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258 results on '"Liu, Zifan"'

1. TSDS: Data Selection for Task-Specific Model Finetuning

Author

Liu, Zifan, Karbasi, Amin, and Rekatsinas, Theodoros

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, 68T50, 68T01, I.2.6, I.2.7
Abstract

Finetuning foundation models for specific tasks is an emerging paradigm in modern machine learning. The efficacy of task-specific finetuning largely depends on the selection of appropriate training data. We present TSDS (Task-Specific Data Selection), a framework to select data for task-specific model finetuning, guided by a small but representative set of examples from the target task. To do so, we formulate data selection for task-specific finetuning as an optimization problem with a distribution alignment loss based on optimal transport to capture the discrepancy between the selected data and the target distribution. In addition, we add a regularizer to encourage the diversity of the selected data and incorporate kernel density estimation into the regularizer to reduce the negative effects of near-duplicates among the candidate data. We connect our optimization problem to nearest neighbor search and design efficient algorithms to compute the optimal solution based on approximate nearest neighbor search techniques. We evaluate our method on data selection for both continued pretraining and instruction tuning of language models. We show that instruction tuning using data selected by our method with a 1% selection ratio often outperforms using the full dataset and beats the baseline selection methods by 1.5 points in F1 score on average., Comment: 31 pages, 1 figure

Published
2024

2. Reinforcement Learning with Intrinsically Motivated Feedback Graph for Lost-sales Inventory Control

Author

Liu, Zifan, Li, Xinran, Chen, Shibo, Li, Gen, Jiang, Jiashuo, and Zhang, Jun

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Reinforcement learning (RL) has proven to be well-performed and general-purpose in the inventory control (IC). However, further improvement of RL algorithms in the IC domain is impeded due to two limitations of online experience. First, online experience is expensive to acquire in real-world applications. With the low sample efficiency nature of RL algorithms, it would take extensive time to train the RL policy to convergence. Second, online experience may not reflect the true demand due to the lost sales phenomenon typical in IC, which makes the learning process more challenging. To address the above challenges, we propose a decision framework that combines reinforcement learning with feedback graph (RLFG) and intrinsically motivated exploration (IME) to boost sample efficiency. In particular, we first take advantage of the inherent properties of lost-sales IC problems and design the feedback graph (FG) specially for lost-sales IC problems to generate abundant side experiences aid RL updates. Then we conduct a rigorous theoretical analysis of how the designed FG reduces the sample complexity of RL methods. Based on the theoretical insights, we design an intrinsic reward to direct the RL agent to explore to the state-action space with more side experiences, further exploiting FG's power. Experimental results demonstrate that our method greatly improves the sample efficiency of applying RL in IC. Our code is available at https://anonymous.4open.science/r/RLIMFG4IC-811D/

Published
2024

3. Individual Contributions as Intrinsic Exploration Scaffolds for Multi-agent Reinforcement Learning

Author

Li, Xinran, Liu, Zifan, Chen, Shibo, and Zhang, Jun

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Multiagent Systems, I.2.6, I.2.11
Abstract

In multi-agent reinforcement learning (MARL), effective exploration is critical, especially in sparse reward environments. Although introducing global intrinsic rewards can foster exploration in such settings, it often complicates credit assignment among agents. To address this difficulty, we propose Individual Contributions as intrinsic Exploration Scaffolds (ICES), a novel approach to motivate exploration by assessing each agent's contribution from a global view. In particular, ICES constructs exploration scaffolds with Bayesian surprise, leveraging global transition information during centralized training. These scaffolds, used only in training, help to guide individual agents towards actions that significantly impact the global latent state transitions. Additionally, ICES separates exploration policies from exploitation policies, enabling the former to utilize privileged global information during training. Extensive experiments on cooperative benchmark tasks with sparse rewards, including Google Research Football (GRF) and StarCraft Multi-agent Challenge (SMAC), demonstrate that ICES exhibits superior exploration capabilities compared with baselines. The code is publicly available at https://github.com/LXXXXR/ICES., Comment: Accepted by the Forty-first International Conference on Machine Learning

Published
2024

4. Rapidash: Efficient Constraint Discovery via Rapid Verification

Author

Liu, Zifan, Deep, Shaleen, Fariha, Anna, Psallidas, Fotis, Tiwari, Ashish, and Floratou, Avrilia

Subjects
Computer Science - Databases
Abstract

Denial Constraint (DC) is a well-established formalism that captures a wide range of integrity constraints commonly encountered, including candidate keys, functional dependencies, and ordering constraints, among others. Given their significance, there has been considerable research interest in achieving fast verification and discovery of exact DCs within the database community. Despite the significant advancements in the field, prior work exhibits notable limitations when confronted with large-scale datasets. The current state-of-the-art exact DC verification algorithm demonstrates a quadratic (worst-case) time complexity relative to the dataset's number of rows. In the context of DC discovery, existing methodologies rely on a two-step algorithm that commences with an expensive data structure-building phase, often requiring hours to complete even for datasets containing only a few million rows. Consequently, users are left without any insights into the DCs that hold on their dataset until this lengthy building phase concludes. In this paper, we introduce Rapidash, a comprehensive framework for DC verification and discovery. Our work makes a dual contribution. First, we establish a connection between orthogonal range search and DC verification. We introduce a novel exact DC verification algorithm that demonstrates near-linear time complexity, representing a theoretical improvement over prior work. Second, we propose an anytime DC discovery algorithm that leverages our novel verification algorithm to gradually provide DCs to users, eliminating the need for the time-intensive building phase observed in prior work. To validate the effectiveness of our algorithms, we conduct extensive evaluations on four large-scale production datasets. Our results reveal that our DC verification algorithm achieves up to 40 times faster performance compared to state-of-the-art approaches., Comment: comments and suggestions are welcome!

Published
2023

5. AutoSlicer: Scalable Automated Data Slicing for ML Model Analysis

Author

Liu, Zifan, Rosen, Evan, and C, Paul Suganthan G.

Subjects
Computer Science - Machine Learning, Computer Science - Databases, I.2.0, H.2.0
Abstract

Automated slicing aims to identify subsets of evaluation data where a trained model performs anomalously. This is an important problem for machine learning pipelines in production since it plays a key role in model debugging and comparison, as well as the diagnosis of fairness issues. Scalability has become a critical requirement for any automated slicing system due to the large search space of possible slices and the growing scale of data. We present Autoslicer, a scalable system that searches for problematic slices through distributed metric computation and hypothesis testing. We develop an efficient strategy that reduces the search space through pruning and prioritization. In the experiments, we show that our search strategy finds most of the anomalous slices by inspecting a small portion of the search space., Comment: 11 pages, 5 figures, NeurIPS 2022 Workshop on Challenges in Deploying and Monitoring Machine Learning Systems

Published
2022

12. Resource Management and Scheduling for Satellite Internet

Author

Wang Longhe, Zhou Yiqing, Cao Huan, Liu Zifan, Chen Yan, Chen Daojin, and Shi Jinglin

Subjects
satellite Internet, resource management and scheduling, space ‒ air ‒ ground integrated network, dynamic resource characterization, intelligent planning and decision-making, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Supporting seamless global coverage, satellite Internet is an important expansion and extension of terrestrial communication systems, plays a key role in the space–air–ground integrated network, and acts as an important information infrastructure for building China's strength in cyberspace. Developing satellite Internet is of great strategic significance, and corresponding research on its resource management and scheduling is urgently needed. This study illustrates the fundamental concepts and international development frontiers of satellite Internet as well as the basic elements and research progress of satellite Internet resource management and scheduling, identifies the challenges imposed by the new environment and new modes of satellite Internet, and proposes the development strategies. Moreover, it designs a technical route for satellite Internet resource management, including the primary stages of satellite – ground network interconnection, integration of heterogeneous resources, intelligent on-demand service, and native intelligence. In addition, this study proposes the model and architecture of satellite Internet resource management and scheduling, and constructs a key technical system involving high spatio-temporal dynamic resource characterization, multi-dimensional resource time-continuum deterministic analysis, multi-dimensional time-varying capacity pool indexing, and intelligent decision planning. To realize the intelligent and efficient management and scheduling of satellite Internet resources, we should focus on the network characteristics such as resource heterogeneity, dynamic change of network structure, and differentiated service requirements, implement satellite Internet resource management and scheduling according to the optimized technical route, achieve breakthroughs regarding corresponding key technologies, and integrate artificial intelligence technologies into the resource management and scheduling.

Published
2023
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13. Picket: Guarding Against Corrupted Data in Tabular Data during Learning and Inference

Author

Liu, Zifan, Zhou, Zhechun, and Rekatsinas, Theodoros

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning, 68U35, 68T05, 68-04, H.2.8
Abstract

Data corruption is an impediment to modern machine learning deployments. Corrupted data can severely bias the learned model and can also lead to invalid inferences. We present, Picket, a simple framework to safeguard against data corruptions during both training and deployment of machine learning models over tabular data. For the training stage, Picket identifies and removes corrupted data points from the training data to avoid obtaining a biased model. For the deployment stage, Picket flags, in an online manner, corrupted query points to a trained machine learning model that due to noise will result in incorrect predictions. To detect corrupted data, Picket uses a self-supervised deep learning model for mixed-type tabular data, which we call PicketNet. To minimize the burden of deployment, learning a PicketNet model does not require any human-labeled data. Picket is designed as a plugin that can increase the robustness of any machine learning pipeline. We evaluate Picket on a diverse array of real-world data considering different corruption models that include systematic and adversarial noise during both training and testing. We show that Picket consistently safeguards against corrupted data during both training and deployment of various models ranging from SVMs to neural networks, beating a diverse array of competing methods that span from data quality validation models to robust outlier-detection models., Comment: 23 pages, 24 figures

Published
2020

14. On Robust Mean Estimation under Coordinate-level Corruption

Author

Liu, Zifan, Park, Jongho, Rekatsinas, Theodoros, and Tzamos, Christos

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning, 68T01, 62F99, G.3, I.2.6
Abstract

We study the problem of robust mean estimation and introduce a novel Hamming distance-based measure of distribution shift for coordinate-level corruptions. We show that this measure yields adversary models that capture more realistic corruptions than those used in prior works, and present an information-theoretic analysis of robust mean estimation in these settings. We show that for structured distributions, methods that leverage the structure yield information theoretically more accurate mean estimation. We also focus on practical algorithms for robust mean estimation and study when data cleaning-inspired approaches that first fix corruptions in the input data and then perform robust mean estimation can match the information theoretic bounds of our analysis. We finally demonstrate experimentally that this two-step approach outperforms structure-agnostic robust estimation and provides accurate mean estimation even for high-magnitude corruption., Comment: 21 pages, 5 figures

Published
2020

22. Spatiotemporal Variation Characteristics of Extreme Precipitation in the Mid–Lower Reaches of the Yangtze River Basin Based on Precipitation Events.

Author

Zhang, Yixin, Li, Peng, Xu, Guoce, Li, Zhanbin, Wang, Zhou, Rao, Yueming, Liu, Zifan, Chen, Yiting, and Wang, Bin

Abstract

In addition to greater precipitation on extreme days of precipitation, preceding and succeeding precipitation (PSP) is often an objective component of flooding in the mid–lower reaches of the Yangtze River Basin (MLRYRB). In this study, focused on the temporal distribution pattern of precipitation, the concept of an extreme precipitation event (EPE), defined as a consecutive precipitation event having at least one daily precipitation extreme, is proposed to consider PSP in an extreme event. We analyzed the spatiotemporal variation of four types of EPEs based on daily data obtained from 130 monitoring stations covering 1960–2019. Extreme precipitation increased significantly over the last 60 years (p < 0.01). The frequency and precipitation amount of single-day EPEs accounted for only 13% and 21%, respectively, while multi-day continuous EPE types that are associated with PSP accounted for 87% and 79%, respectively, confirming the connotations of EPEs. The front and late EPEs under the 100-year return level reached 250 mm and 230 mm, respectively. Furthermore, climate warming could lead to significant increases in the frequency of single-day and late EPEs, particularly in the southern region. The EPE concept may be helpful in exploring disaster-causing processes under extreme weather, and it provides a theoretical basis for deriving the precipitation hazard chain, which is more applicable to basins with long precipitation durations. [ABSTRACT FROM AUTHOR]

Published
2024
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34. A Cloud Service Enhanced Method Supporting Context-Aware Applications

Author

Liu, Zifan, Cai, Qing, Wang, Song, Xu, Xiaolong, Dou, Wanchun, Yu, Shui, Akan, Ozgur, Series Editor, Bellavista, Paolo, Series Editor, Cao, Jiannong, Series Editor, Coulson, Geoffrey, Series Editor, Dressler, Falko, Series Editor, Ferrari, Domenico, Series Editor, Gerla, Mario, Series Editor, Kobayashi, Hisashi, Series Editor, Palazzo, Sergio, Series Editor, Sahni, Sartaj, Series Editor, Shen, Xuemin (Sherman), Series Editor, Stan, Mircea, Series Editor, Xiaohua, Jia, Series Editor, Zomaya, Albert Y., Series Editor, Hu, Jiankun, editor, Khalil, Ibrahim, editor, Tari, Zahir, editor, and Wen, Sheng, editor

Published
2018
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36. Short‐Term Mortality Among Pediatric Patients With Heart Diseases Undergoing Veno‐Arterial Extracorporeal Membrane Oxygenation: A Systematic Review and Meta‐Analysis

Author

Zhou, Jingjing, primary, Wang, Haiming, additional, Zhao, Yunzhang, additional, Shao, Junjie, additional, Jiang, Min, additional, Yue, Shuai, additional, Lin, Lejian, additional, Wang, Lin, additional, Xu, Qiang, additional, Guo, Xinhong, additional, Li, Xin, additional, Liu, Zifan, additional, Chen, Yundai, additional, and Zhang, Ran, additional

Published
2023
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39. Targeting E3 Ubiquitin Ligase WWP1 Prevents Cardiac Hypertrophy Through Destabilizing DVL2 via Inhibition of K27-Linked Ubiquitination

Author

Zhao, Dingsheng, Zhong, Guohui, Li, Jianwei, Pan, Junjie, Zhao, Yinlong, Song, Hailin, Sun, Weijia, Jin, Xiaoyan, Li, Yuheng, Du, Ruikai, Nie, Jielin, Liu, Tong, Zheng, Junmeng, Jia, Yixin, Liu, Zifan, Liu, Wei, Yuan, Xinxin, Liu, Zizhong, Song, Jinping, Kan, Guanghan, Li, Youyou, Liu, Caizhi, Gao, Xingcheng, Xing, Wenjuan, Chang, Yan-Zhong, Li, Yingxian, and Ling, Shukuan

Published
2021
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44. Risk-Sensitive Mobile Battery Energy Storage System Control With Deep Reinforcement Learning and Hybrid Risk Estimation Method

Author

Liu, Zifan, Zhao, Huan, Liu, Guolong, Liang, Gaoqi, Zhao, Junhua, and Qiu, Jing

Abstract

The mobile battery energy storage systems (MBESS) utilize flexibility in temporal and spatial to enhance smart grid resilience and economic benefits. Recently, the high penetration of renewable energy increases the volatility of electricity prices and gives MBESS an opportunity for price difference arbitrage. However, the strong randomness of both the traffic system and renewable energy leads to difficulty in achieving profit with acceptable risk. To address this problem, this paper proposes a risk-sensitive MBESS control framework based on safe deep reinforcement learning, which can constrain the risk under a certain level according to the company’s risk preference. The risk-estimation safe deep deterministic policy gradient (RE-SDDPG) algorithm is proposed to learn the optimal policy under the premise of lacking direct risk signals. Moreover, a hybrid risk estimation method is proposed to avoid local convergence caused by inaccurate estimation during the learning process. Last, a parameter-sharing method is applied to increase learning efficiency by sharing the Q networks’ parameters. The proposed methods are tested in the IEEE 30-bus system. The results show that the proposed method can keep the profit at a relatively high level while reducing the risk and increase learning efficiency compared with existing methods.

Published
2024
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