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1. CaPo: Cooperative Plan Optimization for Efficient Embodied Multi-Agent Cooperation

Author

Liu, Jie, Zhou, Pan, Du, Yingjun, Tan, Ah-Hwee, Snoek, Cees G. M., Sonke, Jan-Jakob, and Gavves, Efstratios

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

In this work, we address the cooperation problem among large language model (LLM) based embodied agents, where agents must cooperate to achieve a common goal. Previous methods often execute actions extemporaneously and incoherently, without long-term strategic and cooperative planning, leading to redundant steps, failures, and even serious repercussions in complex tasks like search-and-rescue missions where discussion and cooperative plan are crucial. To solve this issue, we propose Cooperative Plan Optimization (CaPo) to enhance the cooperation efficiency of LLM-based embodied agents. Inspired by human cooperation schemes, CaPo improves cooperation efficiency with two phases: 1) meta-plan generation, and 2) progress-adaptive meta-plan and execution. In the first phase, all agents analyze the task, discuss, and cooperatively create a meta-plan that decomposes the task into subtasks with detailed steps, ensuring a long-term strategic and coherent plan for efficient coordination. In the second phase, agents execute tasks according to the meta-plan and dynamically adjust it based on their latest progress (e.g., discovering a target object) through multi-turn discussions. This progress-based adaptation eliminates redundant actions, improving the overall cooperation efficiency of agents. Experimental results on the ThreeDworld Multi-Agent Transport and Communicative Watch-And-Help tasks demonstrate that CaPo achieves much higher task completion rate and efficiency compared with state-of-the-arts., Comment: Under review

Published
2024

2. Deep Reinforcement Learning with Explicit Context Representation

Author

Munguia-Galeano, Francisco, Tan, Ah-Hwee, and Ji, Ze

Subjects
Computer Science - Machine Learning
Abstract

Reinforcement learning (RL) has shown an outstanding capability for solving complex computational problems. However, most RL algorithms lack an explicit method that would allow learning from contextual information. Humans use context to identify patterns and relations among elements in the environment, along with how to avoid making wrong actions. On the other hand, what may seem like an obviously wrong decision from a human perspective could take hundreds of steps for an RL agent to learn to avoid. This paper proposes a framework for discrete environments called Iota explicit context representation (IECR). The framework involves representing each state using contextual key frames (CKFs), which can then be used to extract a function that represents the affordances of the state; in addition, two loss functions are introduced with respect to the affordances of the state. The novelty of the IECR framework lies in its capacity to extract contextual information from the environment and learn from the CKFs' representation. We validate the framework by developing four new algorithms that learn using context: Iota deep Q-network (IDQN), Iota double deep Q-network (IDDQN), Iota dueling deep Q-network (IDuDQN), and Iota dueling double deep Q-network (IDDDQN). Furthermore, we evaluate the framework and the new algorithms in five discrete environments. We show that all the algorithms, which use contextual information, converge in around 40,000 training steps of the neural networks, significantly outperforming their state-of-the-art equivalents., Comment: Manuscript accepted for publication as regular paper in IEEE Transactions on Neural Networks and Learning Systems

Published
2023

7. Who Are the `Silent Spreaders'?: Contact Tracing in Spatio-Temporal Memory Models

Author

Hu, Yue, Subagdja, Budhitama, Tan, Ah-Hwee, Quek, Chai, and Yin, Quanjun

Subjects
Computer Science - Social and Information Networks, Physics - Physics and Society
Abstract

The COVID-19 epidemic has swept the world for over a year. However, a large number of infectious asymptomatic COVID-19 cases (\textit{ACC}s) are still making the breaking up of the transmission chains very difficult. Efforts by epidemiological researchers in many countries have thrown light on the clinical features of ACCs, but there is still a lack of practical approaches to detect ACCs so as to help contain the pandemic. To address the issue of ACCs, this paper presents a neural network model called Spatio-Temporal Episodic Memory for COVID-19 (\textit{STEM-COVID}) to identify ACCs from contact tracing data. Based on the fusion Adaptive Resonance Theory (\textit{ART}), the model encodes a collective spatio-temporal episodic memory of individuals and incorporates an effective mechanism of parallel searches for ACCs. Specifically, the episodic traces of the identified positive cases are used to map out the episodic traces of suspected ACCs using a weighted evidence pooling method. To evaluate the efficacy of STEM-COVID, a realistic agent based simulation model for COVID-19 spreading is implemented based on the recent epidemiological findings on ACCs. The experiments based on rigorous simulation scenarios, manifesting the current situation of COVID-19 spread, show that the STEM-COVID model with weighted evidence pooling has a higher level of accuracy and efficiency for identifying ACCs when compared with several baselines. Moreover, the model displays strong robustness against noisy data and different ACC proportions, which partially reflects the effect of breakthrough infections after vaccination on the virus transmission., Comment: 8 pages, 6 figures, 2 tables

Published
2020

11. Predicting Visual Context for Unsupervised Event Segmentation in Continuous Photo-streams

Author

del Molino, Ana Garcia, Lim, Joo-Hwee, and Tan, Ah-Hwee

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Segmenting video content into events provides semantic structures for indexing, retrieval, and summarization. Since motion cues are not available in continuous photo-streams, and annotations in lifelogging are scarce and costly, the frames are usually clustered into events by comparing the visual features between them in an unsupervised way. However, such methodologies are ineffective to deal with heterogeneous events, e.g. taking a walk, and temporary changes in the sight direction, e.g. at a meeting. To address these limitations, we propose Contextual Event Segmentation (CES), a novel segmentation paradigm that uses an LSTM-based generative network to model the photo-stream sequences, predict their visual context, and track their evolution. CES decides whether a frame is an event boundary by comparing the visual context generated from the frames in the past, to the visual context predicted from the future. We implemented CES on a new and massive lifelogging dataset consisting of more than 1.5 million images spanning over 1,723 days. Experiments on the popular EDUB-Seg dataset show that our model outperforms the state-of-the-art by over 16% in f-measure. Furthermore, CES' performance is only 3 points below that of human annotators., Comment: Accepted for publication at the 2018 ACM Multimedia Conference (MM '18)

Published
2018
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12. CRRN: Multi-Scale Guided Concurrent Reflection Removal Network

Author

Wan, Renjie, Shi, Boxin, Duan, Ling-Yu, Tan, Ah-Hwee, and Kot, Alex C.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Removing the undesired reflections from images taken through the glass is of broad application to various computer vision tasks. Non-learning based methods utilize different handcrafted priors such as the separable sparse gradients caused by different levels of blurs, which often fail due to their limited description capability to the properties of real-world reflections. In this paper, we propose the Concurrent Reflection Removal Network (CRRN) to tackle this problem in a unified framework. Our proposed network integrates image appearance information and multi-scale gradient information with human perception inspired loss function, and is trained on a new dataset with 3250 reflection images taken under diverse real-world scenes. Extensive experiments on a public benchmark dataset show that the proposed method performs favorably against state-of-the-art methods., Comment: Accepted by CVPR 2018

Published
2018

15. Community Discovery in Heterogeneous Social Networks

Author

Meng, Lei, Tan, Ah-Hwee, Wunsch II, Donald C., Jain, Lakhmi C., Editor-in-Chief, Wu, Xindong, Editor-in-Chief, Brahnam, Sheryl, Series Editor, Cook, Diane J, Series Editor, Domingo-Ferrer, Josep, Series Editor, Gabrys, Bogdan, Series Editor, Herrera, Francisco, Series Editor, Mamitsuka, Hiroshi, Series Editor, Phoha, Vir V., Series Editor, Siebes, Arno, Series Editor, de Wilde, Philippe, Series Editor, Meng, Lei, Tan, Ah-Hwee, and Wunsch II, Donald C.

Published
2019
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16. Concluding Remarks

Author

Meng, Lei, Tan, Ah-Hwee, Wunsch II, Donald C., Jain, Lakhmi C., Editor-in-Chief, Wu, Xindong, Editor-in-Chief, Brahnam, Sheryl, Series Editor, Cook, Diane J, Series Editor, Domingo-Ferrer, Josep, Series Editor, Gabrys, Bogdan, Series Editor, Herrera, Francisco, Series Editor, Mamitsuka, Hiroshi, Series Editor, Phoha, Vir V., Series Editor, Siebes, Arno, Series Editor, de Wilde, Philippe, Series Editor, Meng, Lei, Tan, Ah-Hwee, and Wunsch II, Donald C.

Published
2019
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17. Online Multimodal Co-indexing and Retrieval of Social Media Data

Author

Meng, Lei, Tan, Ah-Hwee, Wunsch II, Donald C., Jain, Lakhmi C., Editor-in-Chief, Wu, Xindong, Editor-in-Chief, Brahnam, Sheryl, Series Editor, Cook, Diane J, Series Editor, Domingo-Ferrer, Josep, Series Editor, Gabrys, Bogdan, Series Editor, Herrera, Francisco, Series Editor, Mamitsuka, Hiroshi, Series Editor, Phoha, Vir V., Series Editor, Siebes, Arno, Series Editor, de Wilde, Philippe, Series Editor, Meng, Lei, Tan, Ah-Hwee, and Wunsch II, Donald C.

Published
2019
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18. Socially-Enriched Multimedia Data Co-clustering

Author

Meng, Lei, Tan, Ah-Hwee, Wunsch II, Donald C., Jain, Lakhmi C., Editor-in-Chief, Wu, Xindong, Editor-in-Chief, Brahnam, Sheryl, Series Editor, Cook, Diane J, Series Editor, Domingo-Ferrer, Josep, Series Editor, Gabrys, Bogdan, Series Editor, Herrera, Francisco, Series Editor, Mamitsuka, Hiroshi, Series Editor, Phoha, Vir V., Series Editor, Siebes, Arno, Series Editor, de Wilde, Philippe, Series Editor, Meng, Lei, Tan, Ah-Hwee, and Wunsch II, Donald C.

Published
2019
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19. Personalized Web Image Organization

Author

Meng, Lei, Tan, Ah-Hwee, Wunsch II, Donald C., Jain, Lakhmi C., Editor-in-Chief, Wu, Xindong, Editor-in-Chief, Brahnam, Sheryl, Series Editor, Cook, Diane J, Series Editor, Domingo-Ferrer, Josep, Series Editor, Gabrys, Bogdan, Series Editor, Herrera, Francisco, Series Editor, Mamitsuka, Hiroshi, Series Editor, Phoha, Vir V., Series Editor, Siebes, Arno, Series Editor, de Wilde, Philippe, Series Editor, Meng, Lei, Tan, Ah-Hwee, and Wunsch II, Donald C.

Published
2019
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20. Clustering and Its Extensions in the Social Media Domain

Author

Meng, Lei, Tan, Ah-Hwee, Wunsch II, Donald C., Jain, Lakhmi C., Editor-in-Chief, Wu, Xindong, Editor-in-Chief, Brahnam, Sheryl, Series Editor, Cook, Diane J, Series Editor, Domingo-Ferrer, Josep, Series Editor, Gabrys, Bogdan, Series Editor, Herrera, Francisco, Series Editor, Mamitsuka, Hiroshi, Series Editor, Phoha, Vir V., Series Editor, Siebes, Arno, Series Editor, de Wilde, Philippe, Series Editor, Meng, Lei, Tan, Ah-Hwee, and Wunsch II, Donald C.

Published
2019
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21. Adaptive Resonance Theory (ART) for Social Media Analytics

Author

Meng, Lei, Tan, Ah-Hwee, Wunsch II, Donald C., Jain, Lakhmi C., Editor-in-Chief, Wu, Xindong, Editor-in-Chief, Brahnam, Sheryl, Series Editor, Cook, Diane J, Series Editor, Domingo-Ferrer, Josep, Series Editor, Gabrys, Bogdan, Series Editor, Herrera, Francisco, Series Editor, Mamitsuka, Hiroshi, Series Editor, Phoha, Vir V., Series Editor, Siebes, Arno, Series Editor, de Wilde, Philippe, Series Editor, Meng, Lei, Tan, Ah-Hwee, and Wunsch II, Donald C.

Published
2019
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22. Introduction

Author

Meng, Lei, Tan, Ah-Hwee, Wunsch II, Donald C., Jain, Lakhmi C., Editor-in-Chief, Wu, Xindong, Editor-in-Chief, Brahnam, Sheryl, Series Editor, Cook, Diane J, Series Editor, Domingo-Ferrer, Josep, Series Editor, Gabrys, Bogdan, Series Editor, Herrera, Francisco, Series Editor, Mamitsuka, Hiroshi, Series Editor, Phoha, Vir V., Series Editor, Siebes, Arno, Series Editor, de Wilde, Philippe, Series Editor, Meng, Lei, Tan, Ah-Hwee, and Wunsch II, Donald C.

Published
2019
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28. Autologous umbilical cord blood infusion for the treatment of autism in young children: A within‐subjects open label study on safety (assessed via caregiver report) and efficacy.

Author

Wong, Chui Mae, Tan, Charmain Samantha, Riard, Natasha, Padmini, Yeleswarapu Sita, Daniel, Lourdes Mary, Prasath, Arun, Tan, Ah. Moy, Tan, Thiam Chye, Sultana, Rehena, and Lam, Joyce Ching Mei

Abstract

This study aimed to document the safety and efficacy of a single infusion of autologous umbilical cord blood (UCB) in 20 autistic children aged 24–72 months. A pre‐post treatment within‐subjects open label design was used. At T = 0, 6, 12, and 18 months, participants underwent detailed and structured safety evaluations (via caregiver report), Vineland Adaptive Behavior Scale (Vineland‐3), Stanford Binet Intelligence Scale (SB‐5), Expressive One‐Word Picture Vocabulary Test, Brief Observation of Social Communication Change (BOSCC), Pervasive Developmental Disorder‐Behavior Inventory, Repetitive Behavior Scale‐Revised, Sensory Experience Questionnaire (SEQ‐2.1), Child Behavior Checklist, Clinical Global Impression‐Severity and Improvement (CGI‐I) Scales, and eye‐gaze tracking. UCB infusion was conducted at T = 6 months, hence, 0–6 months was the control period, and 6–18 months the follow‐up period. Of 20 children recruited, 19 completed the study and 1 was withdrawn due to UCB not meeting quality control criteria for infusion. There were 15 males and 4 females with an overall mean (SD) age of 4.15 (0.62) years. Mean (SD) cell dose administered was 38.16 (9.82) million cells/kg. None suffered serious adverse events although there were mild behavioral side effects and one unit grew coagulase negative staphylococcus from a post‐thaw sample. There were no significant differences in Vineland‐3, SB‐5, BOSCC, and SEQ‐2.1 scores at T = 12 and T = 18 months. Twelve participants had T = 18 CGI‐I scores of 2–3 (minimally to much improved), seven participants had scores of 4 (no change). Autologous UCB infusion in autistic children is generally safe but not without risks, including that of infection. In this within‐subjects study, some children showed global symptom improvements while others showed no change. Stem cell therapies for autism should only be conducted under strict clinical trial conditions with clear risk discussions. Lay Summary: This open label clinical trial investigated changes in language, social communication, autism symptoms, behavior, and eye‐gaze tracking in 20 autistic children, comparing a period when they were on regular behavioral interventions to a period after they had received an infusion of their own cord blood. Nineteen children completed the study, as one had to be withdrawn due to the cord blood unit not meeting quality control criteria to be safe enough for infusion. Although cord blood infusion was found to be generally safe, some children had mild temporary side effects affecting their behavior (increased repetitive behaviors, aggression/irritability, hyperactivity, mood swings, sleep problems). One child's cord blood unit sample also showed bacterial growth, although that child remained well after the infusion. Some children showed global symptom improvements while others showed no change. Stem cell therapies for autism should therefore only be conducted within clinical trials with clear risk discussions, including that of infection. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Learning Generalized Video Memory for Automatic Video Captioning

Author

Chang, Poo-Hee, Tan, Ah-Hwee, Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Weikum, Gerhard, Series Editor, Kaenampornpan, Manasawee, editor, Malaka, Rainer, editor, Nguyen, Duc Dung, editor, and Schwind, Nicolas, editor

Published
2018
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39. Meme as Building Block for Evolutionary Optimization of Problem Instances

Author

Feng, Liang, Ong, Yew Soon, Tan, Ah Hwee, and Tsang, Ivor Wai-Hung

Subjects
Computer Science - Neural and Evolutionary Computing
Abstract

A significantly under-explored area of evolutionary optimization in the literature is the study of optimization methodologies that can evolve along with the problems solved. Particularly, present evolutionary optimization approaches generally start their search from scratch or the ground-zero state of knowledge, independent of how similar the given new problem of interest is to those optimized previously. There has thus been the apparent lack of automated knowledge transfers and reuse across problems. Taking the cue, this paper introduces a novel Memetic Computational Paradigm for search, one that models after how human solves problems, and embarks on a study towards intelligent evolutionary optimization of problems through the transfers of structured knowledge in the form of memes learned from previous problem-solving experiences, to enhance future evolutionary searches. In particular, the proposed memetic search paradigm is composed of four culture-inspired operators, namely, Meme Learning, Meme Selection, Meme Variation and Meme Imitation. The learning operator mines for memes in the form of latent structures derived from past experiences of problem-solving. The selection operator identifies the fit memes that replicate and transmit across problems, while the variation operator introduces innovations into the memes. The imitation operator, on the other hand, defines how fit memes assimilate into the search process of newly encountered problems, thus gearing towards efficient and effective evolutionary optimization. Finally, comprehensive studies on two widely studied challenging well established NP-hard routing problem domains, particularly, the capacitated vehicle routing (CVR) and capacitated arc routing (CAR), confirm the high efficacy of the proposed memetic computational search paradigm for intelligent evolutionary optimization of problems.

Published
2012

40. Value-Based Subgoal Discovery and Path Planning for Reaching Long-Horizon Goals

Author

Pateria, Shubham, Subagdja, Budhitama, Tan, Ah-Hwee, and Quek, Chai

Abstract

Learning to reach long-horizon goals in spatial traversal tasks is a significant challenge for autonomous agents. Recent subgoal graph-based planning methods address this challenge by decomposing a goal into a sequence of shorter-horizon subgoals. These methods, however, use arbitrary heuristics for sampling or discovering subgoals, which may not conform to the cumulative reward distribution. Moreover, they are prone to learning erroneous connections (edges) between subgoals, especially those lying across obstacles. To address these issues, this article proposes a novel subgoal graph-based planning method called learning subgoal graph using value-based subgoal discovery and automatic pruning (LSGVP). The proposed method uses a subgoal discovery heuristic that is based on a cumulative reward (value) measure and yields sparse subgoals, including those lying on the higher cumulative reward paths. Moreover, LSGVP guides the agent to automatically prune the learned subgoal graph to remove the erroneous edges. The combination of these novel features helps the LSGVP agent to achieve higher cumulative positive rewards than other subgoal sampling or discovery heuristics, as well as higher goal-reaching success rates than other state-of-the-art subgoal graph-based planning methods.

Published
2024
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41. Transcriptional landscape of B cell precursor acute lymphoblastic leukemia based on an international study of 1,223 cases

Author

Li, Jian-Feng, Dai, Yu-Ting, Lilljebjörn, Henrik, Shen, Shu-Hong, Cui, Bo-Wen, Bai, Ling, Liu, Yuan-Fang, Qian, Mao-Xiang, Kubota, Yasuo, Kiyoi, Hitoshi, Matsumura, Itaru, Miyazaki, Yasushi, Olsson, Linda, Tan, Ah Moy, Ariffin, Hany, Chen, Jing, Takita, Junko, Yasuda, Takahiko, Mano, Hiroyuki, Johansson, Bertil, Yang, Jun J., Yeoh, Allen Eng-Juh, Hayakawa, Fumihiko, Chen, Zhu, Pui, Ching-Hon, Fioretos, Thoas, Chen, Sai-Juan, and Huang, Jin-Yan

Published
2018

43. EEG-Based Emotion Recognition via Fast and Robust Feature Smoothing

Author

Tang, Cheng, Wang, Di, Tan, Ah-Hwee, Miao, Chunyan, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Zeng, Yi, editor, He, Yong, editor, Kotaleski, Jeanette Hellgren, editor, Martone, Maryann, editor, Xu, Bo, editor, Peng, Hanchuan, editor, and Luo, Qingming, editor

Published
2017
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47. Anthracycline-Free Protocol for Favorable-Risk Childhood ALL: A Noninferiority Comparison Between Malaysia-Singapore ALL 2003 and ALL 2010 Studies

Author

Ariffin, Hany, primary, Chiew, Edwynn Kean Hui, additional, Oh, Bernice Ling Zhi, additional, Lee, Shawn Hsien Ren, additional, Lim, Evelyn Huizi, additional, Kham, Shirley Kow Yin, additional, Abdullah, Wan Ariffin, additional, Chan, Lee Lee, additional, Foo, Koon Mian, additional, Lam, Joyce Ching Mei, additional, Chan, Yiong Huak, additional, Lin, Hai Peng, additional, Quah, Thuan Chong, additional, Tan, Ah Moy, additional, and Yeoh, Allen Eng Juh, additional

Published
2023
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49. Cooperative Geometric Scheme for Passive Localization of Target in an Indoor Environment

Author

Ishibuchi, H, Kwoh, CK, Tan, AH, Srinivasan, D, Miao, C, Trivedi, A, Crockett, K, Singh, M, Rathor, VS, Sahoo, KS, Gandomi, AH, Ishibuchi, H, Kwoh, CK, Tan, AH, Srinivasan, D, Miao, C, Trivedi, A, Crockett, K, Singh, M, Rathor, VS, Sahoo, KS, and Gandomi, AH

Abstract

Due to the rapid expansion of the Internet of Things (IoT), modern buildings are equipped with ubiquitous networked devices and ambient sensors. This transformation opened a new opportunity for occupancy detection using the current infrastructure. In the literature review, we identified various solutions that can facilitate passive localization using radio, motion sensors, RFID, NFC, and air quality sensors. However, radio devices are the most effective and inexpensive solution for occupancy detection. Passive localization (PL) is an emerging area of indoor occupancy detection. It has various applications in perimeter security, elderly monitoring, and the intelligent healthcare sector. In PL, the target is localized using the target-induced shadowed links within the wireless network. Researchers investigated various approaches for passive local-ization using analytical geometry and fingerprinting techniques. However, the existing fingerprinting and geometric schemes are computationally expensive and need a dense wireless network for greater accuracy. We have obtained better accuracy in the proposed PL scheme within a sparsely deployed wireless network. The performance of the proposed PL scheme is compared with the state-of-the-art Geometric filter (GF) scheme. The obtained results show that the proposed PL scheme achieved 0.21m mean accuracy of target tracking with 0.20 m of Root Mean Square Error (RMSE).

Published
2023

50. Similarity-based Deep Neural Network to Detect Imperceptible Adversarial Attacks

Author

Ishibuchi, Hisao, Kwoh, Chee-Keong, Tan, Ah-Hwee, Srinivasan, Dipti, Miao, Chunyan, Trivedi, Anupam, Crockett, Keeley, Almeida Soares, Eduardo, Angelov, Plamen, Suri, Neeraj, Ishibuchi, Hisao, Kwoh, Chee-Keong, Tan, Ah-Hwee, Srinivasan, Dipti, Miao, Chunyan, Trivedi, Anupam, Crockett, Keeley, Almeida Soares, Eduardo, Angelov, Plamen, and Suri, Neeraj

Abstract

Deep neural networks (DNN’s) have become essential for solving diverse complex problems and have achieved considerable success in tackling computer vision tasks. How-ever, DNN’s are vulnerable to human-imperceptible adversarial distortion/noise patterns that that can detrimentally impact safety-critical applications such as autonomous driving. In this paper, we introduce a novel robust-by-design deep learn-ing approach, Sim-DNN, that is able to detect adversarial attacks through its inner defense mechanism that considers the degree of similarity between new data samples and autonomously chosen prototypes. The approach benefits from the abrupt drop of the similarity score to detect concept changes caused by distorted/noise data when comparing their similarities against the set of prototypes. Due to the feed-forward prototype-based architecture of Sim-DNN, no re-training or adversarial training is required. In order to evaluate the robustness of the proposed method, we considered the recently introduced ImageNet-R dataset and different adversarial attack methods such as FGSM, PGD, and DDN. Different DNN’s methods were also considered in the analysis. Results have shown that the proposed Sim-DNN is able to detect adversarial attacks with better performance than its mainstream competitors. Moreover, as no adversarial training is required by Sim-DNN, its performance on clean and robust images is more stable than its competitors which require an external defense mechanism to improve their robustness.

Published
2023

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