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22 results on '"Fan, Zimeng"'

1. Welfare and Fairness in Multi-objective Reinforcement Learning

Author

Fan, Zimeng, Peng, Nianli, Tian, Muhang, and Fain, Brandon

Subjects
Computer Science - Computer Science and Game Theory, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Multiagent Systems
Abstract

We study fair multi-objective reinforcement learning in which an agent must learn a policy that simultaneously achieves high reward on multiple dimensions of a vector-valued reward. Motivated by the fair resource allocation literature, we model this as an expected welfare maximization problem, for some nonlinear fair welfare function of the vector of long-term cumulative rewards. One canonical example of such a function is the Nash Social Welfare, or geometric mean, the log transform of which is also known as the Proportional Fairness objective. We show that even approximately optimal optimization of the expected Nash Social Welfare is computationally intractable even in the tabular case. Nevertheless, we provide a novel adaptation of Q-learning that combines nonlinear scalarized learning updates and non-stationary action selection to learn effective policies for optimizing nonlinear welfare functions. We show that our algorithm is provably convergent, and we demonstrate experimentally that our approach outperforms techniques based on linear scalarization, mixtures of optimal linear scalarizations, or stationary action selection for the Nash Social Welfare Objective.

Published
2022
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2. Vis-TOP: Visual Transformer Overlay Processor

Author

Hu, Wei, Xu, Dian, Fan, Zimeng, Liu, Fang, and He, Yanxiang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Hardware Architecture
Abstract

In recent years, Transformer has achieved good results in Natural Language Processing (NLP) and has also started to expand into Computer Vision (CV). Excellent models such as the Vision Transformer and Swin Transformer have emerged. At the same time, the platform for Transformer models was extended to embedded devices to meet some resource-sensitive application scenarios. However, due to the large number of parameters, the complex computational flow and the many different structural variants of Transformer models, there are a number of issues that need to be addressed in its hardware design. This is both an opportunity and a challenge. We propose Vis-TOP (Visual Transformer Overlay Processor), an overlay processor for various visual Transformer models. It differs from coarse-grained overlay processors such as CPU, GPU, NPE, and from fine-grained customized designs for a specific model. Vis-TOP summarizes the characteristics of all visual Transformer models and implements a three-layer and two-level transformation structure that allows the model to be switched or changed freely without changing the hardware architecture. At the same time, the corresponding instruction bundle and hardware architecture are designed in three-layer and two-level transformation structure. After quantization of Swin Transformer tiny model using 8-bit fixed points (fix_8), we implemented an overlay processor on the ZCU102. Compared to GPU, the TOP throughput is 1.5x higher. Compared to the existing Transformer accelerators, our throughput per DSP is between 2.2x and 11.7x higher than others. In a word, the approach in this paper meets the requirements of real-time AI in terms of both resource consumption and inference speed. Vis-TOP provides a cost-effective and power-effective solution based on reconfigurable devices for computer vision at the edge., Comment: 13 pages, 5 figures

Published
2021

6. Classification of Heads in Multi-head Attention Mechanisms

Author

Huang, Feihu, Jiang, Min, Liu, Fang, Xu, Dian, Fan, Zimeng, Wang, Yonghao, 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, Memmi, Gerard, editor, Yang, Baijian, editor, Kong, Linghe, editor, Zhang, Tianwei, editor, and Qiu, Meikang, editor

Published
2022
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7. Software and Hardware Fusion Multi-Head Attention

Author

Hu, Wei, Xu, Dian, Liu, Fang, Fan, Zimeng, 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, Memmi, Gerard, editor, Yang, Baijian, editor, Kong, Linghe, editor, Zhang, Tianwei, editor, and Qiu, Meikang, editor

Published
2022
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8. Scalable and Sustainable Zinc (II) Ions‐Glue‐Assisted Conversion of Biomass Waste Bits into Carbon Aerogels for Efficient Uranium Extraction.

Author

Zhao, Yan, Zhou, Yun, Tan, Guoying, Ju, Yujun, Chen, Ying, Huo, Yong, Li, Hua, Zhou, Tong, Song, Jiaxin, Fan, Zimeng, Liu, Tonghuan, Huang, Liang, Chen, Fengjuan, and Tang, Yu

Subjects
PEANUT hulls, WATER purification, DEHYDRATION reactions, CARBONYL group, BIOMASS conversion
Abstract

Carbon aerogels (CAs) have garnered significant attention due to their multifunctional applications. Biomass waste, abundantly generated by agriculture and industry, serves as a primary carbon source. However, developing a facile, sustainable, and efficient method to produce CAs from biomass waste remains challenging. In this study, a one‐step Zn2+ ion‐glue‐assisted carbonization technique was developed to produce large‐scale, high‐performance CAs. Various biomass materials (wood bits, peanut shells, bamboo bits, and straw waste) were treated in a molten salt system (ZnCl2/KCl) at 300 °C for 2 h to obtain large‐block CAs derived from biomass bits. Zn2+ ions cleave cellulose hydrogen bonds in natural biomass, facilitating the dehydration crosslinking reaction among cellulose, hemicellulose, and lignin, thus reconstructing the entire block structure. The resulting CAs exhibited high porosity (95 %) and low density (0.078 g/cm3). Numerous hydroxyl and carbonyl groups were preserved during the low‐temperature treatment, facilitating chemical modification for diverse applications. For instance, amidoxime functionalized CAs were utilized as filters for selective and highly efficient extraction of U(VI) from wastewater. The adsorption capacity and extraction efficiency reached 801.2 mg/g and 95 % with a flux rate of 6.1×103 L/m2 ⋅ h. [ABSTRACT FROM AUTHOR]

Published
2024
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12. A Novel Transfer Learning Approach for State-of-Health Prediction of Lithium-Ion Batteries in the Absence of Run-to-Failure Data

Author

Song, Lei, Gui, Xuanang, Du, Junrong, Fan, Zimeng, Li, Mingwei, and Guo, Lili

Abstract

Accurate and reliable state-of-health (SOH) prediction becomes increasingly vital to ensure the safe and reliable operation of lithium-ion batteries (LIBs). The existing data-driven methods for LIBs’ SOH prediction are developed with an ideal database, i.e., a huge run-to-failure data with a consistent distribution of training and testing sets. However, due to individual quality differences and complex operating conditions, data distribution shifts among different batteries may be obvious, and the entire life-cycle samples are difficult to collect in real world. Therefore, there exists a distribution discrepancy between source and target domains. Besides, temporal distribution shift may also exist with incomplete target domain, called time covariate shift (TCS). Thus, the model trained with source and incomplete target domains will cause prediction bias in unseen target data. To address such issues, a novel transfer learning (TL) approach using multiple feature alignment transformer (MFA-Transformer) model is conducted for the SOH prediction of LIBs. First, a multilayer feature alignment is performed via encoder-decoder structure of transformer framework, and multikernel maximum mean discrepancy (MK-MMD) is adopted to tackle data distribution discrepancy. Then, a new loss item based on Weibull distribution is utilized to enhance the data alignment effect. Moreover, a shift compensation strategy using shape-based distance (SBD) estimation is designed to dynamically eliminate the prediction bias resulting from TCS. Finally, experiments on two public LIBs datasets validate the effectiveness of the proposed method, which can offer a promising solution for industrial prognostic without entire life-cycle data.

Published
2024
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13. Boosting photocatalytic conversion of formic acid to CO over P-doped CdS.

Author

Feng, Pengfei, Wu, Junhao, Fan, Zimeng, Ma, Baochun, Li, Yuanyuan, Meng, Xiangyu, and Ding, Yong

Subjects
DOPING agents (Chemistry), FORMIC acid, BAND gaps, ENERGY bands, PHOTOCATALYSTS, SURFACE area
Abstract

In this work, NaH2PO2, Na2S2O3 and CdCl2 were used to synthesize P-doped CdS samples for the photocatalytic decomposition of formic acid to CO reaction. The CO production rates and selectivity of P-doped CdS are as high as 24.5 mmol g−1 h−1 and 92.4%, in which the rate is 7 times higher than that of the pure CdS. Multiple characterizations show that the P-doping increases the specific surface area, widens the band gap and shifts the energy band position of CdS, resulting in enhanced photocatalytic activity. [ABSTRACT FROM AUTHOR]

Published
2023
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