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40 results on '"Cao, Xixin"'

1. Gaussian Primitives for Deformable Image Registration

Author

Li, Jihe, Liu, Xiang, Zhang, Fabian, Li, Xia, Cao, Xixin, Zhang, Ye, and Buhmann, Joachim

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Deformable Image Registration (DIR) is essential for aligning medical images that exhibit anatomical variations, facilitating applications such as disease tracking and radiotherapy planning. While classical iterative methods and deep learning approaches have achieved success in DIR, they are often hindered by computational inefficiency or poor generalization. In this paper, we introduce GaussianDIR, a novel, case-specific optimization DIR method inspired by 3D Gaussian splatting. In general, GaussianDIR represents image deformations using a sparse set of mobile and flexible Gaussian primitives, each defined by a center position, covariance, and local rigid transformation. This compact and explicit representation reduces noise and computational overhead while improving interpretability. Furthermore, the movement of individual voxel is derived via blending the local rigid transformation of the neighboring Gaussian primitives. By this, GaussianDIR captures both global smoothness and local rigidity as well as reduces the computational burden. To address varying levels of deformation complexity, GaussianDIR also integrates an adaptive density control mechanism that dynamically adjusts the density of Gaussian primitives. Additionally, we employ multi-scale Gaussian primitives to capture both coarse and fine deformations, reducing optimization to local minima. Experimental results on brain MRI, lung CT, and cardiac MRI datasets demonstrate that GaussianDIR outperforms existing DIR methods in both accuracy and efficiency, highlighting its potential for clinical applications. Finally, as a training-free approach, it challenges the stereotype that iterative methods are inherently slow and transcend the limitations of poor generalization.

Published
2024

2. PKU-AIGIQA-4K: A Perceptual Quality Assessment Database for Both Text-to-Image and Image-to-Image AI-Generated Images

Author

Yuan, Jiquan, Yang, Fanyi, Li, Jihe, Cao, Xinyan, Che, Jinming, Lin, Jinlong, and Cao, Xixin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In recent years, image generation technology has rapidly advanced, resulting in the creation of a vast array of AI-generated images (AIGIs). However, the quality of these AIGIs is highly inconsistent, with low-quality AIGIs severely impairing the visual experience of users. Due to the widespread application of AIGIs, the AI-generated image quality assessment (AIGIQA), aimed at evaluating the quality of AIGIs from the perspective of human perception, has garnered increasing interest among scholars. Nonetheless, current research has not yet fully explored this field. We have observed that existing databases are limited to images generated from single scenario settings. Databases such as AGIQA-1K, AGIQA-3K, and AIGCIQA2023, for example, only include images generated by text-to-image generative models. This oversight highlights a critical gap in the current research landscape, underscoring the need for dedicated databases catering to image-to-image scenarios, as well as more comprehensive databases that encompass a broader range of AI-generated image scenarios. Addressing these issues, we have established a large scale perceptual quality assessment database for both text-to-image and image-to-image AIGIs, named PKU-AIGIQA-4K. We then conduct a well-organized subjective experiment to collect quality labels for AIGIs and perform a comprehensive analysis of the PKU-AIGIQA-4K database. Regarding the use of image prompts during the training process, we propose three image quality assessment (IQA) methods based on pre-trained models that include a no-reference method NR-AIGCIQA, a full-reference method FR-AIGCIQA, and a partial-reference method PR-AIGCIQA. Finally, leveraging the PKU-AIGIQA-4K database, we conduct extensive benchmark experiments and compare the performance of the proposed methods and the current IQA methods., Comment: 12 pages. arXiv admin note: substantial text overlap with arXiv:2311.15556

Published
2024

3. Dynamic Texture Transfer using PatchMatch and Transformers

Author

Pu, Guo, Xu, Shiyao, Cao, Xixin, and Lian, Zhouhui

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

How to automatically transfer the dynamic texture of a given video to the target still image is a challenging and ongoing problem. In this paper, we propose to handle this task via a simple yet effective model that utilizes both PatchMatch and Transformers. The key idea is to decompose the task of dynamic texture transfer into two stages, where the start frame of the target video with the desired dynamic texture is synthesized in the first stage via a distance map guided texture transfer module based on the PatchMatch algorithm. Then, in the second stage, the synthesized image is decomposed into structure-agnostic patches, according to which their corresponding subsequent patches can be predicted by exploiting the powerful capability of Transformers equipped with VQ-VAE for processing long discrete sequences. After getting all those patches, we apply a Gaussian weighted average merging strategy to smoothly assemble them into each frame of the target stylized video. Experimental results demonstrate the effectiveness and superiority of the proposed method in dynamic texture transfer compared to the state of the art.

Published
2024

4. TIER: Text-Image Encoder-based Regression for AIGC Image Quality Assessment

Author

Yuan, Jiquan, Cao, Xinyan, Che, Jinming, Wang, Qinyuan, Liang, Sen, Ren, Wei, Lin, Jinlong, and Cao, Xixin

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

Recently, AIGC image quality assessment (AIGCIQA), which aims to assess the quality of AI-generated images (AIGIs) from a human perception perspective, has emerged as a new topic in computer vision. Unlike common image quality assessment tasks where images are derived from original ones distorted by noise, blur, and compression, \textit{etc.}, in AIGCIQA tasks, images are typically generated by generative models using text prompts. Considerable efforts have been made in the past years to advance AIGCIQA. However, most existing AIGCIQA methods regress predicted scores directly from individual generated images, overlooking the information contained in the text prompts of these images. This oversight partially limits the performance of these AIGCIQA methods. To address this issue, we propose a text-image encoder-based regression (TIER) framework. Specifically, we process the generated images and their corresponding text prompts as inputs, utilizing a text encoder and an image encoder to extract features from these text prompts and generated images, respectively. To demonstrate the effectiveness of our proposed TIER method, we conduct extensive experiments on several mainstream AIGCIQA databases, including AGIQA-1K, AGIQA-3K, and AIGCIQA2023. The experimental results indicate that our proposed TIER method generally demonstrates superior performance compared to baseline in most cases., Comment: 12 pages, 8 figures. arXiv admin note: text overlap with arXiv:2312.05897

Published
2024

5. PSCR: Patches Sampling-based Contrastive Regression for AIGC Image Quality Assessment

Author

Yuan, Jiquan, Cao, Xinyan, Cao, Linjing, Lin, Jinlong, and Cao, Xixin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In recent years, Artificial Intelligence Generated Content (AIGC) has gained widespread attention beyond the computer science community. Due to various issues arising from continuous creation of AI-generated images (AIGI), AIGC image quality assessment (AIGCIQA), which aims to evaluate the quality of AIGIs from human perception perspectives, has emerged as a novel topic in the field of computer vision. However, most existing AIGCIQA methods directly regress predicted scores from a single generated image, overlooking the inherent differences among AIGIs and scores. Additionally, operations like resizing and cropping may cause global geometric distortions and information loss, thus limiting the performance of models. To address these issues, we propose a patches sampling-based contrastive regression (PSCR) framework. We suggest introducing a contrastive regression framework to leverage differences among various generated images for learning a better representation space. In this space, differences and score rankings among images can be measured by their relative scores. By selecting exemplar AIGIs as references, we also overcome the limitations of previous models that could not utilize reference images on the no-reference image databases. To avoid geometric distortions and information loss in image inputs, we further propose a patches sampling strategy. To demonstrate the effectiveness of our proposed PSCR framework, we conduct extensive experiments on three mainstream AIGCIQA databases including AGIQA-1K, AGIQA-3K and AIGCIQA2023. The results show significant improvements in model performance with the introduction of our proposed PSCR framework. Code will be available at \url{https://github.com/jiquan123/PSCR}., Comment: 17 pages, 6 figures

Published
2023

6. Logit Adjustment with Normalization and Augmentation in Few-Shot Named Entity Recognition

Author

Zhang, Jinglei, Wen, Guochang, Liao, NingLin, Du, DongDong, Gao, Qing, Zhang, Minghui, Cao, XiXin, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Cao, Cungeng, editor, Chen, Huajun, editor, Zhao, Liang, editor, Arshad, Junaid, editor, Asyhari, Taufiq, editor, and Wang, Yonghao, editor

Published
2024
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7. MixCL: Mixed Contrastive Learning for Relation Extraction

Author

Zhang, Jinglei, Li, Bo, Cao, Xixin, Zhang, Minghui, Zhao, Wen, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Yang, De-Nian, editor, Xie, Xing, editor, Tseng, Vincent S., editor, Pei, Jian, editor, Huang, Jen-Wei, editor, and Lin, Jerry Chun-Wei, editor

Published
2024
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9. Multimodal Affective States Recognition Based on Multiscale CNNs and Biologically Inspired Decision Fusion Model

Author

Zhao, Yuxuan, Cao, Xinyan, Lin, Jinlong, Yu, Dunshan, and Cao, Xixin

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Human-Computer Interaction, Computer Science - Machine Learning
Abstract

There has been an encouraging progress in the affective states recognition models based on the single-modality signals as electroencephalogram (EEG) signals or peripheral physiological signals in recent years. However, multimodal physiological signals-based affective states recognition methods have not been thoroughly exploited yet. Here we propose Multiscale Convolutional Neural Networks (Multiscale CNNs) and a biologically inspired decision fusion model for multimodal affective states recognition. Firstly, the raw signals are pre-processed with baseline signals. Then, the High Scale CNN and Low Scale CNN in Multiscale CNNs are utilized to predict the probability of affective states output for EEG and each peripheral physiological signal respectively. Finally, the fusion model calculates the reliability of each single-modality signals by the Euclidean distance between various class labels and the classification probability from Multiscale CNNs, and the decision is made by the more reliable modality information while other modalities information is retained. We use this model to classify four affective states from the arousal valence plane in the DEAP and AMIGOS dataset. The results show that the fusion model improves the accuracy of affective states recognition significantly compared with the result on single-modality signals, and the recognition accuracy of the fusion result achieve 98.52% and 99.89% in the DEAP and AMIGOS dataset respectively., Comment: 21 pages, 11 figures, 8 tables

Published
2019
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13. Effective Barcode Hunter via Semantic Segmentation in the Wild

Author

Ni, Feng, Cao, Xixin, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Ro, Yong Man, editor, Cheng, Wen-Huang, editor, Kim, Junmo, editor, Chu, Wei-Ta, editor, Cui, Peng, editor, Choi, Jung-Woo, editor, Hu, Min-Chun, editor, and De Neve, Wesley, editor

Published
2020
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15. Optimization of Convolution Neural Network Algorithm Based on FPGA

Author

Tang, Feixue, Zhang, Weichao, Tian, Xiaogang, Fan, Xiaoye, Cao, Xixin, Barbosa, Simone Diniz Junqueira, Series Editor, Filipe, Joaquim, Series Editor, Kotenko, Igor, Series Editor, Sivalingam, Krishna M., Series Editor, Washio, Takashi, Series Editor, Yuan, Junsong, Series Editor, Zhou, Lizhu, Series Editor, Bi, Yuanguo, editor, Chen, Gang, editor, Deng, Qingxu, editor, and Wang, Yi, editor

Published
2018
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16. A TEE-Based Federated Privacy Protection Method: Proposal and Implementation.

Author

Zhang, Libo, Duan, Bing, Li, Jinlong, Ma, Zhan'gang, and Cao, Xixin

Subjects
FEDERATED learning, PRIVACY, DATA integrity, MACHINE learning, DATA protection, DATA modeling
Abstract

With the continuous enhancement of privacy protection globally, there is a problem for the traditional machine learning paradigm, which is that training data cannot be obtained from a single place. Federated learning is considered a viable technique for preserving privacy that can train deep models with decentralized data. Aiming at two-party vertical federated learning, and at common attack problems such as model inversion, gradient leakage, and data theft, we provide a formal definition of Intel SGX's trusted computing base, remote attestation, integrity verification, and encrypted storage, and propose a general federated learning privacy enhancement algorithm in the scenario of a malicious adversary model, and we extend this method to support horizontal federated learning, secure outsourced computation, etc. Furthermore, the method is developed in a Fedlearner framework of open-sourced machine learning to achieve privacy protection of the training data and model without any modification to the existing neural network and algorithm running on the framework. The experimental results show that this scheme substantially improves on the existing schemes in terms of training efficiency, without losing model accuracy. [ABSTRACT FROM AUTHOR]

Published
2024
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19. PKU-I2IQA: An Image-to-Image Quality Assessment Database for AI Generated Images

Author

Yuan, Jiquan, Cao, Xinyan, Li, Changjin, Yang, Fanyi, Lin, Jinlong, Cao, Xixin, Yuan, Jiquan, Cao, Xinyan, Li, Changjin, Yang, Fanyi, Lin, Jinlong, and Cao, Xixin

Abstract

As image generation technology advances, AI-based image generation has been applied in various fields and Artificial Intelligence Generated Content (AIGC) has garnered widespread attention. However, the development of AI-based image generative models also brings new problems and challenges. A significant challenge is that AI-generated images (AIGI) may exhibit unique distortions compared to natural images, and not all generated images meet the requirements of the real world. Therefore, it is of great significance to evaluate AIGIs more comprehensively. Although previous work has established several human perception-based AIGC image quality assessment (AIGCIQA) databases for text-generated images, the AI image generation technology includes scenarios like text-to-image and image-to-image, and assessing only the images generated by text-to-image models is insufficient. To address this issue, we establish a human perception-based image-to-image AIGCIQA database, named PKU-I2IQA. We conduct a well-organized subjective experiment to collect quality labels for AIGIs and then conduct a comprehensive analysis of the PKU-I2IQA database. Furthermore, we have proposed two benchmark models: NR-AIGCIQA based on the no-reference image quality assessment method and FR-AIGCIQA based on the full-reference image quality assessment method. Finally, leveraging this database, we conduct benchmark experiments and compare the performance of the proposed benchmark models. The PKU-I2IQA database and benchmarks will be released to facilitate future research on \url{https://github.com/jiquan123/I2IQA}., Comment: 18 pages

Published
2023

28. A new high throughput VLSI architecture for H.264 transform and quantization

Author

Yu Dunshan, Cao Xixin, Peng Chungan, and Sheng Shimin

Subjects
Very-large-scale integration, Vlsi architecture, Scalar quantization, Computer science, Quantization (signal processing), Digital video, Electronic engineering, Throughput (business), Coding (social sciences), Computational science
Abstract

Hybrid transform and scalar quantization is a key component in ITU-T H.264, and mathematic analysis and decomposition are elaborately made for its hardware implementation, the calculation process is simplified, all time-consuming and hardware expensive multiplication and division are avoided effectively. A new block parallel VLSI architecture mainly containing a 2D direct hybrid transform engine and a full wiring 52-level scalar quantizer is proposed. It is very suitable for pipeline acceleration, and the block throughput rate can reach 156 M/s with one register row inserted, which can satisfy 4096times2304@150 Hz digital video coding in real-time easily, even all macroblocks are predicted with intra_16times16 mode.

Published
2007

29. A 250MHz optimized distributed architecture of 2D 8x8 DCT

Author

Cao Xixin, Peng Chungan, Zhang Xing, and Yu Dunshan

Subjects
Adder, Channel (digital image), Computer science, business.industry, Trellis quantization, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Data_CODINGANDINFORMATIONTHEORY, Column (database), Transpose, Discrete cosine transform, Hardware_ARITHMETICANDLOGICSTRUCTURES, business, Computer hardware, Image compression, Data compression
Abstract

Discrete cosine transform (DCT) plays an important role in image and video compression, but computing a two-dimensional (2D) DCT, a large number of multiplications and additions are required in a direct approach. Multiplications, which are the most time-consuming and expensive operations in simple processor, can be completely avoided in our proposed architecture for multiple channel real-time image compression. In this paper, a compressed distributed arithmetic architecture for 2D 8times8 DCT is presented, which offers high speed and small area. The basic architecture consists of a ID row DCT followed by a transpose register array and another ID column DCT, in which an 8-input ID DCT structure only requires 15 adders to build a compressed adder matrix and no ROM is needed. Compared with other architectures available, it has a great improvement on computing speed and reducing area.

Published
2007

36. A variable structure compensation fuzzy neural network and identification.

Author

Liu, Jing, Cao, Yalu, Wang, Ping, Peng, Li, Lian, Renchun, and Cao, Xixin

Abstract

The compensation fuzzy neural network (CFNN) with fast learning algorithm and compensation fuzzy inference is proposed in this paper. And a new variable structure compensation fuzzy neural network (VS-CFNN) is proposed on the basic of CFNN. The fuzzy rules of the nodes are changed with the input nodes. The triangular function and parameter choosing methods have been given. At the mean time, the parameters have also been adjusted through BP algorithm. Simulation results verify that the VS-CFNN has higher identification precision and faster identification speed than the ordinary FNN in identification. The proposed method has also been implemented to identify the Krasnosel'skii's hysteron hysteresis model parameters of an electrical valve actuator installed on a pneumatic system. Three types of sensors (actuator position, air pressure and mass airflow rate) are used to investigate the hysteresis model parameter identification using the proposed VS-CFNN method. The experimental results have demonstrated the effectiveness of the proposed method. [ABSTRACT FROM PUBLISHER]

Published
2012

37. An open, flexible and multilevel data storing and processing platform for very large scale sensor network.

Author

Liu, Jing, Chen, Jing, Peng, Li, Cao, Xixin, Lian, Renchun, and Wang, Ping

Abstract

All kinds of sensor network have been deployed all over the world. Combining some of these networks, we can get a larger sensor network. The data of very large scale sensor network are polymorphous, heterogeneous, large in quantity and time-limited. In its application, how to store and process these data has become a key technology. [ABSTRACT FROM PUBLISHER]

Published
2012

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