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1. RGM: Reconstructing High-fidelity 3D Car Assets with Relightable 3D-GS Generative Model from a Single Image

Author

Chen, Xiaoxue, Zheng, Jv, Huang, Hao, Xu, Haoran, Gu, Weihao, Chen, Kangliang, xiang, He, Gao, Huan-ang, Zhao, Hao, Zhou, Guyue, and Zhang, Yaqin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The generation of high-quality 3D car assets is essential for various applications, including video games, autonomous driving, and virtual reality. Current 3D generation methods utilizing NeRF or 3D-GS as representations for 3D objects, generate a Lambertian object under fixed lighting and lack separated modelings for material and global illumination. As a result, the generated assets are unsuitable for relighting under varying lighting conditions, limiting their applicability in downstream tasks. To address this challenge, we propose a novel relightable 3D object generative framework that automates the creation of 3D car assets, enabling the swift and accurate reconstruction of a vehicle's geometry, texture, and material properties from a single input image. Our approach begins with introducing a large-scale synthetic car dataset comprising over 1,000 high-precision 3D vehicle models. We represent 3D objects using global illumination and relightable 3D Gaussian primitives integrating with BRDF parameters. Building on this representation, we introduce a feed-forward model that takes images as input and outputs both relightable 3D Gaussians and global illumination parameters. Experimental results demonstrate that our method produces photorealistic 3D car assets that can be seamlessly integrated into road scenes with different illuminations, which offers substantial practical benefits for industrial applications.

Published
2024

2. Policy Bifurcation in Safe Reinforcement Learning

Author

Zou, Wenjun, Lyu, Yao, Li, Jie, Yang, Yujie, Li, Shengbo Eben, Duan, Jingliang, Zhan, Xianyuan, Liu, Jingjing, Zhang, Yaqin, and Li, Keqiang

Subjects
Computer Science - Machine Learning
Abstract

Safe reinforcement learning (RL) offers advanced solutions to constrained optimal control problems. Existing studies in safe RL implicitly assume continuity in policy functions, where policies map states to actions in a smooth, uninterrupted manner; however, our research finds that in some scenarios, the feasible policy should be discontinuous or multi-valued, interpolating between discontinuous local optima can inevitably lead to constraint violations. We are the first to identify the generating mechanism of such a phenomenon, and employ topological analysis to rigorously prove the existence of policy bifurcation in safe RL, which corresponds to the contractibility of the reachable tuple. Our theorem reveals that in scenarios where the obstacle-free state space is non-simply connected, a feasible policy is required to be bifurcated, meaning its output action needs to change abruptly in response to the varying state. To train such a bifurcated policy, we propose a safe RL algorithm called multimodal policy optimization (MUPO), which utilizes a Gaussian mixture distribution as the policy output. The bifurcated behavior can be achieved by selecting the Gaussian component with the highest mixing coefficient. Besides, MUPO also integrates spectral normalization and forward KL divergence to enhance the policy's capability of exploring different modes. Experiments with vehicle control tasks show that our algorithm successfully learns the bifurcated policy and ensures satisfying safety, while a continuous policy suffers from inevitable constraint violations.

Published
2024

3. Intelligent Detection System for Metro Tunnel Lining Defects Based on Deep Learning Method

Author

ZHANG Yue, HAN Jing, GUAN Qifeng, HOU Jue, LU Tingting, and ZHANG Yaqin

Subjects
metro, tunnel lining defect, intelligent detection, crack identification, water seepage identification, image algorithm, deep learning, Transportation engineering, TA1001-1280
Abstract

Objective The main defects on metro tunnel inner wall are cracks and water seepage. Current detection methods based on manual and semi-automatic equipment have problems such as high intensity, low efficiency, and low reliability. The intelligence-based detection/identification algorithm and detection system should be studied to realize informative and intelligent detection for metro tunnel lining defects. Method The current status of metro tunnel defect inspection technology is analyzed, and a set of algorithms applicable to the identification of metro tunnel lining defects are put forward, mainly including image processing algorithm, defect category detection algorithm, and defect grading detection algorithm, etc. Four indexes are chosen to evaluate the detection effect of the identification algorithm. Furthermore, an intelligent detection system for metro tunnel lining defects based on deep learning method is established from both software and hardware aspects. Finally, the system is implemented on Beingjing Metro Line 3 to analyze the reliability of its on-site application. Result & Conclusion After the application of the intelligent detection system, the detection rate of metro tunnel lining crack defects reaches 91.95% with a false detection rate of 0.89%. The detection rate of seepage defect is 93.83% and the false detection rate 0.65%. This system can be used as the core intelligent detection platform of metro tunnel, effectively detecting various defects in metro tunnel.

Published
2024
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4. AutoDroid: LLM-powered Task Automation in Android

Author

Wen, Hao, Li, Yuanchun, Liu, Guohong, Zhao, Shanhui, Yu, Tao, Li, Toby Jia-Jun, Jiang, Shiqi, Liu, Yunhao, Zhang, Yaqin, and Liu, Yunxin

Subjects
Computer Science - Artificial Intelligence, Computer Science - Software Engineering
Abstract

Mobile task automation is an attractive technique that aims to enable voice-based hands-free user interaction with smartphones. However, existing approaches suffer from poor scalability due to the limited language understanding ability and the non-trivial manual efforts required from developers or end-users. The recent advance of large language models (LLMs) in language understanding and reasoning inspires us to rethink the problem from a model-centric perspective, where task preparation, comprehension, and execution are handled by a unified language model. In this work, we introduce AutoDroid, a mobile task automation system capable of handling arbitrary tasks on any Android application without manual efforts. The key insight is to combine the commonsense knowledge of LLMs and domain-specific knowledge of apps through automated dynamic analysis. The main components include a functionality-aware UI representation method that bridges the UI with the LLM, exploration-based memory injection techniques that augment the app-specific domain knowledge of LLM, and a multi-granularity query optimization module that reduces the cost of model inference. We integrate AutoDroid with off-the-shelf LLMs including online GPT-4/GPT-3.5 and on-device Vicuna, and evaluate its performance on a new benchmark for memory-augmented Android task automation with 158 common tasks. The results demonstrated that AutoDroid is able to precisely generate actions with an accuracy of 90.9%, and complete tasks with a success rate of 71.3%, outperforming the GPT-4-powered baselines by 36.4% and 39.7%. The demo, benchmark suites, and source code of AutoDroid will be released at url{https://autodroid-sys.github.io/}., Comment: Published in MobiCom 2024; Original title: "Empowering LLM to use Smartphone for Intelligent Task Automation"

Published
2023

5. AIGC Empowering Telecom Sector White Paper_chinese

Author

Ouyang, Ye, Zhang, Yaqin, Ye, Xiaozhou, Liu, Yunxin, Song, Yong, Liu, Yang, Bian, Sen, and Liu, Zhiyong

Subjects
Computer Science - Artificial Intelligence
Abstract

In the global craze of GPT, people have deeply realized that AI, as a transformative technology and key force in economic and social development, will bring great leaps and breakthroughs to the global industry and profoundly influence the future world competition pattern. As the builder and operator of information and communication infrastructure, the telecom sector provides infrastructure support for the development of AI, and even takes the lead in the implementation of AI applications. How to enable the application of AIGC (GPT) and implement AIGC in the telecom sector are questions that telecom practitioners must ponder and answer. Through the study of GPT, a typical representative of AIGC, the authors have analyzed how GPT empowers the telecom sector in the form of scenarios, discussed the gap between the current GPT general model and telecom services, proposed for the first time a Telco Augmented Cognition capability system, provided answers to how to construct a telecom service GPT in the telecom sector, and carried out various practices. Our counterparts in the industry are expected to focus on collaborative innovation around telecom and AI, build an open and shared innovation ecosystem, promote the deep integration of AI and telecom sector, and accelerate the construction of next-generation information infrastructure, in an effort to facilitate the digital transformation of the economy and society.

Published
2023

6. 6G Network Business Support System

Author

Ouyang, Ye, Zhang, Yaqin, Wang, Peng, Liu, Yunxin, Qiao, Wen, Zhu, Jun, Liu, Yang, Zhang, Feng, Wang, Shuling, and Wang, Xidong

Subjects
Computer Science - Artificial Intelligence
Abstract

6G is the next-generation intelligent and integrated digital information infrastructure, characterized by ubiquitous interconnection, native intelligence, multi-dimensional perception, global coverage, green and low-carbon, native network security, etc. 6G will realize the transition from serving people and people-things communication to supporting the efficient connection of intelligent agents, and comprehensively leading the digital, intelligent and green transformation of the economy and the society. As the core support system for mobile communication network, 6 6G BSS need to integrate with new business models brought about by the development of the next-generation Internet and IT, upgrade from "network-centric" to "business and service centric" and "customer-centric". 6G OSS and BSS systems need to strengthen their integration to improve the operational efficiency and benefits of customers by connecting the digital intelligence support capabilities on both sides of supply and demand. This paper provides a detailed introduction to the overall vision, potential key technologies, and functional architecture of 6G BSS systems. It also presents an evolutionary roadmap and technological prospects for the BSS systems from 5G to 6G.

Published
2023

7. 6G Network Operation Support System

Author

Ouyang, Ye, Zhang, Yaqin, Ye, Xiaozhou, Liu, Yunxin, Wang, Xidong, Sun, Jie, Liu, Yang, Wang, Shoufeng, Bian, Sen, and Li, Yun

Subjects
Computer Science - Networking and Internet Architecture
Abstract

6G is the next-generation intelligent and integrated digital information infrastructure, characterized by ubiquitous interconnection, native intelligence, multi-dimensional perception, global coverage, green and low-carbon, native network security, etc. 6G will realize the transition from serving people and people-things communication to supporting the efficient connection of intelligent agents, and comprehensively leading the digital, intelligent and green transformation of the economy and the society. As the core support system for mobile communication network, 6G OSS needs to achieve high-level network automation, intelligence and digital twinning capabilities to achieve end-to-end autonomous network operation and maintenance, support the operation of typical 6G business scenarios and play a greater social responsibility in the fields of environment, society, and governance (ESG).This paper provides a detailed introduction to the overall vision, potential key technologies, and functional architecture of 6G OSS . It also presents an evolutionary roadmap and technological prospects for the OSS from 5G to 6G., Comment: 103 pages, 20 figures, 52 references (chinese version)

Published
2023

24. Amine-Responsive Anthocyanin-Loaded Hydrogel for Monitoring the Freshness of Fish and Shrimp

Author

DONG Shengye, ZHANG Yaqin, FU Zhaodi, SHI Xingbo

Subjects
purple sweet potato anthocyanins, hydrogel, aquatic products, freshness, red, green and blue method, Food processing and manufacture, TP368-456
Abstract

A visual, non-destructive method for monitoring fish and shrimp freshness was established using an amine-responsive agarose hydrogel loaded with purple sweet potato anthocyanin (PSPA). Trimethylamine (TMA) was selected as an indicator of fish and shrimp spoilage. The redshift of the absorption peak of PSPA hydrogels after reaction with different concentrations of TMA (0–194.22 × 10-9 mol/L) was investigated. The red (R), green (G), and blue (B) channel values of the hydrogels were analyzed using smartphone imaging combined with the Image J software. The concentration of TMA was quantified using G/R as the output signal. The limit of detection (LOD) was 0.84 × 10-9 mol/L and the linear range was 8.78 × 10-9–19.386 × 10-9 mol/L (R2 = 0.992 1). When used to detect the freshness of fish and shrimp, the proposed method showed a good correlation with the national standard method for measuring total volatile basic nitrogen (TVB-N) content with a Pearson correlation coefficient of 0.998 4 and 0.996 6, respectively. Due to the application of functional hydrogel and the introduction of smartphones, the method had the advantages of simplicity, non-destructiveness, and portability. This study provides a new method for on-site monitoring the real-time freshness of aquatic products, which has a broad application prospect in the field of aquatic food safety detection.

Published
2023
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26. Boosting ship detection in SAR images with complementary pretraining techniques

Author

Bao, Wei, Huang, Meiyu, Zhang, Yaqin, Xu, Yao, Liu, Xuejiao, and Xiang, Xueshuang

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

Deep learning methods have made significant progress in ship detection in synthetic aperture radar (SAR) images. The pretraining technique is usually adopted to support deep neural networks-based SAR ship detectors due to the scarce labeled SAR images. However, directly leveraging ImageNet pretraining is hardly to obtain a good ship detector because of different imaging perspective and geometry. In this paper, to resolve the problem of inconsistent imaging perspective between ImageNet and earth observations, we propose an optical ship detector (OSD) pretraining technique, which transfers the characteristics of ships in earth observations to SAR images from a large-scale aerial image dataset. On the other hand, to handle the problem of different imaging geometry between optical and SAR images, we propose an optical-SAR matching (OSM) pretraining technique, which transfers plentiful texture features from optical images to SAR images by common representation learning on the optical-SAR matching task. Finally, observing that the OSD pretraining based SAR ship detector has a better recall on sea area while the OSM pretraining based SAR ship detector can reduce false alarms on land area, we combine the predictions of the two detectors through weighted boxes fusion to further improve detection results. Extensive experiments on four SAR ship detection datasets and two representative CNN-based detection benchmarks are conducted to show the effectiveness and complementarity of the two proposed detectors, and the state-of-the-art performance of the combination of the two detectors. The proposed method won the sixth place of ship detection in SAR images in 2020 Gaofen challenge.

Published
2021

27. The QXS-SAROPT Dataset for Deep Learning in SAR-Optical Data Fusion

Author

Huang, Meiyu, Xu, Yao, Qian, Lixin, Shi, Weili, Zhang, Yaqin, Bao, Wei, Wang, Nan, Liu, Xuejiao, and Xiang, Xueshuang

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

Deep learning techniques have made an increasing impact on the field of remote sensing. However, deep neural networks based fusion of multimodal data from different remote sensors with heterogenous characteristics has not been fully explored, due to the lack of availability of big amounts of perfectly aligned multi-sensor image data with diverse scenes of high resolutions, especially for synthetic aperture radar (SAR) data and optical imagery. To promote the development of deep learning based SAR-optical fusion approaches, we release the QXS-SAROPT dataset, which contains 20,000 pairs of SAR-optical image patches. We obtain the SAR patches from SAR satellite GaoFen-3 images and the optical patches from Google Earth images. These images cover three port cities: San Diego, Shanghai and Qingdao. Here, we present a detailed introduction of the construction of the dataset, and show its two representative exemplary applications, namely SAR-optical image matching and SAR ship detection boosted by cross-modal information from optical images. As a large open SAR-optical dataset with multiple scenes of a high resolution, we believe QXS-SAROPT will be of potential value for further research in SAR-optical data fusion technology based on deep learning.

Published
2021

28. The Next Decade of Telecommunications Artificial Intelligence

Author

Ouyang, Ye, Wang, Lilei, Yang, Aidong, Shah, Maulik, Belanger, David, Gao, Tongqing, Wei, Leping, and Zhang, Yaqin

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Artificial Intelligence
Abstract

It has been an exciting journey since the mobile communications and artificial intelligence were conceived 37 years and 64 years ago. While both fields evolved independently and profoundly changed communications and computing industries, the rapid convergence of 5G and deep learning is beginning to significantly transform the core communication infrastructure, network management and vertical applications. The paper first outlines the individual roadmaps of mobile communications and artificial intelligence in the early stage, with a concentration to review the era from 3G to 5G when AI and mobile communications started to converge. With regard to telecommunications artificial intelligence, the paper further introduces in detail the progress of artificial intelligence in the ecosystem of mobile communications. The paper then summarizes the classifications of AI in telecom ecosystems along with its evolution paths specified by various international telecommunications standardization bodies. Towards the next decade, the paper forecasts the prospective roadmap of telecommunications artificial intelligence. In line with 3GPP and ITU-R timeline of 5G & 6G, the paper further explores the network intelligence following 3GPP and ORAN routes respectively, experience and intention driven network management and operation, network AI signalling system, intelligent middle-office based BSS, intelligent customer experience management and policy control driven by BSS and OSS convergence, evolution from SLA to ELA, and intelligent private network for verticals. The paper is concluded with the vision that AI will reshape the future B5G or 6G landscape and we need pivot our R&D, standardizations, and ecosystem to fully take the unprecedented opportunities., Comment: 50 pages in English 24 figures. (Note version 5 is 19 pages, in Chinese, with 24 figures)

Published
2021
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33. Progress of photobiological hydrogen production by green algae(绿藻光合产氢的研究进展)

Author

张亚琴(ZHANG Yaqin)

Subjects
Electronic computers. Computer science, QA75.5-76.95, Physics, QC1-999
Abstract

绿藻光合产氢具有能量转化效率高、环境友好、原料丰富等优势,在太阳能利用和氢能生产方面具有光明的应用前景。从绿藻光合产氢的生物学机理出发,分析了限制绿藻光合产氢的潜在因素,总结了各类提升绿藻光合产氢效率的方法,并简要评述了绿藻光合产氢实现商业化应用所面临的主要问题及发展趋势,为未来绿藻光合产氢的大规模应用提供参考。

Published
2023
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37. Combating viral contaminants in CHO cells by engineering innate immunity.

Author

Chiang, Austin WT, Li, Shangzhong, Kellman, Benjamin P, Chattopadhyay, Gouri, Zhang, Yaqin, Kuo, Chih-Chung, Gutierrez, Jahir M, Ghazi, Faezeh, Schmeisser, Hana, Ménard, Patrice, Bjørn, Sara Petersen, Voldborg, Bjørn G, Rosenberg, Amy S, Puig, Montserrat, and Lewis, Nathan E

Abstract

Viral contamination in biopharmaceutical manufacturing can lead to shortages in the supply of critical therapeutics. To facilitate the protection of bioprocesses, we explored the basis for the susceptibility of CHO cells to RNA virus infection. Upon infection with certain ssRNA and dsRNA viruses, CHO cells fail to generate a significant interferon (IFN) response. Nonetheless, the downstream machinery for generating IFN responses and its antiviral activity is intact in these cells: treatment of cells with exogenously-added type I IFN or poly I:C prior to infection limited the cytopathic effect from Vesicular stomatitis virus (VSV), Encephalomyocarditis virus (EMCV), and Reovirus-3 virus (Reo-3) in a STAT1-dependent manner. To harness the intrinsic antiviral mechanism, we used RNA-Seq to identify two upstream repressors of STAT1: Gfi1 and Trim24. By knocking out these genes, the engineered CHO cells exhibited activation of cellular immune responses and increased resistance to the RNA viruses tested. Thus, omics-guided engineering of mammalian cell culture can be deployed to increase safety in biotherapeutic protein production among many other biomedical applications.

Published
2019

41. Trapped in Endosome PEGylated Ultra‐Small Iron Oxide Nanoparticles Enable Extraordinarily High MR Imaging Contrast for Hepatocellular Carcinomas.

Author

Zhou, Dandan, Shan, Shanshan, Chen, Lei, Li, Cang, Wang, Hongzhao, Lu, Kuan, Ge, Jianxian, Wang, Ning, Afshari, Mohammad Javad, Zhang, Yaqin, Zeng, Jianfeng, and Gao, Mingyuan

Subjects
CONTRAST media, MAGNETIC resonance imaging, HEPATOCELLULAR carcinoma, EARLY diagnosis, FERRIC oxide
Abstract

The early diagnosis of hepatocellular carcinomas (HCCs) remains challenging in the clinic. Primovist‐enhanced magnetic resonance imaging (MRI) aids HCC diagnosis but loses sensitivity for tumors <2 cm. Therefore, developing advanced MRI contrast agents is imperative for improving the diagnostic accuracy of HCCs in very‐early‐stage. To address this challenge, PEGylated ultra‐small iron oxide nanoparticles (PUSIONPs) are synthesized and employed as liver‐specific T1 MRI contrast agents. Intravenous delivery produces simultaneous hyperintense HCC and hypointense hepatic parenchyma signals on T1 imaging, creating an extraordinarily high tumor‐to‐liver contrast. Systematic studies uncover PUSIONP distribution in hepatic parenchyma, HCC lesions at the organ, tissue, cellular, and subcellular levels, revealing endosomal confinement of PUSIONP without aggregation. By mimicking such situations, the dependency of relaxometric properties on local PUSIONP concentration is investigated, emphasizing the key role of different endosomal concentrations in liver and tumor cells for high tumor‐to‐liver contrast and clear tumor boundaries. These findings offer exceptional imaging capabilities for early HCC diagnosis, potentially benefiting real HCC patients. [ABSTRACT FROM AUTHOR]

Published
2024
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42. 基于深度学习法的地铁隧道衬砌缺陷智能检测系统.

Author

张悦, 韩静, 关祈峰, 侯珏, 陆婷婷, 张亚芹, ZHANG Yue, HAN Jing, GUAN Qifeng, H0U Jue, LU Tingting, and ZHANG Yaqin

Abstract

Copyright of Urban Mass Transit is the property of Urban Mass Transit Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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