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1. Optically Coherent Nitrogen-Vacancy Centers in HPHT Treated Diamonds

Author

Tang, Yuan-Han, Zhang, Xiaoran, Liu, Kang-Yuan, Xia, Fan, Zheng, Huijie, Liu, Xiaobing, Pan, Xin-Yu, Fan, Heng, and Liu, Gang-Qin

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

As a point defect with unique spin and optical properties, nitrogen-vacancy (NV) center in diamond has attracted much attention in the fields of quantum sensing, quantum simulation, and quantum networks. The optical properties of an NV center are crucial for all these quantum applications. However, NV centers fabricated by destructive methods such as electron irradiation or ion implantation usually exhibit poor optical coherence. In this work, we demonstrate a non-destructive method to fabricate optically coherent NV centers. High-purity single crystal diamonds are annealed under high pressure and high temperature (1700 $^{\circ}$C, 5.5 GPa), and individually resolvable NV centers with narrow PLE linewidth (<100 MHz) are produced. The high-pressure condition prevents the conversion of diamond to graphite during high-temperature annealing, significantly expanding the parameter space for creating high-performance artificial defects for quantum information science. These findings deepen our understanding of NV center formation in diamond and have implications for the optimization of color centers in solids, including silicon carbide and hexagonal boron nitride., Comment: 11 pages,4 figures

Published
2024

2. Advancing Video Quality Assessment for AIGC

Author

Yue, Xinli, Sun, Jianhui, Kong, Han, Yao, Liangchao, Wang, Tianyi, Li, Lei, Rao, Fengyun, Lv, Jing, Xia, Fan, Deng, Yuetang, Wang, Qian, and Zhao, Lingchen

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In recent years, AI generative models have made remarkable progress across various domains, including text generation, image generation, and video generation. However, assessing the quality of text-to-video generation is still in its infancy, and existing evaluation frameworks fall short when compared to those for natural videos. Current video quality assessment (VQA) methods primarily focus on evaluating the overall quality of natural videos and fail to adequately account for the substantial quality discrepancies between frames in generated videos. To address this issue, we propose a novel loss function that combines mean absolute error with cross-entropy loss to mitigate inter-frame quality inconsistencies. Additionally, we introduce the innovative S2CNet technique to retain critical content, while leveraging adversarial training to enhance the model's generalization capabilities. Experimental results demonstrate that our method outperforms existing VQA techniques on the AIGC Video dataset, surpassing the previous state-of-the-art by 3.1% in terms of PLCC., Comment: 5 pages, 1 figure

Published
2024

3. Revisiting Video Quality Assessment from the Perspective of Generalization

Author

Yue, Xinli, Sun, Jianhui, Yao, Liangchao, Xia, Fan, Deng, Yuetang, Wang, Tianyi, Li, Lei, Rao, Fengyun, Lv, Jing, Wang, Qian, and Zhao, Lingchen

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The increasing popularity of short video platforms such as YouTube Shorts, TikTok, and Kwai has led to a surge in User-Generated Content (UGC), which presents significant challenges for the generalization performance of Video Quality Assessment (VQA) tasks. These challenges not only affect performance on test sets but also impact the ability to generalize across different datasets. While prior research has primarily focused on enhancing feature extractors, sampling methods, and network branches, it has largely overlooked the generalization capabilities of VQA tasks. In this work, we reevaluate the VQA task from a generalization standpoint. We begin by analyzing the weight loss landscape of VQA models, identifying a strong correlation between this landscape and the generalization gaps. We then investigate various techniques to regularize the weight loss landscape. Our results reveal that adversarial weight perturbations can effectively smooth this landscape, significantly improving the generalization performance, with cross-dataset generalization and fine-tuning performance enhanced by up to 1.8% and 3%, respectively. Through extensive experiments across various VQA methods and datasets, we validate the effectiveness of our approach. Furthermore, by leveraging our insights, we achieve state-of-the-art performance in Image Quality Assessment (IQA) tasks. Our code is available at https://github.com/XinliYue/VQA-Generalization., Comment: 13 pages, 4 figures

Published
2024

4. Adapted Swin Transformer-based Real-Time Plasma Shape Detection and Control in HL-3

Author

Dong, Qianyun, Chen, Zhengwei, Li, Rongpeng, Yang, Zongyu, Gao, Feng, Chen, Yihang, Xia, Fan, Zhong, Wulyu, and Zhao, Zhifeng

Subjects
Physics - Plasma Physics
Abstract

In the field of magnetic confinement plasma control, the accurate feedback of plasma position and shape primarily relies on calculations derived from magnetic measurements through equilibrium reconstruction or matrix mapping method. However, under harsh conditions like high-energy neutron radiation and elevated temperatures, the installation of magnetic probes within the device becomes challenging. Relying solely on external magnetic probes can compromise the precision of EFIT in determining the plasma shape. To tackle this issue, we introduce a real-time, non-magnetic measurement method on the HL-3 tokamak, which diagnoses the plasma position and shape via imaging. Particularly, we put forward an adapted Swin Transformer model, the Poolformer Swin Transformer (PST), to accurately and fastly interpret the plasma shape from the Charge-Coupled Device Camera (CCD) images. By adopting multi-task learning and knowledge distillation techniques, the model is capable of robustly detecting six shape parameters under disruptive conditions such as a divertor shape and gas injection, circumventing global brightness changes and cumbersome manual labeling. Specifically, the well-trained PST model capably infers R and Z within the mean average error below 1.1 cm and 1.8 cm, respectively, while requiring less than 2 ms for end-to-end feedback, an 80 improvement over the smallest Swin Transformer model, laying the foundation for real-time control. Finally, we deploy the PST model in the Plasma Control System (PCS) using TensorRT, and achieve 500 ms stable PID feedback control based on the PST-computed horizontal displacement information. In conclusion, this research opens up new avenues for the practical application of image-computing plasma shape diagnostic methods in the realm of real-time feedback control.

Published
2024

5. A Diagnostic Tool for Functional Causal Discovery

Author

Prakash, Shreya, Xia, Fan, and Erosheva, Elena

Subjects
Statistics - Methodology, Statistics - Applications
Abstract

Causal discovery methods aim to determine the causal direction between variables using observational data. Functional causal discovery methods, such as those based on the Linear Non-Gaussian Acyclic Model (LiNGAM), rely on structural and distributional assumptions to infer the causal direction. However, approaches for assessing causal discovery methods' performance as a function of sample size or the impact of assumption violations, inevitable in real-world scenarios, are lacking. To address this need, we propose Causal Direction Detection Rate (CDDR) diagnostic that evaluates whether and to what extent the interaction between assumption violations and sample size affects the ability to identify the hypothesized causal direction. Given a bivariate dataset of size N on a pair of variables, X and Y, CDDR diagnostic is the plotted comparison of the probability of each causal discovery outcome (e.g. X causes Y, Y causes X, or inconclusive) as a function of sample size less than N. We fully develop CDDR diagnostic in a bivariate case and demonstrate its use for two methods, LiNGAM and our new test-based causal discovery approach. We find CDDR diagnostic for the test-based approach to be more informative since it uses a richer set of causal discovery outcomes. Under certain assumptions, we prove that the probability estimates of detecting each possible causal discovery outcome are consistent and asymptotically normal. Through simulations, we study CDDR diagnostic's behavior when linearity and non-Gaussianity assumptions are violated. Additionally, we illustrate CDDR diagnostic on four real datasets, including three for which the causal direction is known.

Published
2024

6. Identifying L-H transition in HL-2A through deep learning

Author

He, Meihuizi, Liu, Songfen, Xia, Fan, Yang, Zongyu, and Zhong, Wulyu

Subjects
Physics - Plasma Physics
Abstract

During the operation of tokamak devices, addressing the thermal load issues caused by Edge Localized Modes (ELMs) eruption is crucial. Ideally, mitigation and suppression measures for ELMs should be promptly initiated as soon as the first low-to-high confinement (L-H) transition occurs, which necessitates the real-time monitoring and accurate identification of the L-H transition process. Motivated by this, and by recent deep learning boom, we propose a deep learning-based L-H transition identification algorithm on HL-2A tokamak. In this work, we have constructed a neural network comprising layers of Residual Long Short-Term Memory (LSTM) and Temporal Convolutional Network (TCN). Unlike previous work based on recognition for ELMs by slice, this method implements recognition on L-H transition process before the first ELMs crash. Therefore the mitigation techniques can be triggered in time to suppress the initial ELMs bursts. In order to further explain the effectiveness of the algorithm, we developed a series of evaluation indicators by shots, and the results show that this algorithm can provide necessary reference for the mitigation and suppression system.

Published
2024

10. A hierarchical decomposition for explaining ML performance discrepancies

Author

Feng, Jean, Singh, Harvineet, Xia, Fan, Subbaswamy, Adarsh, and Gossmann, Alexej

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Machine learning (ML) algorithms can often differ in performance across domains. Understanding $\textit{why}$ their performance differs is crucial for determining what types of interventions (e.g., algorithmic or operational) are most effective at closing the performance gaps. Existing methods focus on $\textit{aggregate decompositions}$ of the total performance gap into the impact of a shift in the distribution of features $p(X)$ versus the impact of a shift in the conditional distribution of the outcome $p(Y|X)$; however, such coarse explanations offer only a few options for how one can close the performance gap. $\textit{Detailed variable-level decompositions}$ that quantify the importance of each variable to each term in the aggregate decomposition can provide a much deeper understanding and suggest much more targeted interventions. However, existing methods assume knowledge of the full causal graph or make strong parametric assumptions. We introduce a nonparametric hierarchical framework that provides both aggregate and detailed decompositions for explaining why the performance of an ML algorithm differs across domains, without requiring causal knowledge. We derive debiased, computationally-efficient estimators, and statistical inference procedures for asymptotically valid confidence intervals., Comment: 11 pages, 5 figures in main body; 14 pages and 2 figures in appendices

Published
2024

11. A Brief Tutorial on Sample Size Calculations for Fairness Audits

Author

Singh, Harvineet, Xia, Fan, Kim, Mi-Ok, Pirracchio, Romain, Chunara, Rumi, and Feng, Jean

Subjects
Statistics - Applications, Computer Science - Machine Learning
Abstract

In fairness audits, a standard objective is to detect whether a given algorithm performs substantially differently between subgroups. Properly powering the statistical analysis of such audits is crucial for obtaining informative fairness assessments, as it ensures a high probability of detecting unfairness when it exists. However, limited guidance is available on the amount of data necessary for a fairness audit, lacking directly applicable results concerning commonly used fairness metrics. Additionally, the consideration of unequal subgroup sample sizes is also missing. In this tutorial, we address these issues by providing guidance on how to determine the required subgroup sample sizes to maximize the statistical power of hypothesis tests for detecting unfairness. Our findings are applicable to audits of binary classification models and multiple fairness metrics derived as summaries of the confusion matrix. Furthermore, we discuss other aspects of audit study designs that can increase the reliability of audit results., Comment: 4 pages, 1 figure, 1 table, Workshop on Regulatable Machine Learning at the 37th Conference on Neural Information Processing Systems

Published
2023

19. Designing monitoring strategies for deployed machine learning algorithms: navigating performativity through a causal lens

Author

Feng, Jean, Subbaswamy, Adarsh, Gossmann, Alexej, Singh, Harvineet, Sahiner, Berkman, Kim, Mi-Ok, Pennello, Gene, Petrick, Nicholas, Pirracchio, Romain, and Xia, Fan

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

After a machine learning (ML)-based system is deployed, monitoring its performance is important to ensure the safety and effectiveness of the algorithm over time. When an ML algorithm interacts with its environment, the algorithm can affect the data-generating mechanism and be a major source of bias when evaluating its standalone performance, an issue known as performativity. Although prior work has shown how to validate models in the presence of performativity using causal inference techniques, there has been little work on how to monitor models in the presence of performativity. Unlike the setting of model validation, there is much less agreement on which performance metrics to monitor. Different monitoring criteria impact how interpretable the resulting test statistic is, what assumptions are needed for identifiability, and the speed of detection. When this choice is further coupled with the decision to use observational versus interventional data, ML deployment teams are faced with a multitude of monitoring options. The aim of this work is to highlight the relatively under-appreciated complexity of designing a monitoring strategy and how causal reasoning can provide a systematic framework for choosing between these options. As a motivating example, we consider an ML-based risk prediction algorithm for predicting unplanned readmissions. Bringing together tools from causal inference and statistical process control, we consider six monitoring procedures (three candidate monitoring criteria and two data sources) and investigate their operating characteristics in simulation studies. Results from this case study emphasize the seemingly simple (and obvious) fact that not all monitoring systems are created equal, which has real-world impacts on the design and documentation of ML monitoring systems.

Published
2023

20. MERTech: Instrument Playing Technique Detection Using Self-Supervised Pretrained Model With Multi-Task Finetuning

Author

Li, Dichucheng, Ma, Yinghao, Wei, Weixing, Kong, Qiuqiang, Wu, Yulun, Che, Mingjin, Xia, Fan, Benetos, Emmanouil, and Li, Wei

Subjects
Computer Science - Sound, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Multimedia, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Instrument playing techniques (IPTs) constitute a pivotal component of musical expression. However, the development of automatic IPT detection methods suffers from limited labeled data and inherent class imbalance issues. In this paper, we propose to apply a self-supervised learning model pre-trained on large-scale unlabeled music data and finetune it on IPT detection tasks. This approach addresses data scarcity and class imbalance challenges. Recognizing the significance of pitch in capturing the nuances of IPTs and the importance of onset in locating IPT events, we investigate multi-task finetuning with pitch and onset detection as auxiliary tasks. Additionally, we apply a post-processing approach for event-level prediction, where an IPT activation initiates an event only if the onset output confirms an onset in that frame. Our method outperforms prior approaches in both frame-level and event-level metrics across multiple IPT benchmark datasets. Further experiments demonstrate the efficacy of multi-task finetuning on each IPT class., Comment: submitted to ICASSP 2024

Published
2023

21. Source-free Active Domain Adaptation for Diabetic Retinopathy Grading Based on Ultra-wide-field Fundus Image

Author

Ran, Jinye, Zhang, Guanghua, Zhang, Ximei, Xie, Juan, Xia, Fan, and Zhang, Hao

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

Domain adaptation (DA) has been widely applied in the diabetic retinopathy (DR) grading of unannotated ultra-wide-field (UWF) fundus images, which can transfer annotated knowledge from labeled color fundus images. However, suffering from huge domain gaps and complex real-world scenarios, the DR grading performance of most mainstream DA is far from that of clinical diagnosis. To tackle this, we propose a novel source-free active domain adaptation (SFADA) in this paper. Specifically, we focus on DR grading problem itself and propose to generate features of color fundus images with continuously evolving relationships of DRs, actively select a few valuable UWF fundus images for labeling with local representation matching, and adapt model on UWF fundus images with DR lesion prototypes. Notably, the SFADA also takes data privacy and computational efficiency into consideration. Extensive experimental results demonstrate that our proposed SFADA achieves state-of-the-art DR grading performance, increasing accuracy by 20.9% and quadratic weighted kappa by 18.63% compared with baseline and reaching 85.36% and 92.38% respectively. These investigations show that the potential of our approach for real clinical practice is promising.

Published
2023

22. PMUT Package Design Optimization via Machine Learning

Author

Teng, Megan, Yue, Wei, Peng, Yande, Tsao, Pei-Chi, Deng, Huicong, Xia, Fan, and Lin, Liwei

Subjects
Information and Computing Sciences, Engineering, Machine Learning, Machine Learning and Artificial Intelligence, Biomedical Imaging, Networking and Information Technology R&D (NITRD), MEMS, PMUT, packaging, supervised learning, optimization
Abstract

This work uses supervised learning to optimize the package design with validated experimental results for piezoelectric micromachined ultrasonic transducers (PMUTs) to increase and alter the sound pressure level (SPL). Advancements as compared to the state-of-art include: (1) a neural network model to achieve a mean squared error of less than 0.65 dB2 post 100 epochs; (2) increased vibration amplitude by 17.9 dBV at the first-mode resonance frequency of 33.5 kHz; and (3) SPL enhancements below the 20 kHz frequency range such as the magnitude increases of more than 60 dBV at 5 kHz. As such, the package design shifts the emitting acoustic energy from the ultrasound to audio range in favor of various applications, including audio speakers.

Published
2024

23. Reconstructing human activities via coupling mobile phone data with location-based social networks

Author

Huang, Le, Xia, Fan, Chen, Hui, Hu, Bowen, Zhou, Xiao, Li, Chunxiao, Jin, Yaohui, and Xu, Yanyan

Subjects
Computer Science - Social and Information Networks, Computer Science - Computers and Society
Abstract

In the era of big data, the ubiquity of location-aware portable devices provides an unprecedented opportunity to understand inhabitants' behavior and their interactions with the built environments. Among the widely used data resources, mobile phone data is the one passively collected and has the largest coverage in the population. However, mobile operators cannot pinpoint one user within meters, leading to the difficulties in activity inference. To that end, we propose a data analysis framework to identify user's activity via coupling the mobile phone data with location-based social networks (LBSN) data. The two datasets are integrated into a Bayesian inference module, considering people's circadian rhythms in both time and space. Specifically, the framework considers the pattern of arrival time to each type of facility and the spatial distribution of facilities. The former can be observed from the LBSN Data and the latter is provided by the points of interest (POIs) dataset. Taking Shanghai as an example, we reconstruct the activity chains of 1,000,000 active mobile phone users and analyze the temporal and spatial characteristics of each activity type. We assess the results with some official surveys and a real-world check-in dataset collected in Shanghai, indicating that the proposed method can capture and analyze human activities effectively. Next, we cluster users' inferred activity chains with a topic model to understand the behavior of different groups of users. This data analysis framework provides an example of reconstructing and understanding the activity of the population at an urban scale with big data fusion.

Published
2023

33. Frame-Level Multi-Label Playing Technique Detection Using Multi-Scale Network and Self-Attention Mechanism

Author

Li, Dichucheng, Che, Mingjin, Meng, Wenwu, Wu, Yulun, Yu, Yi, Xia, Fan, and Li, Wei

Subjects
Computer Science - Sound, Computer Science - Artificial Intelligence, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Instrument playing technique (IPT) is a key element of musical presentation. However, most of the existing works for IPT detection only concern monophonic music signals, yet little has been done to detect IPTs in polyphonic instrumental solo pieces with overlapping IPTs or mixed IPTs. In this paper, we formulate it as a frame-level multi-label classification problem and apply it to Guzheng, a Chinese plucked string instrument. We create a new dataset, Guzheng\_Tech99, containing Guzheng recordings and onset, offset, pitch, IPT annotations of each note. Because different IPTs vary a lot in their lengths, we propose a new method to solve this problem using multi-scale network and self-attention. The multi-scale network extracts features from different scales, and the self-attention mechanism applied to the feature maps at the coarsest scale further enhances the long-range feature extraction. Our approach outperforms existing works by a large margin, indicating its effectiveness in IPT detection., Comment: Accepted to ICASSP 2023

Published
2023

34. Seven hundred and ninety-seven metagenome-assembled genomes from the goat rumen during early life

Author

Tao Ma, Yimin Zhuang, Wei Lu, Yan Tu, Qiyu Diao, Xia Fan, and Naifeng Zhang

Subjects
Science
Abstract

Abstract The rumen microbiome plays an important role in providing energy and protein to the host. Manipulation of rumen microbiome during early life may have a long-term beneficial effect on the health, growth performance, and feed efficiency of ruminants. To better understand the profiles and functional potentials of rumen microbiome in young ruminants, metagenomic binning was performed to investigate the rumen microbiome of goat kids from one to 84 days of age. A total of 797 metagenome-assembled genomes (MAGs) were recovered from the rumen of 42 Laiwu black goat kids. Our findings provide fundamental knowledge of the rumen microbiome during early life based on metagenomic binning, which may provide insights into effective strategies to achieve long-term beneficial effects on animal health and production.

Published
2024
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35. Construction of an electrochemical reactor for efficient water softening via promoting CaCO3 nucleation in liquid phase

Author

XIA Fan, ZHONG Weihao, MAO Wei, and YU Hongtao

Subjects
electrochemistry, water softening, oh- diffusion, softener, Environmental technology. Sanitary engineering, TD1-1066
Abstract

In order to solve the problems of frequent electrode cleaning and low efficiency in electrochemical descaling, a new electrochemical water softening reactor with horizontal electrodes was developed. In the new electrochemical water softening reactor, the inflow flowed horizontally through the cathodic chamber and then the anodic chamber. The movement of water and bubbles promoted OH- diffusion and strengthened the homogeneous nucleation of CaCO3. By optimizing current density, flow rate and initial hardness, the homogeneous nucleation was strengthened. At the flow rate of 2.7 L/h, the current density of 80 A/m2 and the influent hardness of 400 mg/L, the softening efficiency was achieved as 155 g/(h·m2), hardness removal was 150 mg/L, current efficiency was 50% and energy consumption was 15 kW·h/g. With these performance, cathodic cleaning frequency was reduced effectively.

Published
2024
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36. Parameter Tuning of PMSM Sliding Mode Control Based on Multi-agent Reinforcement Learning

Author

Wei, Ze-yu, Lin, Qiang-qiang, Xia, Fan-hao, Zhu, Feng-qing, Dong, Peng-cheng, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Wang, Qing, editor, Dong, Xiwang, editor, and Song, Peng, editor

Published
2024
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37. Playing Technique Detection by Fusing Note Onset Information in Guzheng Performance

Author

Li, Dichucheng, Wu, Yulun, Li, Qinyu, Zhao, Jiahao, Yu, Yi, Xia, Fan, and Li, Wei

Subjects
Computer Science - Sound, Computer Science - Artificial Intelligence, Computer Science - Multimedia, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

The Guzheng is a kind of traditional Chinese instruments with diverse playing techniques. Instrument playing techniques (IPT) play an important role in musical performance. However, most of the existing works for IPT detection show low efficiency for variable-length audio and provide no assurance in the generalization as they rely on a single sound bank for training and testing. In this study, we propose an end-to-end Guzheng playing technique detection system using Fully Convolutional Networks that can be applied to variable-length audio. Because each Guzheng playing technique is applied to a note, a dedicated onset detector is trained to divide an audio into several notes and its predictions are fused with frame-wise IPT predictions. During fusion, we add the IPT predictions frame by frame inside each note and get the IPT with the highest probability within each note as the final output of that note. We create a new dataset named GZ_IsoTech from multiple sound banks and real-world recordings for Guzheng performance analysis. Our approach achieves 87.97% in frame-level accuracy and 80.76% in note-level F1-score, outperforming existing works by a large margin, which indicates the effectiveness of our proposed method in IPT detection., Comment: Accepted to ISMIR 2022

Published
2022

42. Review and prospect of neoadjuvant chemoradiotherapy combined with immunotherapy in locally advanced rectal cancer

Author

WANG Yaqi, XIA Fan, ZHANG Zhen

Subjects
locally advanced rectal cancer(larc), neoadjuvant chemoradiotherapy, immunotherapy, complete response, organ preservation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Surgery, RD1-811
Abstract

For locally advanced rectal cancer (LARC), the standard treatment of neoadjuvant chemoradiotherapy (nCRT) followed by total mesorectal excision (TME) leaded to limited tumor regression grade and organ preservation rate, and didn’t decrease the rate of distant metastasis. Radiotherapy can promote the immune response and has good synergistic effect with immunotherapy, which is likely to overcome the treatment difficulty of the microsatellite stable(MSS) colorectal cancer. Recently, multiple clinical trials are ongoing in terms of the combination of nCRT and immunotherapy in LARC. Most of them have achieved promising complete response rates, providing new treatment options for preservation of organ functions in mid-low MSS LARC. Large-scale randomized controlled trials are needed in the future to validate these findings and explore the benefit of organ preservation and long-term survival. In addition, studies are still needed on the optimal combination patterns of radiotherapy and immunotherapy and the precise efficacy evaluation, etc.

Published
2024
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43. The complete chloroplast genome and phylogenetic analysis of Cyperus brevifolius (Rottb.) Hassk. 1844 (Cyperaceae)

Author

Xia Fan, Kai Yuan, and Yongliang Zheng

Subjects
Cyperus brevifolius, chloroplast genome, phylogenetic analysis, Genetics, QH426-470
Abstract

The medicinal plant Cyperus brevifolius (Rottb.) Hassk. 1844 has a long history of use in traditional Chinese medicine. In this study, we determined and systematically analyzed the complete chloroplast (cp) genome of C. brevifolius. The genome is 183,717 bp in length with a GC content of 33.24%. It comprises four distinct regions: a large-single copy (LSC) region of 101,190 bp, a small-single copy (SSC) region of 10,366 bp, and two inverted repeat (IR) regions of 36,079 bp each. A total of 137 genes are present in the genome including 89 protein-coding genes, 40 tRNA genes, and eight rRNA genes. Phylogenetic analysis reveals that C. brevifolius belongs to the Cyperus genus. This newly sequenced cp genome provides valuable insights for future genetic and genomic studies on Cyperus.

Published
2024
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44. A clinically relevant online patient QA solution with daily CT scans and EPID-based in vivo dosimetry: A feasible study on rectal cancer

Author

Chen, Liyuan, Zhang, Zhiyuan, Yu, Lei, Peng, Jiyou, Feng, Bin, Zhao, Jun, Liu, Yanfang, Xia, Fan, Zhang, Zhen, Hu, Weigang, and Wang, Jiazhou

Subjects
Physics - Medical Physics
Abstract

Adaptive radiation therapy (ART) could protect organs at risk (OARs) while maintain high dose coverage to targets. However, there still lack efficient online patient QA methods. We aim to develop a clinically relevant online patient quality assurance (QA) solution for ART using daily CT scans and electronic portal imaging device (EPID)-based in vivo dosimetry. Ten patients with rectal cancer at our center were included. Patients' daily CT scans and portal images were collected to generate reconstructed 3D dose distributions. Contours of targets and OARs were recontoured on these daily CT scans by a clinician or an auto-segmentation algorithm, then dose-volume indices were calculated, and the percent deviation of these indices to their original plans were determined. This deviation was regarded as the metric for clinically relevant patient QA. The tolerance level was obtained using a 95% interval of the QA metric distribution. These deviations could be further divided into anatomically relevant or delivery relevant indicators for error source analysis. Finally, our QA solution was validated on an additional six clinical patients. In rectal cancer, the lower and upper tolerance of the QA metric for PTV {\Delta}D95 (%) were [-3.11%, 2.35%], and for PTV {\Delta}D2 (%) were [-0.78%, 3.23%]. In validation, the 68% for PTV {\Delta}D95 (%) and the 79% for PTV {\Delta}D2 ({%)of the 28 fractions are within tolerances of the QA metrics. By using four or more out-of-tolerance QA metrics as an action level, there were 5 fractions (18%) have four or more out-of-tolerance QA metrics in validation patient dataset. The online patient QA solution using daily CT scans and EPID-based in vivo dosimetry is clinically feasible. Source of error analysis has the potential for distinguishing sources of error and guiding ART for future treatments.

Published
2022
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45. Application of WeChat-based cognitive behavioural stress management for early-stage cervical cancer patients: a randomised controlled study

Author

Qing Hao, Lan Feng, Dandan Chen, Xia Fan, Lei Wei, Zhaojun Cui, Jing Zhang, Lin Wang, Dan Zhang, Xinxin Zhan, and Wenping Yang

Subjects
Cervical cancer, WeChat, cognitive behavioural stress management, psychological well-being, quality of life, Gynecology and obstetrics, RG1-991
Abstract

Background This randomised controlled study was aimed at investigating the effects of WeChat-based cognitive behavioural stress management (WB-CBSM) on the mental health of patients with early-stage cervical cancer treated with surgical resection.Methods A total of 184 patients with early-stage cervical cancer were randomised to receive either WB-CBSM (n = 92) or normal care (NC) (n = 92) for 8 weeks.Results Compared with the NC group, the WB-CBSM group exhibited reduced Hospital Anxiety and Depression Scale (HADS)–anxiety scores at months (M)1 (t = 2.022, P = 0.045), M3 (t = 2.575, P = 0.011), and M6 (t = 2.709, P = 0.007); anxiety rates at M3 (χ2 = 4.834, P = 0.028) and M6 (χ2 = 5.182, P = 0.023); HADS–depression scores at M3 (t = 2.069, P = 0.040) and M6 (t = 2.449, P = 0.015); and depression rates at M6 (χ2 = 4.268, P = 0.039). Moreover, the WB-CBSM group showed increased Functional Assessment of Chronic Illness Therapy–Spiritual Well-Being scale scores at M1 (t = −2.001, P = 0.047), M3 (t = −2.281, P = 0.024), and M6 (t = −3.501, P = 0.001); the Quality of Life Questionnaire-Core 30 (QLQ-C30) global health score at M3 (t = −2.034, P = 0.043) and M6 (t = −2.426, P = 0.016); and QLQ-C30 function score at M3 (t = −2.009, P = 0.046). However, the groups exhibited decreased EuroQol-5 dimension scores at M3 (t = 2.056, P = 0.041) and M6 ((t = 2.242, P = 0.026) and QLQ-C30 symptom scores at M1 (t = 2.026, P = 0.044) and M3 (t = 2.210, P = 0.028).Conclusion WB-CBSM reduced anxiety and depression and improved the spiritual well-being and quality of life of patients with early-stage cervical cancer treated with surgical resection.

Published
2024
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46. High-SPL and Low-Driving-Voltage pMUTs by Sputtered Potassium Sodium Niobate

Author

Xia, Fan, Peng, Yande, Pala, Sedat, Arakawa, Ryuichi, Yue, Wei, Tsao, Pei-Chi, Chen, Chun-Ming, Liu, Hanxiao, Teng, Megan, Park, Jong Ha, and Lin, Liwei

Subjects
Engineering, Electronics, Sensors and Digital Hardware, Ultrasound, pMUT, acoustic pressure, low driving voltage, piezoelectric, KNN
Abstract

This work presents an air-coupled piezoelectric micromachined ultrasonic transducer (pMUT) with high transmitting acoustic pressure by using sputtered potassium sodium niobate (K,Na)NbO3 (KNN) thin film with a high piezoelectric coefficient (e31 ∼ 8-10 C/m2) and low dielectric constant (ϵr ∼ 260-300) for the first time. The fabricated KNN pMUT with a resonant frequency at 104.5 kHz has been tested to exhibit unprecedented results: (1) high sound pressure level (SPL) of 109 dB/V at a distance of 10 cm, which is 8 times higher than that of AlN-based pMUTs at a similar frequency; (2) low-voltage operation of only 4 volts peak-to-peak amplitude (Vp-p); and (3) good receiving sensitivity. As such, this work presents a new class of high-SPL and low-driving-voltage pMUTs for potential applications in various fields, including consumer electronics, such as but not limited to haptic feedback, loudspeaker, and AR/VR systems.

Published
2023

47. Auto-Positioning and Haptic Stimulations via A 35 mm Square Pmut Array

Author

Yue, Wei, Peng, Yande, Liu, Hanxiao, Xia, Fan, Sui, Fanping, Umezawa, Seiji, Ikeuchi, Shinsuke, Aida, Yasuhiro, and Lin, Liwei

Subjects
Information and Computing Sciences, Human-Centred Computing, Bioengineering, Networking and Information Technology R&D (NITRD), Clinical Research, Haptic Sensation, LN pMUT, Beamforming, Ultrasound
Abstract

This work reports an engineered platform for the non-contact haptic stimulation on human skins by means of an array of piezoelectric micromachined ultrasonic transducer (pMUT) via the beamforming scheme. Compared to the state-of-art reports, three distinctive achievements have been demonstrated: (1) individual single pMUT unit based on lithium niobate (LN) with measured high SPL (sound pressure level) of 133 dB at 2 mm away; (2) a beamforming scheme simulated and experimentally proved to generate ∼2.3x higher pressure near the focal point; and (3) the combination of auto-positioning and haptic stimulations on volunteers with the smallest reported physical device size to achieve haptic sensations. As such, this work could have practical applications in the broad areas to stimulate haptic sensations, such as AR (Augmented Reality), VR (Virtual Reality), and robotics.

Published
2023

48. PMUT Array for Mid-Air Thermal Display

Author

Xia, Fan, Deng, Huicong, Yue, Wei, Peng, Yande, Arakawa, Ryuichi, and Lin, Liwei

Subjects
Information and Computing Sciences, Engineering, Materials Engineering, Biomedical Imaging
Abstract

This paper presents a mid-air thermal interface enabled by a piezoelectric micromachined ultrasonic transducer (pMUT) array. The two-stage thermal actuating process consists of an ultrasound-transmission process via a pMUT array and an ultrasound-absorption process via porous fabric. The pMUT design employs sputtered potassium sodium niobate (K, Na)NbO3 (KNN) thin film with a high piezoelectric coefficient ( 31 ~ 8-10 C/m2) as piezoelectric layer for enhanced acoustic pressure. Testing results show that the prototype pMUT array has a resonant frequency around 97.6 kHz, and it can generate 1970 Pa of focal pressure at 15 mm away under the 10.6 Vp-p excitation. As a result, fabric temperature in the central focal area can rise from 24.2°C to 31.7°C after 320 seconds with an average temperature variation rate of 0.023°C /s. Moreover, thermal sensations on the human palms have been realized by the heat conduction through the fabric-skin contact. As such, this work highlights the promising application of pMUT array with high acoustic pressure for human-machine interface, particularly mid-air thermal display.

Published
2023

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