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28 results on '"Dong, Shilong"'

1. Compositional Physical Reasoning of Objects and Events from Videos

Author

Chen, Zhenfang, Dong, Shilong, Yi, Kexin, Li, Yunzhu, Ding, Mingyu, Torralba, Antonio, Tenenbaum, Joshua B., and Gan, Chuang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Understanding and reasoning about objects' physical properties in the natural world is a fundamental challenge in artificial intelligence. While some properties like colors and shapes can be directly observed, others, such as mass and electric charge, are hidden from the objects' visual appearance. This paper addresses the unique challenge of inferring these hidden physical properties from objects' motion and interactions and predicting corresponding dynamics based on the inferred physical properties. We first introduce the Compositional Physical Reasoning (ComPhy) dataset. For a given set of objects, ComPhy includes limited videos of them moving and interacting under different initial conditions. The model is evaluated based on its capability to unravel the compositional hidden properties, such as mass and charge, and use this knowledge to answer a set of questions. Besides the synthetic videos from simulators, we also collect a real-world dataset to show further test physical reasoning abilities of different models. We evaluate state-of-the-art video reasoning models on ComPhy and reveal their limited ability to capture these hidden properties, which leads to inferior performance. We also propose a novel neuro-symbolic framework, Physical Concept Reasoner (PCR), that learns and reasons about both visible and hidden physical properties from question answering. After training, PCR demonstrates remarkable capabilities. It can detect and associate objects across frames, ground visible and hidden physical properties, make future and counterfactual predictions, and utilize these extracted representations to answer challenging questions., Comment: arXiv admin note: text overlap with arXiv:2205.01089

Published
2024

8. A Programmable 2D/3D Anti‐Counterfeiting System via Shape Memory Polymer with Surface Wrinkle and Fluorescence.

Author

Ma, Manping, Dong, Shilong, Yuan, Wenqiang, Ma, Tianjiao, Xu, Mengda, Jiang, Xuesong, and Li, Jin

Subjects
*ULTRAVIOLET radiation, *SECURITY systems, *FLUORESCENCE, *DIMERIZATION, *FORGERY
Abstract

The issue of counterfeiting has always been a major challenge in today's society, putting forward high requirements for anti‐counterfeiting technology. Here, a promising 2D/3D anti‐counterfeiting security system is developed based on anthracene‐functionalized poly(styrene‐butadiene‐styrene) (SBS‐CAN), which possessed the physical unclonable self‐wrinkling patterns, fluorescence, and shape memory behavior. By controlling the dimerization of anthracene groups with ultraviolet light and external pre‐stretched operation, 2D information with surface wrinkle and fluorescence is achieved, allowing for the design of security systems based on actual needs. Furthermore, 3D structures constructed based on the shape memory behavior can further be utilized to encrypt these 2D information, enhancing the security level and weakening the cloneable risk of surface wrinkle and fluorescence for further. This programmable 2D/3D anti‐counterfeiting system has multiple advantages over the commonly used fluorescent wrinkled tag or fluorescent shape memory label, providing an intelligent choice for high‐security information carriers. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Solution‐Processed Efficient Organic Upconversion Device for Direct NIR Imaging.

Author

Dong, Shilong, Zhang, Yi, Wang, Zehong, Li, Jin, Zhou, Zichun, Zhu, Lei, Zhong, Hongliang, Liu, Feng, and Jiang, Xuesong

Subjects
*PHOTON upconversion, *INFRARED equipment, *IMAGING systems, *ENGINEERING design, *TISSUE analysis, *VIRTUAL reality, *NEAR infrared radiation
Abstract

Infrared upconversion devices (UCDs) enable NIR imaging without array and readout circuits, making them desirable for portable sensor, imaging and monitoring. However, the exorbitant cost and difficulties in fabrication associated with vacuum‐deposited materials, which are usually employed in high‐performance UCDs, restrict their application in flexible‐stretchable systems. Here, a solution‐processed upconversion device (s‐UCD), which is composed of detector and emitter, with high conversion efficiency and low turn‐on voltage achieved by device structure design and interlayer engineering is reported. The role of the electron blocking layer is investigated in s‐UCDs, and a peak luminance of 5,500 cd m−2 @7 V and a luminance on‐off ratio of 110000 @5.25 V are achieved. The s‐UCDs exhibit high resolution, microsecond response time and are compatible with flexible substrates. With the high‐performance large‐area s‐UCDs, direct non‐invasive transmission‐based bioimaging applications with high quality of bioimaging are further performed. It is believed that the s‐UCD imaging system offers potential applications for portable low‐cost non‐invasive tissue analysis, disease diagnosis, and virtual reality. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Design of PDMS/PAN composite membranes with ultra-interfacial stability vialayer integrationElectronic supplementary information (ESI) available. See DOI: https://doi.org/10.1039/d4mh00483c

Author

Sang, Chao, Zhang, Siyuan, Si, Zhihao, Li, Qinxu, Wu, Hanzhu, Wang, Lankun, Dong, Shilong, Baeyens, Jan, Cao, Peng-Fei, and Qin, Peiyong

Abstract

The interfacial interaction between the selective layer and porous substrate directly determines the separation performance and service lifetime of functional composite membranes. Till now, almost all reported polymeric selective layers are physically in contact with the substrate, which is unsatisfactory for long-term operation. Herein, we introduced a functional composite membrane with ultra-interfacial stability vialayer integration between the polydimethylsiloxane selective layer and polyacrylonitrile substrate, where a facile light-triggered copolymerization achieved their covalent bonding. The critical load for the failure of the selective layer is 45.73 mN when testing the interfacial adhesion, i.e., 5.8 times higher than that before modification and significantly higher than previous reports. It also achieves superior pervaporation performance with a separation factor of 9.54 and membrane flux of 1245.6 g m−2h−1feeding a 1000 ppm phenol/water solution at 60 °C that is significantly higher than the same type of polymeric ones. Not limited to pervaporation, such a strategy sheds light on the design of highly stable composite membranes with different purposes, while the facile photo-trigged technique shows enormous scalability.

Published
2024
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23. An easy-to-process poly(silylene-acetylene) terminated by reactive ethynylphenyl: Synthesis, properties and composites

Author

Xueying Hu, Qiaolong Yuan, Farong Huang, and Dong Shilong

Subjects
chemistry.chemical_classification, Materials science, Polymers and Plastics, General Chemical Engineering, Composite number, General Chemistry, Polymer, Dielectric, Biochemistry, chemistry, Flexural strength, Materials Chemistry, Environmental Chemistry, Thermal stability, Composite material, Glass transition, Pyrolysis, Curing (chemistry)
Abstract

A series of telechelic silicon-containing hybrid polymers with reactive ethynylphenyl terminals were synthesized using the Grignard reagent method. The structure, processability, curing behavior, thermal stability and dielectric properties of the polymers, as well as the mechanical properties of carbon fiber reinforced composites at room temperature and high temperature, were well characterized. The results indicate that the ethynylphenyl-terminated poly(silylene acetylene)s (EPTSAs) have wide processing window and stable viscosity for 6 h at 70 °C. The cured EPTSAs exhibit excellent thermooxidative stabilities with temperatures of 5% weight loss (Td5) and the residues at 800 °C (Yr800). The thermal stability of the cured EPTSAs can increase markedly with incorporation of Si-H groups. The Td5 and Yr800 of the cured EPTSAs could reach to 601 °C and 52% in air, respectively. The pyrolysis behavior of cured EPTSAs elucidates the cure reactions and cross-linked networks. The cured resins show excellent dielectric properties in the frequency range of 10–106 Hz. Furthermore, the glass transition temperature the cured EPTSAs do not arise before 500 °C. The flexural strength and modulus of the carbon fiber cloth (T300CF) reinforced EPTSAs composites could reach 252 MPa, and 42 GPa. The retention of mechanical properties of the composite at 300 °C can reach to 89%.

Published
2022
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26. A User Preference and Service Time Mix-aware Resource Provisioning Strategy for Multi-tier Cloud Services

Author

Dong Shilong, Ningjiang Chen, Yimin Wan, and Dandan Hu

Subjects
Queueing theory, Resource (project management), Order (exchange), business.industry, Provisioning, Thin provisioning, Cloud computing, Workload, General Medicine, Business, Preference, Computer network
Abstract

As the majority of cloud services deploy a multi-tier architecture, it poses a real challenge to resource provisioning. Because of the cross-tier dependencies of multi-tier cloud services, the traditional tailor-made resource provisioning methods for single-tier applications can’t be adopted or extended directly. Resource provisioning in the cloud is usually driven by performance predictions, so it's important to characterize workload fluctuations accurately in order to understand how to allocate resources. And user preference also contributes to workload variants. Therefore, we propose a dynamic resource provisioning strategy for multi-tier cloud services that employs (i) a user preference and service time mix-aware workload prediction method to be used as a foundation of resource provisioning, and (ii) a dynamic resource provisioning strategy based on the queuing theory to determine how many resources to be provisioned to each tier. Experimental results demonstrate that our workload prediction method is accurate, and our provisioning strategy is able to improve the accuracy of resource provisioning, reduce the allocated resources and SLAs violations.

Published
2013
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