Search

Your search keyword '"Lee, Hyun-Suk"' showing total 509 results
Start Over Author "Lee, Hyun-Suk"
509 results on '"Lee, Hyun-Suk"'

1. Self-Improving Interference Management Based on Deep Learning With Uncertainty Quantification

Author

Lee, Hyun-Suk, Kim, Do-Yup, and Min, Kyungsik

Subjects
Computer Science - Machine Learning
Abstract

This paper presents a groundbreaking self-improving interference management framework tailored for wireless communications, integrating deep learning with uncertainty quantification to enhance overall system performance. Our approach addresses the computational challenges inherent in traditional optimization-based algorithms by harnessing deep learning models to predict optimal interference management solutions. A significant breakthrough of our framework is its acknowledgment of the limitations inherent in data-driven models, particularly in scenarios not adequately represented by the training dataset. To overcome these challenges, we propose a method for uncertainty quantification, accompanied by a qualifying criterion, to assess the trustworthiness of model predictions. This framework strategically alternates between model-generated solutions and traditional algorithms, guided by a criterion that assesses the prediction credibility based on quantified uncertainties. Experimental results validate the framework's efficacy, demonstrating its superiority over traditional deep learning models, notably in scenarios underrepresented in the training dataset. This work marks a pioneering endeavor in harnessing self-improving deep learning for interference management, through the lens of uncertainty quantification.

Published
2024

2. Dynamic Joint Scheduling of Anycast Transmission and Modulation in Hybrid Unicast-Multicast SWIPT-Based IoT Sensor Networks

Author

Kim, Do-Yup, Sohn, Chae-Bong, and Lee, Hyun-Suk

Subjects
Computer Science - Information Theory, Computer Science - Networking and Internet Architecture, Electrical Engineering and Systems Science - Signal Processing, Electrical Engineering and Systems Science - Systems and Control, 90B36, 68M20, 90B15, C.2.3, I.2.8
Abstract

The separate receiver architecture with a time- or power-splitting mode, widely used for simultaneous wireless information and power transfer (SWIPT), has a major drawback: Energy-intensive local oscillators and mixers need to be installed in the information decoding (ID) component to downconvert radio frequency (RF) signals to baseband signals, resulting in high energy consumption. As a solution to this challenge, an integrated receiver (IR) architecture has been proposed, and, in turn, various SWIPT modulation schemes compatible with the IR architecture have been developed. However, to the best of our knowledge, no research has been conducted on modulation scheduling in SWIPT-based IoT sensor networks while taking into account the IR architecture. Accordingly, in this paper, we address this research gap by studying the problem of joint scheduling for unicast/multicast, IoT sensor, and modulation (UMSM) in a time-slotted SWIPT-based IoT sensor network system. To this end, we leverage mathematical modeling and optimization techniques, such as the Lagrangian duality and stochastic optimization theory, to develop an UMSM scheduling algorithm that maximizes the weighted sum of average unicast service throughput and harvested energy of IoT sensors, while ensuring the minimum average throughput of both multicast and unicast, as well as the minimum average harvested energy of IoT sensors. Finally, we demonstrate through extensive simulations that our UMSM scheduling algorithm achieves superior energy harvesting (EH) and throughput performance while ensuring the satisfaction of specified constraints well., Comment: 29 pages, 13 figures (eps)

Published
2023

3. Collaborative Policy Learning for Dynamic Scheduling Tasks in Cloud-Edge-Terminal IoT Networks Using Federated Reinforcement Learning

Author

Kim, Do-Yup, Lee, Da-Eun, Kim, Ji-Wan, and Lee, Hyun-Suk

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Distributed, Parallel, and Cluster Computing, Electrical Engineering and Systems Science - Signal Processing, 68M20, 68T05, 68T07, C.2.1, C.2.4, I.2.8, I.2.11
Abstract

In this paper, we examine cloud-edge-terminal IoT networks, where edges undertake a range of typical dynamic scheduling tasks. In these IoT networks, a central policy for each task can be constructed at a cloud server. The central policy can be then used by the edges conducting the task, thereby mitigating the need for them to learn their own policy from scratch. Furthermore, this central policy can be collaboratively learned at the cloud server by aggregating local experiences from the edges, thanks to the hierarchical architecture of the IoT networks. To this end, we propose a novel collaborative policy learning framework for dynamic scheduling tasks using federated reinforcement learning. For effective learning, our framework adaptively selects the tasks for collaborative learning in each round, taking into account the need for fairness among tasks. In addition, as a key enabler of the framework, we propose an edge-agnostic policy structure that enables the aggregation of local policies from different edges. We then provide the convergence analysis of the framework. Through simulations, we demonstrate that our proposed framework significantly outperforms the approaches without collaborative policy learning. Notably, it accelerates the learning speed of the policies and allows newly arrived edges to adapt to their tasks more easily., Comment: 14 pages, 16 figures, IEEEtran.cls

Published
2023

4. Nine Species of the Family Lauxaniidae (Diptera, Lauxanioidea) New to Korea

Author

Lee, Hyun-Suk and Han, Ho-Yeon

Subjects
Lauxaniidae, Lauxaniinae, Homoneurinae, taxonomy, Korea, Biology (General), QH301-705.5, Zoology, QL1-991
Abstract

A total of 36 species and 11 genera of the fly family Lauxanidae have been previously recorded in Korean Peninsula. As a result of our ongoing study of this family, we here report the following nine species new to Korea: Homoneura albomarginata Czerny, 1932, Minettia filia (Becker), 1895, Pachycerina alutacea Shatalkin, 1998, Poecilolycia zherichini Shatalkin, 2000, Protrigonometopus sexlituris (Shatalkin), 1992, Salebrifacies czurkini Shatalkin, 1992, Sapromyza albiceps Fallén, 1820, Steganopsis dichroa Shatalkin, 1998, and Trigonometopus eborifacies Shatalkin, 1997. The genera Poecilolycia Shewell, 1986, Salebrifacies Shatalkin, 1992, and Steganopsis de Meijere, 1910 are recognized for the first time in this country. Therefore, 45 species in 14 genera are now officially recognized for the Korean lauxaniid fauna. In addition, we provide diagnoses and color photographs of adult external structures including male genitalia to aid their specific identification.

Published
2015
Full Text
View/download PDF

5. A New Frontier of AI: On-Device AI Training and Personalization

Author

Moon, Ji Joong, Lee, Hyun Suk, Chu, Jiho, Park, Donghak, Hong, Seungbaek, Seo, Hyungjun, Jeong, Donghyeon, Kong, Sungsik, and Ham, MyungJoo

Subjects
Computer Science - Machine Learning
Abstract

Modern consumer electronic devices have started executing deep learning-based intelligence services on devices, not cloud servers, to keep personal data on devices and to reduce network and cloud costs. We find such a trend as the opportunity to personalize intelligence services by updating neural networks with user data without exposing the data out of devices: on-device training. However, the limited resources of devices incurs significant difficulties. We propose a light-weight on-device training framework, NNTrainer, which provides highly memory-efficient neural network training techniques and proactive swapping based on fine-grained execution order analysis for neural networks. Moreover, its optimizations do not sacrifice accuracy and are transparent to training algorithms; thus, prior algorithmic studies may be implemented on top of NNTrainer. The evaluations show that NNTrainer can reduce memory consumption down to 1/20 (saving 95%!) and effectively personalizes intelligence services on devices. NNTrainer is cross-platform and practical open-source software, which is being deployed to millions of mobile devices., Comment: 12 pages, 16 figures, Accepted in ICSE 2024

Published
2022

7. System-Agnostic Meta-Learning for MDP-based Dynamic Scheduling via Descriptive Policy

Author

Lee, Hyun-Suk

Subjects
Computer Science - Machine Learning, Statistics - Applications, Statistics - Machine Learning
Abstract

Dynamic scheduling is an important problem in applications from queuing to wireless networks. It addresses how to choose an item among multiple scheduling items in each timestep to achieve a long-term goal. Conventional approaches for dynamic scheduling find the optimal policy for a given specific system so that the policy from these approaches is usable only for the corresponding system characteristics. Hence, it is hard to use such approaches for a practical system in which system characteristics dynamically change. This paper proposes a novel policy structure for MDP-based dynamic scheduling, a descriptive policy, which has a system-agnostic capability to adapt to unseen system characteristics for an identical task (dynamic scheduling). To this end, the descriptive policy learns a system-agnostic scheduling principle--in a nutshell, "which condition of items should have a higher priority in scheduling". The scheduling principle can be applied to any system so that the descriptive policy learned in one system can be used for another system. Experiments with simple explanatory and realistic application scenarios demonstrate that it enables system-agnostic meta-learning with very little performance degradation compared with the system-specific conventional policies., Comment: Accepted in AISTATS 2022

Published
2022

10. Adaptive Transmission Scheduling in Wireless Networks for Asynchronous Federated Learning

Author

Lee, Hyun-Suk and Lee, Jang-Won

Subjects
Computer Science - Information Theory, Computer Science - Machine Learning
Abstract

In this paper, we study asynchronous federated learning (FL) in a wireless distributed learning network (WDLN). To allow each edge device to use its local data more efficiently via asynchronous FL, transmission scheduling in the WDLN for asynchronous FL should be carefully determined considering system uncertainties, such as time-varying channel and stochastic data arrivals, and the scarce radio resources in the WDLN. To address this, we propose a metric, called an effectivity score, which represents the amount of learning from asynchronous FL. We then formulate an Asynchronous Learning-aware transmission Scheduling (ALS) problem to maximize the effectivity score and develop three ALS algorithms, called ALSA-PI, BALSA, and BALSA-PO, to solve it. If the statistical information about the uncertainties is known, the problem can be optimally and efficiently solved by ALSA-PI. Even if not, it can be still optimally solved by BALSA that learns the uncertainties based on a Bayesian approach using the state information reported from devices. BALSA-PO suboptimally solves the problem, but it addresses a more restrictive WDLN in practice, where the AP can observe a limited state information compared with the information used in BALSA. We show via simulations that the models trained by our ALS algorithms achieve performances close to that by an ideal benchmark and outperform those by other state-of-the-art baseline scheduling algorithms in terms of model accuracy, training loss, learning speed, and robustness of learning. These results demonstrate that the adaptive scheduling strategy in our ALS algorithms is effective to asynchronous FL., Comment: Accepted to IEEE JSAC

Published
2021

11. SDF-Bayes: Cautious Optimism in Safe Dose-Finding Clinical Trials with Drug Combinations and Heterogeneous Patient Groups

Author

Lee, Hyun-Suk, Shen, Cong, Zame, William, Lee, Jang-Won, and van der Schaar, Mihaela

Subjects
Computer Science - Machine Learning, Statistics - Applications, Statistics - Machine Learning
Abstract

Phase I clinical trials are designed to test the safety (non-toxicity) of drugs and find the maximum tolerated dose (MTD). This task becomes significantly more challenging when multiple-drug dose-combinations (DC) are involved, due to the inherent conflict between the exponentially increasing DC candidates and the limited patient budget. This paper proposes a novel Bayesian design, SDF-Bayes, for finding the MTD for drug combinations in the presence of safety constraints. Rather than the conventional principle of escalating or de-escalating the current dose of one drug (perhaps alternating between drugs), SDF-Bayes proceeds by cautious optimism: it chooses the next DC that, on the basis of current information, is most likely to be the MTD (optimism), subject to the constraint that it only chooses DCs that have a high probability of being safe (caution). We also propose an extension, SDF-Bayes-AR, that accounts for patient heterogeneity and enables heterogeneous patient recruitment. Extensive experiments based on both synthetic and real-world datasets demonstrate the advantages of SDF-Bayes over state of the art DC trial designs in terms of accuracy and safety., Comment: Accepted to AISTATS 2021

Published
2021

13. Robust Recursive Partitioning for Heterogeneous Treatment Effects with Uncertainty Quantification

Author

Lee, Hyun-Suk, Zhang, Yao, Zame, William, Shen, Cong, Lee, Jang-Won, and van der Schaar, Mihaela

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Subgroup analysis of treatment effects plays an important role in applications from medicine to public policy to recommender systems. It allows physicians (for example) to identify groups of patients for whom a given drug or treatment is likely to be effective and groups of patients for which it is not. Most of the current methods of subgroup analysis begin with a particular algorithm for estimating individualized treatment effects (ITE) and identify subgroups by maximizing the difference across subgroups of the average treatment effect in each subgroup. These approaches have several weaknesses: they rely on a particular algorithm for estimating ITE, they ignore (in)homogeneity within identified subgroups, and they do not produce good confidence estimates. This paper develops a new method for subgroup analysis, R2P, that addresses all these weaknesses. R2P uses an arbitrary, exogenously prescribed algorithm for estimating ITE and quantifies the uncertainty of the ITE estimation, using a construction that is more robust than other methods. Experiments using synthetic and semi-synthetic datasets (based on real data) demonstrate that R2P constructs partitions that are simultaneously more homogeneous within groups and more heterogeneous across groups than the partitions produced by other methods. Moreover, because R2P can employ any ITE estimator, it also produces much narrower confidence intervals with a prescribed coverage guarantee than other methods., Comment: 19 pages, 7 figures, NeurIPS 2020

Published
2020

14. Contextual Constrained Learning for Dose-Finding Clinical Trials

Author

Lee, Hyun-Suk, Shen, Cong, Jordon, James, and van der Schaar, Mihaela

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

Clinical trials in the medical domain are constrained by budgets. The number of patients that can be recruited is therefore limited. When a patient population is heterogeneous, this creates difficulties in learning subgroup specific responses to a particular drug and especially for a variety of dosages. In addition, patient recruitment can be difficult by the fact that clinical trials do not aim to provide a benefit to any given patient in the trial. In this paper, we propose C3T-Budget, a contextual constrained clinical trial algorithm for dose-finding under both budget and safety constraints. The algorithm aims to maximize drug efficacy within the clinical trial while also learning about the drug being tested. C3T-Budget recruits patients with consideration of the remaining budget, the remaining time, and the characteristics of each group, such as the population distribution, estimated expected efficacy, and estimation credibility. In addition, the algorithm aims to avoid unsafe dosages. These characteristics are further illustrated in a simulated clinical trial study, which corroborates the theoretical analysis and demonstrates an efficient budget usage as well as a balanced learning-treatment trade-off., Comment: 18 pages, 5 figures, in Proceedings of the 23rd International Conference on Artificial Intelligence and Statistics (AISTATS) 2020, Palermo, Italy

Published
2020

23. Time-Series Explanatory Fault Prediction Framework for Marine Main Engine Using Explainable Artificial Intelligence.

Author

Je-Gal, Hong, Park, Young-Seo, Park, Seong-Ho, Kim, Ji-Uk, Yang, Jung-Hee, Kim, Sewon, and Lee, Hyun-Suk

Subjects
ENGINE maintenance & repair, ARTIFICIAL intelligence, MARINE engines, PREDICTION models, DEEP learning
Abstract

As engine monitoring data has become more complex with an increasing number of sensors, fault prediction based on artificial intelligence (AI) has emerged. Existing fault prediction models using AI significantly improve the accuracy of predictions by effectively handling such complex data, but at the same time, the problem arises that the AI-based models cannot explain the rationale of their predictions to users. To address this issue, we propose a time-series explanatory fault prediction framework to provide an explainability even when using AI-based fault prediction models. It consists of a data feature reduction process, a fault prediction model training process using long short-term memory, and an interpretation process of the fault prediction model via an explainable AI method. In particular, the proposed framework can explain a fault prediction based on time-series data. Therefore, it indicates which part of the data was significant for the fault prediction not only in terms of sensor type but also in terms of time. Through extensive experiments, we evaluate the proposed framework using various fault data by comparing the prediction performance of fault prediction and by assessing how well the main pre-symptoms of the fault are extracted when predicting a fault. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

24. To Exit or Not to Exit: Cost-Effective Early-Exit Architecture Based on Markov Decision Process.

Author

Kim, Kyu-Sik and Lee, Hyun-Suk

Subjects
*MARKOV processes, *DECISION making, *PROBLEM solving, *ALGORITHMS, *COST
Abstract

Recently, studies on early-exit mechanisms have emerged to reduce the computational cost during the inference process of deep learning models. However, most existing early-exit architectures simply determine early exiting based only on a target confidence level in the prediction, without any consideration of the computational cost. Such an early-exit criterion fails to balance accuracy and cost, making it difficult to use in various environments. To address this problem, we propose a novel, cost-effective early-exit architecture in which an early-exit criterion is designed based on the Markov decision process (MDP). Since the early-exit decisions within an early-exit model are sequential, we model them as an MDP problem to maximize accuracy as much as possible while minimizing the computational cost. Then, we develop a cost-effective early-exit algorithm using reinforcement learning that solves the MDP problem. For each input sample, the algorithm dynamically makes early-exit decisions considering the relative importance of accuracy and computational cost in a given environment, thereby balancing the trade-off between accuracy and cost regardless of the environment. Consequently, it can be used in various environments, even in a resource-constrained environment. Through extensive experiments, we demonstrate that our proposed architecture can effectively balance the trade-off in different environments, while the existing architectures fail to do so since they focus only on reducing their cost while preventing the degradation of accuracy. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

25. Encoding differences in posed negative emotional expressions between prosocials and proselfs

Author

Lee, Hyun-suk, Kim, Sojeong, Kim, Hack-jin, and Ko, Young-gun

Subjects
Emotions -- Research, Facial expression -- Psychological aspects, Psychological research, Self -- Research, Helping behavior -- Research, Psychology and mental health
Abstract

The purpose of this paper was to test whether people with proself orientation would be less accurate in the encoding of negative facial expressions than people with prosocial orientation when they intentionally make facial expressions. Six universal facial expressions, which were anger, disgust, fear, happiness, sadness, and surprise, of 72 participants were photographed. Then, the accuracy of expressing action units (AUs), which are compositions of facial expressions, was measured using an automatic facial expression decoding program. Afterwards, the mean differences in the values of AUs and their combinations of each facial expression between prosocials and proselfs were examined. First, according to the correlation analysis of self-reported measures proself orientation was positively related to amoral manipulation and vulnerable type of narcissism, and negatively related to mental health and emotional competence. Second, compared to prosocials, proselfs expressed less accurately in upper lid raiser for both fear and surprise facial expressions when AUs at the baseline were not controlled. Third, the expression of inner brow raiser in fear facial expression was suppressed among proselfs when the baseline AU was controlled. However, there was no significant difference found in each combination of AUs. Partially supporting our hypothesis, these findings suggest that proselfs express negative emotions less accurately than prosocials, particularly showing suppressed AUs of fear facial expression. This result may reflect proselfs' high exploitativeness and competitiveness as well as suppressed submissiveness, which serve to present themselves as dominant. Further implications of the results of the present study were discussed., Author(s): Hyun-suk Lee [sup.1] , Sojeong Kim [sup.1] , Hack-jin Kim [sup.1] , Young-gun Ko [sup.1] Author Affiliations: (1) grid.222754.4, 0000 0001 0840 2678, Department of Psychology, Korea University, , [...]

Published
2021
Full Text
View/download PDF

27. Early gesture use predicts children's language development in South Korea: New evidence supporting the cross‐cultural importance of pointing.

Author

Shin, So Yeon, Rowe, Meredith L., and Lee, Hyun Suk

Subjects
COMMUNICATIVE competence, MOTHERS, EARLY intervention (Education), NONVERBAL communication, CAREGIVERS, CHILD development, MOTHER-child relationship, VOCABULARY, LANGUAGE acquisition, TRANSCULTURAL medical care
Abstract

Research in the U.S. and other Western countries shows that children's early gesture use, which starts prior to verbal communication, is an important predictor of children's later language development. Despite increasing efforts to study gesture use in diverse contexts, most of our knowledge on the role of gesture is largely based on populations of Western countries. In this study, we add to the growing body of international research by examining gesture use by 31 mothers and their 14‐month‐old infants (12 girls) in South Korea and investigate the gestures used during interaction, and whether early gesture use at 14 months predicts Korean children's later language skills at 36 months. The results showed that in addition to using gestures observed in other cultural contexts, Korean mother‐child dyads used culturally specific gesture (i.e., bowing), showing an early sign of socialization that starts with preverbal children. In addition, Korean infants' index‐finger pointing, but not showing and giving, predicted their later receptive and expressive vocabulary skills at 36 months, providing additional support for the importance of pointing in early language development. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results