differentiation and Loss of Malignant Character of Spontaneous Pulmonary Metastases in Patient-Derived Breast Cancer Models

Author

Bockhorn, Jessica, primary, Prat, Aleix, primary, Chang, Ya-Fang, primary, Liu, Xia, primary, Huang, Simo, primary, Shang, Meng, primary, Nwachukwu, Chika, primary, Gomez-Vega, Maria J., primary, Harrell, J. Chuck, primary, Olopade, Olufunmilayo I., primary, Perou, Charles M., primary, and Liu, Huiping, primary

Published
2023
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49. Supplementary Table S2 from Differentiation and Loss of Malignant Character of Spontaneous Pulmonary Metastases in Patient-Derived Breast Cancer Models

Author

Bockhorn, Jessica, primary, Prat, Aleix, primary, Chang, Ya-Fang, primary, Liu, Xia, primary, Huang, Simo, primary, Shang, Meng, primary, Nwachukwu, Chika, primary, Gomez-Vega, Maria J., primary, Harrell, J. Chuck, primary, Olopade, Olufunmilayo I., primary, Perou, Charles M., primary, and Liu, Huiping, primary

Published
2023
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50. Data from Differentiation and Loss of Malignant Character of Spontaneous Pulmonary Metastases in Patient-Derived Breast Cancer Models

Author

Bockhorn, Jessica, primary, Prat, Aleix, primary, Chang, Ya-Fang, primary, Liu, Xia, primary, Huang, Simo, primary, Shang, Meng, primary, Nwachukwu, Chika, primary, Gomez-Vega, Maria J., primary, Harrell, J. Chuck, primary, Olopade, Olufunmilayo I., primary, Perou, Charles M., primary, and Liu, Huiping, primary

Published
2023
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