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29 results on '"Zheming Zuo"'

1. USV Path Planning in a Hybrid Map Using a Genetic Algorithm with a Feedback Mechanism

Author

Hang Gao, Tingting Zhang, Zheming Zuo, Xuan Guo, Yang Long, Da Qiu, and Song Liu

Subjects
USV, hybrid map, path planning, genetic algorithm, feedback mechanism, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

Unmanned surface vehicles (USVs) often operate in real-world environments with long voyage distances and complex routes. The use of a single-grid map model presents challenges, such as the high computational costs for high-resolution maps and loss of environmental information for low-resolution maps. This article proposes an environmental modeling method using a hybrid map that combines topology units and grids. The approach involves calibrating key nodes based on the watershed skeleton line, constructing a topology map using these nodes, decomposing the original map into unit maps, converting each unit map into a grid map, and creating a hybrid map environment model that comprises topology maps, unit map sets, and grid map sets. Then, the article introduces an improved genetic algorithm, called Genetic Algorithm with Feedback (FGA), to address path planning in hybrid maps. Experimental results demonstrate that FGA has better computational efficiency than other algorithms in similar experimental environments. In hybrid maps, path planning with FGA reduces the path lengths and time consumption, and the paths are more logical, smooth, and continuous. These findings contribute to enhancing the quality of path planning and the practical value of USVs.

Published
2024
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2. Data Anonymization for Pervasive Health Care: Systematic Literature Mapping Study

Author

Zheming Zuo, Matthew Watson, David Budgen, Robert Hall, Chris Kennelly, and Noura Al Moubayed

Subjects
Computer applications to medicine. Medical informatics, R858-859.7
Abstract

BackgroundData science offers an unparalleled opportunity to identify new insights into many aspects of human life with recent advances in health care. Using data science in digital health raises significant challenges regarding data privacy, transparency, and trustworthiness. Recent regulations enforce the need for a clear legal basis for collecting, processing, and sharing data, for example, the European Union’s General Data Protection Regulation (2016) and the United Kingdom’s Data Protection Act (2018). For health care providers, legal use of the electronic health record (EHR) is permitted only in clinical care cases. Any other use of the data requires thoughtful considerations of the legal context and direct patient consent. Identifiable personal and sensitive information must be sufficiently anonymized. Raw data are commonly anonymized to be used for research purposes, with risk assessment for reidentification and utility. Although health care organizations have internal policies defined for information governance, there is a significant lack of practical tools and intuitive guidance about the use of data for research and modeling. Off-the-shelf data anonymization tools are developed frequently, but privacy-related functionalities are often incomparable with regard to use in different problem domains. In addition, tools to support measuring the risk of the anonymized data with regard to reidentification against the usefulness of the data exist, but there are question marks over their efficacy. ObjectiveIn this systematic literature mapping study, we aim to alleviate the aforementioned issues by reviewing the landscape of data anonymization for digital health care. MethodsWe used Google Scholar, Web of Science, Elsevier Scopus, and PubMed to retrieve academic studies published in English up to June 2020. Noteworthy gray literature was also used to initialize the search. We focused on review questions covering 5 bottom-up aspects: basic anonymization operations, privacy models, reidentification risk and usability metrics, off-the-shelf anonymization tools, and the lawful basis for EHR data anonymization. ResultsWe identified 239 eligible studies, of which 60 were chosen for general background information; 16 were selected for 7 basic anonymization operations; 104 covered 72 conventional and machine learning–based privacy models; four and 19 papers included seven and 15 metrics, respectively, for measuring the reidentification risk and degree of usability; and 36 explored 20 data anonymization software tools. In addition, we also evaluated the practical feasibility of performing anonymization on EHR data with reference to their usability in medical decision-making. Furthermore, we summarized the lawful basis for delivering guidance on practical EHR data anonymization. ConclusionsThis systematic literature mapping study indicates that anonymization of EHR data is theoretically achievable; yet, it requires more research efforts in practical implementations to balance privacy preservation and usability to ensure more reliable health care applications.

Published
2021
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3. Gaze-Informed Egocentric Action Recognition for Memory Aid Systems

Author

Zheming Zuo, Longzhi Yang, Yonghong Peng, Fei Chao, and Yanpeng Qu

Subjects
Gaze-informed egocentric action recognition, gaze-informed region of interest, memory aid, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Egocentric action recognition has been intensively studied in the fields of computer vision and clinical science with applications in pervasive health-care. The majority of the existing egocentric action recognition techniques utilize the features extracted from either the entire contents or the regions of interest (ROI) in video frames as the inputs of action classifiers. The former might suffer from moving backgrounds or irrelevant foregrounds usually associated with egocentric action videos, while the latter may be impaired by the mismatch between the calculated and the ground truth ROI. This paper proposes a new gaze-informed feature extraction approach, by which the features are extracted from the regions around the gaze points and thus representing the genuine ROI from a first person of view. The activity of daily life can then be classified based only on the identified regions using the extracted gaze-informed features. The proposed approach has been further applied to a memory support system for people with poor memory, such as those with amnesia or dementia, and their carers. The experimental results demonstrate the efficacy of the proposed approach in egocentric action recognition, and thus the potential of the memory support tool in health care.

Published
2018
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4. Enhanced Gradient-Based Local Feature Descriptors by Saliency Map for Egocentric Action Recognition

Author

Zheming Zuo, Bo Wei, Fei Chao, Yanpeng Qu, Yonghong Peng, and Longzhi Yang

Subjects
saliency map, local feature descriptors, egocentric action recognition, HOG, HMG, HOF, MBH, Technology, Applied mathematics. Quantitative methods, T57-57.97
Abstract

Egocentric video analysis is an important tool in healthcare that serves a variety of purposes, such as memory aid systems and physical rehabilitation, and feature extraction is an indispensable process for such analysis. Local feature descriptors have been widely applied due to their simple implementation and reasonable efficiency and performance in applications. This paper proposes an enhanced spatial and temporal local feature descriptor extraction method to boost the performance of action classification. The approach allows local feature descriptors to take advantage of saliency maps, which provide insights into visual attention. The effectiveness of the proposed method was validated and evaluated by a comparative study, whose results demonstrated an improved accuracy of around 2%.

Published
2019
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17. A multi-subpopulation bacterial foraging optimisation algorithm with deletion and immigration strategies for unmanned surface vehicle path planning

Author

Zheming Zuo, Yang Long, Yixin Su, Jie Li, and Binghua Shi

Subjects
0209 industrial biotechnology, Mathematical optimization, Unmanned surface vehicle, Computer science, Mechanical Engineering, 010401 analytical chemistry, Control (management), Foraging, Computational Mechanics, 02 engineering and technology, 01 natural sciences, 0104 chemical sciences, 020901 industrial engineering & automation, Artificial Intelligence, Face (geometry), Path (graph theory), Convergence (routing), Optimisation algorithm, Motion planning, Engineering (miscellaneous)
Abstract

With the advantages of flexible control ability, unmanned surface vehicle (USV) has been widely applied in civil and military fields. A number of researchers have been working on the development of intelligent path planning algorithms to plan a high-quality and collision-free path which is applied to guide USV through cluttered environments. The conventional algorithms may either have issues with trapping into a local optimal solution or face a slow convergence problem. This paper presents a novel multi-subpopulation bacterial foraging optimisation (MS-BFO) algorithm for USV path planning that enhances the searching performance, especially, in a complex environment. This method constructs the deletion and immigration strategies (DIS), which guarantees the elite optimised individual of each subpopulation to be inherited by others, thus to consequently lead to fast convergence speed. The experimental results show that the proposed method is able to suggest an optimised path within the shortest length of time, compared with other optimisation algorithms.

Published
2021

18. An A*-based Bacterial Foraging Optimisation Algorithm for Global Path Planning of Unmanned Surface Vehicles

Author

Yang Long, Huajun Zhang, Zheming Zuo, Yixin Su, and Jie Li

Subjects
Surface (mathematics), 0209 industrial biotechnology, Mathematical optimization, Computer science, Foraging, A* search algorithm, Ocean Engineering, Context (language use), 02 engineering and technology, Oceanography, Grid, law.invention, 020901 industrial engineering & automation, law, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Optimisation algorithm, Sensitivity (control systems), Motion planning
Abstract

The bacterial foraging optimisation (BFO) algorithm is a commonly adopted bio-inspired optimisation algorithm. However, BFO is not a proper choice in coping with continuous global path planning in the context of unmanned surface vehicles (USVs). In this paper, a grid partition-based BFO algorithm, named AS-BFO, is proposed to address this issue in which the enhancement is contributed by the involvement of the A* algorithm. The chemotaxis operation is redesigned in AS-BFO. Through repeated simulations, the relative optimal parameter combination of the proposed algorithm is obtained and the most influential parameters are identified by sensitivity analysis. The performance of AS-BFO is evaluated via five size grid maps and the results show that AS-BFO has advantages in USV global path planning.

Published
2020

19. Advancing Image Understanding in Poor Visibility Environments: A Collective Benchmark Study

Author

Taiheng Zhang, Zhenyu Chen, Xiaochuan Li, Xiaochao Qu, Huicai Zhong, Tingyu Lin, Jingwen Wang, Hao Jiang, Jinxiu Liang, Chubing Zhuang, Shengdi Zhou, Siyuan Yang, Jianfei Yang, Liguo Zhou, Yuqiang Zheng, Chang Guo, Bo Liu, Tianyi Chen, Shizheng Wang, Kai Wang, Likun Qin, Zhonghao Li, Xin Liu, Shuai Zheng, Lin Gu, Shifeng Zhang, Yan Liu, Wenjuan Liao, Zheming Zuo, Minhui Zhong, Shiliang Pu, Walter J. Scheirer, Yuhong Xie, Dong Yi, Ruizhe Liu, Chen Hong, Heng Guo, Yanyun Qu, Yuhui Quan, Pengfei Wan, Yao Zhao, Liang Chen, Ye Yuan, Jiangang Yang, Taiyi Su, Cheng Chi, Zhenfeng Zhu, Wenqi Ren, Yong Xu, Xingyu Gao, Jianning Chi, Jing Huang, Cong Cao, Qi Sun, Stan Z. Li, Huan Wang, Yandong Guo, Feng Lu, Lingzhi He, Yongzhou Li, Zhangyang Wang, Zhen Lei, Di Xie, Wenhan Yang, Yixiu Liu, Qiaoyong Zhong, Jiaying Liu, and Mingyue Feng

Subjects
Computer science, Visibility (geometry), 02 engineering and technology, Computer Graphics and Computer-Aided Design, Data science, Object (philosophy), Object detection, Task (project management), 0202 electrical engineering, electronic engineering, information engineering, Benchmark (computing), 020201 artificial intelligence & image processing, Baseline (configuration management), Focus (optics), Face detection, Software
Abstract

Existing enhancement methods are empirically expected to help the high-level end computer vision task: however, that is observed to not always be the case in practice. We focus on object or face detection in poor visibility enhancements caused by bad weathers (haze, rain) and low light conditions. To provide a more thorough examination and fair comparison, we introduce three benchmark sets collected in real-world hazy, rainy, and low-light conditions, respectively, with annotated objects/faces. We launched the UG2+ challenge Track 2 competition in IEEE CVPR 2019, aiming to evoke a comprehensive discussion and exploration about whether and how low-level vision techniques can benefit the high-level automatic visual recognition in various scenarios. To our best knowledge, this is the first and currently largest effort of its kind. Baseline results by cascading existing enhancement and detection models are reported, indicating the highly challenging nature of our new data as well as the large room for further technical innovations. Thanks to a large participation from the research community, we are able to analyze representative team solutions, striving to better identify the strengths and limitations of existing mindsets as well as the future directions.

Published
2020

20. Data Anonymization for Pervasive Health Care: Systematic Literature Mapping Study (Preprint)

Author

Zheming Zuo, Matthew Watson, David Budgen, Robert Hall, Chris Kennelly, and Noura Al Moubayed

Abstract

BACKGROUND Data science offers an unparalleled opportunity to identify new insights into many aspects of human life with recent advances in health care. Using data science in digital health raises significant challenges regarding data privacy, transparency, and trustworthiness. Recent regulations enforce the need for a clear legal basis for collecting, processing, and sharing data, for example, the European Union’s General Data Protection Regulation (2016) and the United Kingdom’s Data Protection Act (2018). For health care providers, legal use of the electronic health record (EHR) is permitted only in clinical care cases. Any other use of the data requires thoughtful considerations of the legal context and direct patient consent. Identifiable personal and sensitive information must be sufficiently anonymized. Raw data are commonly anonymized to be used for research purposes, with risk assessment for reidentification and utility. Although health care organizations have internal policies defined for information governance, there is a significant lack of practical tools and intuitive guidance about the use of data for research and modeling. Off-the-shelf data anonymization tools are developed frequently, but privacy-related functionalities are often incomparable with regard to use in different problem domains. In addition, tools to support measuring the risk of the anonymized data with regard to reidentification against the usefulness of the data exist, but there are question marks over their efficacy. OBJECTIVE In this systematic literature mapping study, we aim to alleviate the aforementioned issues by reviewing the landscape of data anonymization for digital health care. METHODS We used Google Scholar, Web of Science, Elsevier Scopus, and PubMed to retrieve academic studies published in English up to June 2020. Noteworthy gray literature was also used to initialize the search. We focused on review questions covering 5 bottom-up aspects: basic anonymization operations, privacy models, reidentification risk and usability metrics, off-the-shelf anonymization tools, and the lawful basis for EHR data anonymization. RESULTS We identified 239 eligible studies, of which 60 were chosen for general background information; 16 were selected for 7 basic anonymization operations; 104 covered 72 conventional and machine learning–based privacy models; four and 19 papers included seven and 15 metrics, respectively, for measuring the reidentification risk and degree of usability; and 36 explored 20 data anonymization software tools. In addition, we also evaluated the practical feasibility of performing anonymization on EHR data with reference to their usability in medical decision-making. Furthermore, we summarized the lawful basis for delivering guidance on practical EHR data anonymization. CONCLUSIONS This systematic literature mapping study indicates that anonymization of EHR data is theoretically achievable; yet, it requires more research efforts in practical implementations to balance privacy preservation and usability to ensure more reliable health care applications.

Published
2021

21. Histogram of Fuzzy Local Spatio-Temporal Descriptors for Video Action Recognition

Author

Longzhi Yang, Yonghuai Liu, Yanpeng Qu, Ran Song, Fei Chao, and Zheming Zuo

Subjects
Pixel, Computer science, business.industry, G400, 020208 electrical & electronic engineering, Feature extraction, Optical flow, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, 02 engineering and technology, Fuzzy logic, Computer Science Applications, Visualization, Histogram of oriented gradients, Control and Systems Engineering, Feature (computer vision), Computer Science::Computer Vision and Pattern Recognition, Histogram, Computer Science::Multimedia, 0202 electrical engineering, electronic engineering, information engineering, Artificial intelligence, Electrical and Electronic Engineering, business, Information Systems
Abstract

Feature extraction plays a vital role in visual action recognition. Many existing gradient-based feature extractors, including histogram of oriented gradients (HOG), histogram of optical flow (HOF), motion boundary histograms (MBH), and histogram of motion gradients (HMG), build histograms for representing different actions over the spatio-temporal domain in a video. However, these methods require to set the number of bins for information aggregation in advance. Varying numbers of bins usually lead to inherent uncertainty within the process of pixel voting with regard to the bins in the histogram. This paper proposes a novel method to handle such uncertainty by fuzzifying these feature extractors. The proposed approach has two advantages: i) it better represents the ambiguous boundarie between the bins and thus the fuzziness of th spatio-temporal visual information entailed in videos, and ii) the contribution of each pixel is flexibly controlled by a fuzziness parameter for various scenarios. The proposed family of fuzzy descriptors and a combination of them were evaluate on two publicly available datasets, demonstrating that the proposed approach outperforms the original counterparts and other state-of-the-art methods.

Published
2020

22. Gaze-Informed Egocentric Action Recognition for Memory Aid Systems

Author

Yanpeng Qu, Zheming Zuo, Longzhi Yang, Fei Chao, and Yonghong Peng

Subjects
General Computer Science, Computer science, Speech recognition, Feature extraction, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Amnesia, 02 engineering and technology, memory aid, Encoding (memory), 0202 electrical engineering, electronic engineering, information engineering, medicine, Dementia, General Materials Science, Data_Science, G400, gaze-informed region of interest, General Engineering, 020207 software engineering, Gaze-informed egocentric action recognition, medicine.disease, Gaze, Visualization, Action (philosophy), Task analysis, 020201 artificial intelligence & image processing, lcsh:Electrical engineering. Electronics. Nuclear engineering, medicine.symptom, lcsh:TK1-9971
Abstract

Egocentric action recognition has been intensively studied in the fields of computer vision and clinical science with applications in pervasive health-care. The majority of the existing egocentric action recognition techniques utilize the features extracted from either the entire contents or the regions of interest in video frames as the inputs of action classifiers. The former might suffer from moving backgrounds or irrelevant foregrounds usually associated with egocentric action videos, while the latter may be impaired by the mismatch between the calculated and the ground truth regions of interest. This paper proposes a new gaze-informed feature extraction approach, by which the features are extracted from the regions around the gaze points and thus representing the genuine regions of interest from a first person of view. The activity of daily life can then be classified based only on the identified regions using the extracted gaze-informed features. The proposed approach has been further applied to a memory support system for people with poor memory, such as those with Amnesia or dementia, and their carers. The experimental results demonstrate the efficacy of the proposed approach in egocentric action recognition and thus the potential of the memory support tool in health care.

Published
2018

23. Curvature-based feature selection with application in classifying electronic health records

Author

Han Xu, Zheming Zuo, Noura Al Moubayed, and Jie Li

Subjects
FOS: Computer and information sciences, Computer Science - Machine Learning, Source code, Computer Science - Artificial Intelligence, Computer science, media_common.quotation_subject, Dimensionality reduction, Rank (computer programming), Feature selection, Filter (signal processing), computer.software_genre, Machine Learning (cs.LG), Data set, Artificial Intelligence (cs.AI), Management of Technology and Innovation, Quality (business), Data pre-processing, Data mining, Business and International Management, computer, Applied Psychology, media_common
Abstract

Disruptive technologies provides unparalleled opportunities to contribute to the identifications of many aspects in pervasive healthcare, from the adoption of the Internet of Things through to Machine Learning (ML) techniques. As a powerful tool, ML has been widely applied in patient-centric healthcare solutions. To further improve the quality of patient care, Electronic Health Records (EHRs) are commonly adopted in healthcare facilities for analysis. It is a crucial task to apply AI and ML to analyse those EHRs for prediction and diagnostics due to their highly unstructured, unbalanced, incomplete, and high-dimensional nature. Dimensionality reduction is a common data preprocessing technique to cope with high-dimensional EHR data, which aims to reduce the number of features of EHR representation while improving the performance of the subsequent data analysis, e.g. classification. In this work, an efficient filter-based feature selection method, namely Curvature-based Feature Selection (CFS), is presented. The proposed CFS applied the concept of Menger Curvature to rank the weights of all features in the given data set. The performance of the proposed CFS has been evaluated in four well-known EHR data sets, including Cervical Cancer Risk Factors (CCRFDS), Breast Cancer Coimbra (BCCDS), Breast Tissue (BTDS), and Diabetic Retinopathy Debrecen (DRDDS). The experimental results show that the proposed CFS achieved state-of-the-art performance on the above data sets against conventional PCA and other most recent approaches. The source code of the proposed approach is publicly available at https://github.com/zhemingzuo/CFS., Comment: Accepted by Technological Forecasting and Social Change; Source code available

Published
2021

24. Adaptive Activation Function Generation for Artificial Neural Networks through Fuzzy Inference with Application in Grooming Text Categorisation

Author

Jie Li, Zheming Zuo, Nitin Naik, Longzhi Yang, Fei Chao, and Bo Wei

Subjects
0209 industrial biotechnology, Artificial neural network, business.industry, Activation function, Inference, Pattern recognition, 02 engineering and technology, Function (mathematics), G700, Fuzzy logic, Set (abstract data type), Range (mathematics), 020901 industrial engineering & automation, Genetic algorithm, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Artificial intelligence, business
Abstract

The activation function is introduced to determine the output of neural networks by mapping the resulting values of neurons into a specific range. The activation functions often suffer from ‘gradient vanishing’, ‘non zero-centred function outputs’, ‘exploding gradients’, and ‘dead neurons’, which may lead to deterioration in the classification performance. This paper proposes an activation function generation approach using the Takagi-Sugeno-Kang inference in an effort to address such challenges. In addition, the proposed method further optimises the coefficients in the activation function using the genetic algorithm such that the activation function can adapt to different applications. This approach has been applied to a digital forensics application of online grooming detection. The evaluations confirm the superiority of the proposed activation function for online grooming detection using an unbalanced data set.

Published
2019

25. Enhanced Gradient-Based Local Feature Descriptors by Saliency Map for Egocentric Action Recognition

Author

Bo Wei, Longzhi Yang, Zheming Zuo, Yanpeng Qu, Fei Chao, and Yonghong Peng

Subjects
Computer science, Feature extraction, Local feature descriptor, 02 engineering and technology, Memory aid, lcsh:Technology, Industrial and Manufacturing Engineering, MBH, B800, HOF, HOG, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Saliency map, HMG, egocentric action recognition, business.industry, lcsh:T, Applied Mathematics, G400, local feature descriptors, lcsh:T57-57.97, Process (computing), 020207 software engineering, Pattern recognition, saliency map, Human-Computer Interaction, Control and Systems Engineering, Feature (computer vision), Gradient based algorithm, lcsh:Applied mathematics. Quantitative methods, Action recognition, 020201 artificial intelligence & image processing, Artificial intelligence, business, Information Systems
Abstract

Egocentric video analysis is an important tool in healthcare that serves a variety of purposes, such as memory aid systems and physical rehabilitation, and feature extraction is an indispensable process for such analysis. Local feature descriptors have been widely applied due to their simple implementation and reasonable efficiency and performance in applications. This paper proposes an enhanced spatial and temporal local feature descriptor extraction method to boost the performance of action classification. The approach allows local feature descriptors to take advantage of saliency maps, which provide insights into visual attention. The effectiveness of the proposed method was validated and evaluated by a comparative study, whose results demonstrated an improved accuracy of around 2%.

Published
2019

26. Dendritic Cell Algorithm with Fuzzy Inference System for Input Signal Generation

Author

Longzhi Yang, Noe Elisa, Zheming Zuo, Jie Li, Lotfi, Ahmad, Bouchachia, Hamid, Gegov, Alexander, Langensiepen, Caroline, and McGinnity, Martin

Subjects
Computer science, business.industry, G400, Process (computing), Initialization, Pattern recognition, Feature selection, 02 engineering and technology, Function (mathematics), Signal, Data set, Set (abstract data type), Binary classification, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Artificial intelligence, business
Abstract

Dendritic cell algorithm (DCA) is a binary classification system developed by abstracting the biological danger theory and the functioning of human dendritic cells. The DCA takes three signals as inputs, including danger, safe and pathogenic associated molecular pattern (PAMP), which are generated in its pre-processing and initialization phase. In particular, after a feature selection process for a given training data set, each selected attribute is assigned to one of the three input signals. Then, these input signals are calculated as the aggregation of their associated features, usually implemented by a simple average function followed by a normalisation process. If a nonlinear relationship exists between a signal and its corresponding selected attributes, the resulting signal using the average function may negatively affect the classification results of the DCA. This work proposes an approach named TSK-DCA to address such limitation by aggregating the assigned features of a signal linearly or non-linearly depending on their inherit relationship using the TSK+ fuzzy inference system. The proposed approach was evaluated and validated using the popular KDD99 data set, and the experimental results indicate the superiority of the proposed approach compared to its conventional counterpart.

Published
2018

27. Grooming Detection using Fuzzy-Rough Feature Selection and Text Classification

Author

Philip Anderson, Nitin Naik, Longzhi Yang, Zheming Zuo, and Jie Li

Subjects
Training set, Computer science, business.industry, G400, Feature extraction, Digital forensics, Feature selection, 02 engineering and technology, Machine learning, computer.software_genre, Fuzzy logic, Electronic mail, Data set, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Decision boundary, 020201 artificial intelligence & image processing, Artificial intelligence, business, computer
Abstract

Online child grooming detection has recently attracted intensive research interests from both the machine learning community and digital forensics community due to its great social impact. The existing data-driven approaches usually face the challenges of lack of training data and the uncertainty of classes in terms of the classification or decision boundary. This paper proposes a grooming detection approach in an effort to address such uncertainty based on a data set derived from a publicly available profiling data set. In particular, the approach firstly applies the conventional text feature extraction approach in identifying the most significant words in the data set. This is followed by the application of a fuzzy-rough feature selection approach in reducing the high dimensions of the selected words for fast processing, which at the same time addressing the uncertainty of class boundaries. The experimental results demonstrate the efficiency and efficacy of the proposed approach in detecting child grooming.

Published
2018

28. A Fall Detection/Recognition System and an Empirical Study of Gradient-Based Feature Extraction Approaches

Author

Graham Sexton, Ryan Cameron, Zheming Zuo, and Longzhi Yang

Subjects
Engineering, Artificial neural network, business.industry, 0206 medical engineering, Feature extraction, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Optical flow, Ranging, 02 engineering and technology, 020601 biomedical engineering, Motion (physics), Empirical research, Histogram of oriented gradients, Histogram, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Computer vision, Artificial intelligence, business
Abstract

Physically falling down amongst the elder helpless party is one of the most intractable issues in the era of ageing society, which has attracted intensive attentions in academia ranging from clinical research to computer vision studies. This paper proposes a fall detection/recognition system within the realm of computer vision. The proposed system integrates a group of gradient-based local visual feature extraction approaches, including histogram of oriented gradients (HOG), histogram of motion gradients (HMG), histogram of optical flow (HOF), and motion boundary histograms (MBH). A comparative study of the descriptors with the support of an artificial neural network was conducted based on an in-house captured dataset. The experimental results demonstrated the effectiveness of the proposed system and the power of these descriptors in real-world applications.

Published
2017

29. Fuzzy Interpolation Systems and Applications

Author

Yanpeng Qu, Longzhi Yang, Fei Chao, and Zheming Zuo

Subjects
Fuzzy electronics, 0209 industrial biotechnology, 020901 industrial engineering & automation, Computer science, 0202 electrical engineering, electronic engineering, information engineering, Fuzzy set operations, Bilinear interpolation, 020201 artificial intelligence & image processing, 02 engineering and technology, Fuzzy interpolation, Algorithm
Published
2017

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