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4,818 results on '"Zhao, Tian"'

1. GCtx-UNet: Efficient Network for Medical Image Segmentation

Author

Alrfou, Khaled and Zhao, Tian

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Medical image segmentation is crucial for disease diagnosis and monitoring. Though effective, the current segmentation networks such as UNet struggle with capturing long-range features. More accurate models such as TransUNet, Swin-UNet, and CS-UNet have higher computation complexity. To address this problem, we propose GCtx-UNet, a lightweight segmentation architecture that can capture global and local image features with accuracy better or comparable to the state-of-the-art approaches. GCtx-UNet uses vision transformer that leverages global context self-attention modules joined with local self-attention to model long and short range spatial dependencies. GCtx-UNet is evaluated on the Synapse multi-organ abdominal CT dataset, the ACDC cardiac MRI dataset, and several polyp segmentation datasets. In terms of Dice Similarity Coefficient (DSC) and Hausdorff Distance (HD) metrics, GCtx-UNet outperformed CNN-based and Transformer-based approaches, with notable gains in the segmentation of complex and small anatomical structures. Moreover, GCtx-UNet is much more efficient than the state-of-the-art approaches with smaller model size, lower computation workload, and faster training and inference speed, making it a practical choice for clinical applications., Comment: 13 pages, 7 figures, 7 tables

Published
2024

2. JungleGPT: Designing and Optimizing Compound AI Systems for E-Commerce

Author

Ruan, Sherry and Zhao, Tian

Subjects
Computer Science - Information Retrieval
Abstract

LLMs have significantly advanced the e-commerce industry by powering applications such as personalized recommendations and customer service. However, most current efforts focus solely on monolithic LLMs and fall short in addressing the complexity and scale of real-world e-commerce scenarios. In this work, we present JungleGPT, the first compound AI system tailored for real-world e-commerce applications. We outline the system's design and the techniques used to optimize its performance for practical use cases, which have proven to reduce inference costs to less than 1% of what they would be with a powerful, monolithic LLM.

Published
2024

3. Extended Kalman Filtering for Recursive Online Discrete-Time Inverse Optimal Control

Author

Zhao, Tian and Molloy, Timothy L.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

We formulate the discrete-time inverse optimal control problem of inferring unknown parameters in the objective function of an optimal control problem from measurements of optimal states and controls as a nonlinear filtering problem. This formulation enables us to propose a novel extended Kalman filter (EKF) for solving inverse optimal control problems in a computationally efficient recursive online manner that requires only a single pass through the measurement data. Importantly, we show that the Jacobians required to implement our EKF can be computed efficiently by exploiting recent Pontryagin differentiable programming results, and that our consideration of an EKF enables the development of first-of-their-kind theoretical error guarantees for online inverse optimal control with noisy incomplete measurements. Our proposed EKF is shown to be significantly faster than an alternative unscented Kalman filter-based approach., Comment: 7 pages, 2 figures, accepted for presentation at 2024 American Control Conference

Published
2024

6. Early intermittent hyperlipidaemia alters tissue macrophages to fuel atherosclerosis

Author

Takaoka, Minoru, Zhao, Xiaohui, Lim, Hwee Ying, Magnussen, Costan G., Ang, Owen, Suffee, Nadine, Schrank, Patricia R., Ong, Wei Siong, Tsiantoulas, Dimitrios, Sommer, Felix, Mohanta, Sarajo K., Harrison, James, Meng, Yaxing, Laurans, Ludivine, Wu, Feitong, Lu, Yuning, Masters, Leanne, Newland, Stephen A., Denti, Laura, Hong, Mingyang, Chajadine, Mouna, Juonala, Markus, Koskinen, Juhani S., Kähönen, Mika, Pahkala, Katja, Rovio, Suvi P., Mykkänen, Juha, Thomson, Russell, Kaisho, Tsuneyasu, Habenicht, Andreas J. R., Clement, Marc, Tedgui, Alain, Ait-Oufella, Hafid, Zhao, Tian X., Nus, Meritxell, Ruhrberg, Christiana, Taleb, Soraya, Williams, Jesse W., Raitakari, Olli T., Angeli, Véronique, and Mallat, Ziad

Published
2024
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15. Integrated immunogenomic analyses of single-cell and bulk profiling construct a T cell-related signature for predicting prognosis and treatment response in osteosarcoma

Author

Chicheng Niu, Weiwei Wang, Qingyuan Xu, Zhao Tian, Hao Li, Qiang Ding, Liang Guo, and Ping Zeng

Subjects
Osteosarcoma, T cell, Tumour microenvironment, Immune response, Individualized treatment, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Purposes T cells play a crucial role as regulators of anti-tumor activity within the tumor microenvironment (TME) and are closely associated with the progression of osteosarcoma (OS). Nevertheless, the specific role of T cell-related genes (TCRGs) in the pathogenesis of OS remains unclear. Methods First, we processed single-cell RNA sequencing (scRNA-seq) data of OS from the public databases and performed cell annotation. We identified highly variable genes in each cell type using the "FindAllMarkers" function, explored the distribution of different clusters, and investigated inter-cellular communication patterns via the "CellChat" framework. Then, we used multivariate Cox analysis to construct a TCRG and developed a nomogram to predict survival probabilities for OS patients. Finally, we validated the aforementioned results using various cell lines and investigated the immune cell infiltration, expression of immune checkpoints, chemotherapy sensitivity, and the efficacy of targeted therapies across different risk groups. Results From the scRNA-seq data, we identified 3,000 highly variable genes, presented the top 10 genes, and validated the expression of core genes across different cell lines.Moreover, our analysis delved into interactions between T cells and other cell types. Our analyses constructed a predictive T cell-related signature (TCRS) that incorporated these prognostic TCRGs, showing a clear prognostic separation between the high-risk and low-risk OS patient groups in multiple cohorts. Survival analysis indicated better outcomes for patients classified in the high-risk group. The low-risk group exhibited elevated levels of CD4 memory resting T cells, contrasting with the higher levels of macrophage M0 observed in the high-risk group via the CIBERSORT algorithm. Furthermore, we observed that the low-risk group exhibitedAQ1 significant up-regulation of immune checkpoint genes (ICGs) and lower Tumour Immune Dysfunction and Exclusion (TIDE) scores, suggesting that they may be suitable for immunotherapy. Conversely, the high-risk group appeared more responsive to chemotherapy and targeted therapies, according to our drug sensitivity analysis. Conclusion In conclusion, our study identified TCRGs, constructed and validated a TCRS for OS, and assessed immune response and drug sensitivity in different risk groups of OS patients. These findings provide novel insights into personalized treatment strategies for OS, potentially guiding more effective therapeutic interventions.

Published
2024
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16. Transfer Learning for Microstructure Segmentation with CS-UNet: A Hybrid Algorithm with Transformer and CNN Encoders

Author

Alrfou, Khaled, Zhao, Tian, and Kordijazi, Amir

Subjects
Computer Science - Computer Vision and Pattern Recognition, Condensed Matter - Materials Science
Abstract

Transfer learning improves the performance of deep learning models by initializing them with parameters pre-trained on larger datasets. Intuitively, transfer learning is more effective when pre-training is on the in-domain datasets. A recent study by NASA has demonstrated that the microstructure segmentation with encoder-decoder algorithms benefits more from CNN encoders pre-trained on microscopy images than from those pre-trained on natural images. However, CNN models only capture the local spatial relations in images. In recent years, attention networks such as Transformers are increasingly used in image analysis to capture the long-range relations between pixels. In this study, we compare the segmentation performance of Transformer and CNN models pre-trained on microscopy images with those pre-trained on natural images. Our result partially confirms the NASA study that the segmentation performance of out-of-distribution images (taken under different imaging and sample conditions) is significantly improved when pre-training on microscopy images. However, the performance gain for one-shot and few-shot learning is more modest with Transformers. We also find that for image segmentation, the combination of pre-trained Transformers and CNN encoders are consistently better than pre-trained CNN encoders alone. Our dataset (of about 50,000 images) combines the public portion of the NASA dataset with additional images we collected. Even with much less training data, our pre-trained models have significantly better performance for image segmentation. This result suggests that Transformers and CNN complement each other and when pre-trained on microscopy images, they are more beneficial to the downstream tasks., Comment: 21 pages, 8 figures, 11 tables

Published
2023

24. A Survey on Distributed Evolutionary Computation

Author

Chen, Wei-Neng, Wei, Feng-Feng, Zhao, Tian-Fang, Tan, Kay Chen, and Zhang, Jun

Subjects
Computer Science - Neural and Evolutionary Computing, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

The rapid development of parallel and distributed computing paradigms has brought about great revolution in computing. Thanks to the intrinsic parallelism of evolutionary computation (EC), it is natural to implement EC on parallel and distributed computing systems. On the one hand, the computing power provided by parallel computing systems can significantly improve the efficiency and scalability of EC. On the other hand, data are collected and processed in a distributed manner, which brings a novel development direction and new challenges to EC. In this paper, we intend to give a systematic review on distributed EC (DEC). First, a new taxonomy for DEC is proposed from top design mechanism to bottom implementation mechanism. Based on this taxonomy, existing studies on DEC are reviewed in terms of purpose, parallel structure of the algorithm, parallel model for implementation, and the implementation environment. Second, we clarify two major purposes of DEC, i.e., improving efficiency through parallel processing for centralized optimization and cooperating distributed individuals/sub-populations with partial information to perform distributed optimization. Third, noting that the latter purpose of DEC is an emerging and attractive trend for EC with the booming of spatially distributed paradigms, this paper gives a systematic definition of the distributed optimization and classifies it into dimension distributed-, data distributed-, and objective distributed-optimization problems. Formal formulations for these problems are provided and various DEC studies on these problems are reviewed. We also discuss challenges and potential research directions, aiming to enlighten the design of DEC and pave the way for future developments.

Published
2023

26. Maximum-Likelihood-Estimate Hamiltonian learning via efficient and robust quantum likelihood gradient

Author

Zhao, Tian-Lun, Hu, Shi-Xin, and Zhang, Yi

Subjects
Quantum Physics
Abstract

Given the recent developments in quantum techniques, modeling the physical Hamiltonian of a target quantum many-body system is becoming an increasingly practical and vital research direction. Here, we propose an efficient strategy combining maximum likelihood estimation, gradient descent, and quantum many-body algorithms. Given the measurement outcomes, we optimize the target model Hamiltonian and density operator via a series of descents along the quantum likelihood gradient, which we prove is negative semi-definite with respect to the negative-log-likelihood function. In addition to such optimization efficiency, our maximum-likelihood-estimate Hamiltonian learning respects the locality of a given quantum system, therefore, extends readily to larger systems with available quantum many-body algorithms. Compared with previous approaches, it also exhibits better accuracy and overall stability toward noises, fluctuations, and temperature ranges, which we demonstrate with various examples., Comment: 13 pages, 11 figures

Published
2022
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27. Comprehensive analysis of prognostic and immunological role of basement membrane‐related genes in soft tissue sarcoma

Author

Guang‐hua Nie, Cheng‐yi Liu, and Zhao Tian

Subjects
basement membrane, prognosis, signature, soft tissue sarcoma, tumor microenvironment, Immunologic diseases. Allergy, RC581-607
Abstract

Abstract Background Soft tissue sarcoma (STS) represents highly multifarious malignant tumors that often occur in adolescents and have a poor prognosis. The basement membrane, as an ancient cellular matrix, was recently proven to play a vital role in developing abundant tumors. The relationship between basement membrane‐related genes and STS remains unknown. Methods Consensus clustering was employed to identify subgroups related to differentially expressed basement membrane‐related genes. Cox and least absolute shrinkage and selection operator regression analyses were utilized to construct this novel signature. Then, we established a nomogram and calibration curve, including the risk score and available clinical characteristics. Finally, we carried out functional enrichment analysis and immune microenvironment analysis to investigate enriched pathways and the tumor immune microenvironment related to the novel signature. Results A prognostic predictive signature consisting of eight basement membrane‐related genes was established. Kaplan–Meier survival curves demonstrated that the patients in the high‐risk group had a poor prognosis. Independent analysis illustrated that this risk model could be an independent prognostic predictor. We validated the accuracy of our signature in the validation data set. In addition, gene set enrichment analysis and immune microenvironment analysis showed that patients with low‐risk scores were enriched in some pathways associated with immunity. Finally, in vitro experiments showed significantly differential expression levels of these signature genes in STS cells and PSAT1 could promote the malignant behavior of STS. Conclusions The novel signature is a promising prognostic predictor for STS. The present study may improve the prognosis and enhance individualized treatment for STS in the future.

Published
2024
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30. Stardust: Compiling Sparse Tensor Algebra to a Reconfigurable Dataflow Architecture

Author

Hsu, Olivia, Rucker, Alexander, Zhao, Tian, Olukotun, Kunle, and Kjolstad, Fredrik

Subjects
Computer Science - Programming Languages, Computer Science - Hardware Architecture, D.3
Abstract

We introduce Stardust, a compiler that compiles sparse tensor algebra to reconfigurable dataflow architectures (RDAs). Stardust introduces new user-provided data representation and scheduling language constructs for mapping to resource-constrained accelerated architectures. Stardust uses the information provided by these constructs to determine on-chip memory placement and to lower to the Capstan RDA through a parallel-patterns rewrite system that targets the Spatial programming model. The Stardust compiler is implemented as a new compilation path inside the TACO open-source system. Using cycle-accurate simulation, we demonstrate that Stardust can generate more Capstan tensor operations than its authors had implemented and that it results in 138$\times$ better performance than generated CPU kernels and 41$\times$ better performance than generated GPU kernels., Comment: 15 pages, 13 figures, 6 tables

Published
2022

31. Ultrasensitive atomic comagnetometer with enhanced nuclear spin coherence

Author

Wei, Kai, Zhao, Tian, Fang, Xiujie, Xu, Zitong, Liu, Chang, Cao, Qian, Wickenbrock, Arne, Hu, Yanhui, Ji, Wei, and Budker, Dmitry

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

Achieving high energy resolution in spin systems is important for fundamental physics research and precision measurements, with alkali-noble-gas comagnetometers being among the best available sensors. We found a new relaxation mechanism in such devices, the gradient of the Fermi-contact-interaction field that dominates the relaxation of hyperpolarized nuclear spins. We report on precise control over spin distribution, demonstrating a tenfold increase of nuclear spin hyperpolarization and transverse coherence time with optimal hybrid optical pumping. Operating in the self-compensation regime, our $^{21}$Ne-Rb-K comagnetometer achieves an ultrahigh inertial rotation sensitivity of $3\times10^{-8}$\,rad/s/Hz$^{1/2}$ in the frequency range from 0.2 to 1.0 Hz, which is equivalent to the energy resolution of $3.1\times 10^{-23}$\,eV/Hz$^{1/2}$. We propose to use this comagnetometer to search for exotic spin-dependent interactions involving proton and neutron spins. The projected sensitivity surpasses the previous experimental and astrophysical limits by more than four orders of magnitude.

Published
2022
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33. Consideration on ' Patient-Centered' Drug Development for Rare Diseases

Author

TANG Ling, AI Xing, ZHAO Tian, and YANG Zhimin

Subjects
rare diseases, patient-centered, drug clinical research and development, audit and approve, Medicine
Abstract

The unmet clinical needs of patients with rare diseases persist. Many rare diseases lack effective treatments, and drug development for rare diseases faces greater challenges than that for common multiple diseases. In recent years, the concept of " patient-centered" drug development has been widely adopted. The Center for Drug Evaluation(CDE) of the National Medical Products Administration has successively issued a series of relevant guiding principles, such as the Technical Guidelines for the Implementation of Patient-Centered Clinical Trials, to promote a " patient-centered" drug development model. The implementation of the " patient-centered" approach in rare disease drug research and development, with a focus on patient perspectives and active engagement, can effectively facilitate a comprehensive understanding of rare diseases and patient needs among drug research and development enterprises, researchers, and regulatory agencies. This approach also enhances the accuracy and efficiency of rare disease drug research and development. The CDE will continue to prioritize the integration of the " patient-centered" concept into rare disease drug research and development, effectively enhance the involvement of rare patients in the drug research and development process, and leverage the guiding role of patients′ perspectives on drug research and development.

Published
2024
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34. Computer Vision Methods for the Microstructural Analysis of Materials: The State-of-the-art and Future Perspectives

Author

Alrfou, Khaled, Kordijazi, Amir, and Zhao, Tian

Subjects
Condensed Matter - Materials Science, Computer Science - Computer Vision and Pattern Recognition, Physics - Applied Physics, Physics - Data Analysis, Statistics and Probability
Abstract

Finding quantitative descriptors representing the microstructural features of a given material is an ongoing research area in the paradigm of Materials-by-Design. Historically, microstructural analysis mostly relies on qualitative descriptions. However, to build a robust and accurate process-structure-properties relationship, which is required for designing new advanced high-performance materials, the extraction of quantitative and meaningful statistical data from the microstructural analysis is a critical step. In recent years, computer vision (CV) methods, especially those which are centered around convolutional neural network (CNN) algorithms have shown promising results for this purpose. This review paper focuses on the state-of-the-art CNN-based techniques that have been applied to various multi-scale microstructural image analysis tasks, including classification, object detection, segmentation, feature extraction, and reconstruction. Additionally, we identified the main challenges with regard to the application of these methods to materials science research. Finally, we discussed some possible future directions of research in this area. In particular, we emphasized the application of transformer-based models and their capabilities to improve the microstructural analysis of materials., Comment: 42 pages, 14 figures, 3 tables

Published
2022

35. Telecom-band Multi-Type Spontaneous Parametric Downconversion in Periodically Polarized Nonlinear Materials

Author

Liu, Xi-Yu, Yu, Ya-Fei, Wei, Zheng-Jun, Zhao, Tian-Ming, and Wang, Jin-Dong

Subjects
Quantum Physics
Abstract

Spontaneous parametric downconversion is an essential technique in quantum optics experiments. In this paper, various quasi-phase-matching processes in several typical periodically polarized nonlinear materials are analyzed and calculated. Furthermore, a general method for realizing multiple types of quasi-phase-matching in a monolithic material is presented. Finally, a novel design to prepare multiple entangled photon pairs based on the Sagnac interferometer is discussed. This technology can be applied to tiny optical paths in the telecom C band, saving both cost and space.

Published
2022

36. Research and analysis of urban-rural residential carbon emissions in China

Author

Ailin Liang, Zhao Tian, and Chengzhi Xiang

Subjects
NPP-VIIRS, urban-rural differences, residential carbon emissions, per capita residential carbon emissions, Environmental sciences, GE1-350, Technology
Abstract

Residential carbon emissions are an important component of anthropogenic carbon emissions. a significant increase in residential carbon emissions has become a reality under the global urbanization process. In this context, this paper built a feature combination value model based on NPP-VIIRS nighttime light remote sensing data, and divided urban-rural areas through breakpoint analysis method and reference comparison method. Then, explored the characteristics and differences of residential carbon emissions and per capita residential carbon emissions in nine different levels of cities in 2019 from the perspective of urban-rural areas. The results indicate that the residential carbon emissions and per capita residential carbon emissions shows the spatial distribution characteristics of first tier cities>second tier cities>third tier cities. Among them, the residential carbon emissions in Beijing, Guangzhou, Nanjing, Taiyuan show a distribution pattern of urban>urban-rural fringe>rural. The residential carbon emissions in Shijiazhuang, Wuxi, Xiangyang, Zunyi, Huai’an show a distribution pattern of rural>urban-rural fringe>urban. The per capita residential carbon emissions of urban areas are relatively low, while the per capita residential carbon emissions of rural areas are relatively high, show a distribution pattern of rural>urban-rural fringe >urban. The results can help the Chinese government balance the needs of urban-rural development in different levels of cities, so as to formulate targeted carbon emission reduction policies and achieve low-carbon goals.

Published
2024
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37. Relationship between the change of ATP level controlled by ectonucleotidases and endometriosis-associated infertility and pain

Author

Xiaohong Chang, Zhao Tian, Honglan Zhu, Yiling Wang, and Qingjie Zhai

Subjects
Gynecology and obstetrics, RG1-991
Abstract

Background The dysfunction of the immune system is one of the pathogeneses of endometriosis. Immune cells can not only affect the microenvironment of the endometrium by secreting cytokines and defensins but also promote angiogenesis, growth and invasion of endometrial stromal cells.Result ATP is a key mediator in the immune mechanism of endometriosis and plays a crucial role in endometriosis. While ATP acts as a purinergic signalling molecule, it has a close relationship with the pain of endometriosis via activating ATP receptors, including P2X3, P2X4, P2X7 and P2Y receptors, after being activated by the immune system. Besides, ATP levels reflect the impairment of mitochondrial function in granulosa cells, which could lead to infertility. The modulation of ATP expression levels is controlled by ectonucleotidases. The content of ectonucleotidases is altered in endometriosis which may be emerging non-invasive biomarkers.Conclusion In the present review, we briefly introduce the relationship between the change of ATP level controlled by ectonucleotidases and endometriosis-associated infertility and pain, and illustrate our prospects for future research.

Published
2024
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38. Integrated analysis of single-cell RNA-seq, bulk RNA-seq, Mendelian randomization, and eQTL reveals T cell-related nomogram model and subtype classification in rheumatoid arthritis

Author

Qiang Ding, Qingyuan Xu, Yini Hong, Honghai Zhou, Xinyu He, Chicheng Niu, Zhao Tian, Hao Li, Ping Zeng, and Jinfu Liu

Subjects
rheumatoid arthritis, single-cell RNA sequencing, Mendelian randomization, bulk RNA sequencing, combined biomarkers, machine learning, Immunologic diseases. Allergy, RC581-607
Abstract

ObjectiveRheumatoid arthritis (RA) is a systemic disease that attacks the joints and causes a heavy economic burden on humans worldwide. T cells regulate RA progression and are considered crucial targets for therapy. Therefore, we aimed to integrate multiple datasets to explore the mechanisms of RA. Moreover, we established a T cell-related diagnostic model to provide a new method for RA immunotherapy.MethodsscRNA-seq and bulk-seq datasets for RA were obtained from the Gene Expression Omnibus (GEO) database. Various methods were used to analyze and characterize the T cell heterogeneity of RA. Using Mendelian randomization (MR) and expression quantitative trait loci (eQTL), we screened for potential pathogenic T cell marker genes in RA. Subsequently, we selected an optimal machine learning approach by comparing the nine types of machine learning in predicting RA to identify T cell-related diagnostic features to construct a nomogram model. Patients with RA were divided into different T cell-related clusters using the consensus clustering method. Finally, we performed immune cell infiltration and clinical correlation analyses of T cell-related diagnostic features.ResultsBy analyzing the scRNA-seq dataset, we obtained 10,211 cells that were annotated into 7 different subtypes based on specific marker genes. By integrating the eQTL from blood and RA GWAS, combined with XGB machine learning, we identified a total of 8 T cell-related diagnostic features (MIER1, PPP1CB, ICOS, GADD45A, CD3D, SLFN5, PIP4K2A, and IL6ST). Consensus clustering analysis showed that RA could be classified into two different T-cell patterns (Cluster 1 and Cluster 2), with Cluster 2 having a higher T-cell score than Cluster 1. The two clusters involved different pathways and had different immune cell infiltration states. There was no difference in age or sex between the two different T cell patterns. In addition, ICOS and IL6ST were negatively correlated with age in RA patients.ConclusionOur findings elucidate the heterogeneity of T cells in RA and the communication role of these cells in an RA immune microenvironment. The construction of T cell-related diagnostic models provides a resource for guiding RA immunotherapeutic strategies.

Published
2024
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