Showing total 299 results

1. New approach to solving the clustered shortest-path tree problem based on reducing the search space of evolutionary algorithm

Author

Pham Dinh Thanh, Ta Bao Thang, and Huynh Thi Thanh Binh

Subjects

FOS: Computer and information sciences, Mathematical optimization, Information Systems and Management, Optimization problem, Spanning tree, Computer science, Shortest-path tree, Evolutionary algorithm, Computer Science - Neural and Evolutionary Computing, Approximation algorithm, 02 engineering and technology, Space (commercial competition), Management Information Systems, Tree (data structure), Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Neural and Evolutionary Computing (cs.NE), Dijkstra's algorithm, Software

Abstract

Along with the development of manufacture and services, the problem of distribution network optimization has been growing in importance, thus receiving much attention from the research community. One of the most recently introduced network optimization problems is the Clustered Shortest-Path Tree Problem (CluSTP). Since the problem is NP-Hard, recent approaches often prefer to use approximation algorithms to solve it, several of which used Evolutionary Algorithms (EAs) and have been proven to be effective. However, most of the prior studies directly applied EAs to the whole CluSTP problem, which leads to a great amount of resource consumption, especially when the problem size is large. To overcome these limitations, this paper suggests a method for reducing the search space of the EAs applied to CluSTP by decomposing the original problem into two sub-problems, the solution to one of which is found by an EAs and that to the other is found by another method. The goal of the first sub-problem is to determine a spanning tree which connects among the clusters, while the goal of the second sub-problem is to determine the best spanning tree for each cluster. In addition, this paper proposes a new EAs, which can be applied to solve the first sub-problem and suggests using the Dijkstra's algorithm to solve the second sub-problem. The proposed approach is comprehensively experimented and compared with existing methods. Experimental results prove that our method is more efficient and more importantly, it can obtain results which are close to the optimal results., 27 pages, 7 figures

Published

2019

2. Binary dragonfly optimization for feature selection using time-varying transfer functions

Author

Seyedali Mirjalili, Hossam Faris, Xiaodong Li, Ibrahim Aljarah, Ali Asghar Heidari, Majdi Mafarja, and Philippe Fournier-Viger

Subjects

0209 industrial biotechnology, education.field_of_study, Information Systems and Management, Optimization problem, Computer science, Population, Binary number, Particle swarm optimization, Feature selection, 02 engineering and technology, Management Information Systems, 020901 industrial engineering & automation, Artificial Intelligence, Genetic algorithm, 0202 electrical engineering, electronic engineering, information engineering, Benchmark (computing), 020201 artificial intelligence & image processing, education, Selection algorithm, Algorithm, Software

Abstract

The Dragonfly Algorithm (DA) is a recently proposed heuristic search algorithm that was shown to have excellent performance for numerous optimization problems. In this paper, a wrapper-feature selection algorithm is proposed based on the Binary Dragonfly Algorithm (BDA). The key component of the BDA is the transfer function that maps a continuous search space to a discrete search space. In this study, eight transfer functions, categorized into two families (S-shaped and V-shaped functions) are integrated into the BDA and evaluated using eighteen benchmark datasets obtained from the UCI data repository. The main contribution of this paper is the proposal of time-varying S-shaped and V-shaped transfer functions to leverage the impact of the step vector on balancing exploration and exploitation. During the early stages of the optimization process, the probability of changing the position of an element is high, which facilitates the exploration of new solutions starting from the initial population. On the other hand, the probability of changing the position of an element becomes lower towards the end of the optimization process. This behavior is obtained by considering the current iteration number as a parameter of transfer functions. The performance of the proposed approaches is compared with that of other state-of-art approaches including the DA, binary grey wolf optimizer (bGWO), binary gravitational search algorithm (BGSA), binary bat algorithm (BBA), particle swarm optimization (PSO), and genetic algorithm in terms of classification accuracy, sensitivity, specificity, area under the curve, and number of selected attributes. Results show that the time-varying S-shaped BDA approach outperforms compared approaches.

Published

2018

3. An integrated interval type-2 fuzzy technique for democratic–autocratic​ multi-criteria decision making

Author

Shu-Ping Wan, Jiu-Ying Dong, and Ze-hui Chen

Subjects

Mathematical optimization, Information Systems and Management, Computer science, Rank (computer programming), Fuzzy set, Stability (learning theory), 02 engineering and technology, Interval (mathematics), Fuzzy logic, Group decision-making, Management Information Systems, Consistency (database systems), Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Pairwise comparison, Software

Abstract

This paper develops an integrated trapezoidal interval type-2 fuzzy (TrIT2F) technique for democratic–autocratic multi-criteria group decision making based on best–worstmethod (BWM) and VIKOR (VIsekriterijumska optimizacija i KOm-promisno Resenje), which is called TrIT2F-BW-VIKOR. In this technique, the pairwise comparisons and evaluations are represented by trapezoidal interval type-2 fuzzy sets (TrIT2FSs). The existing definition of TrIT2FS is perfected by adding two rational constraints proposed in this paper. A weight-normalizing theorem is initiated to normalize the TrIT2F weights. To determine the TrIT2F weights of junior decision makers (JDMs) and criteria, the classical BWM is extended into TrIT2F environment, which is called TrIT2F-BWM. In this TrIT2F-BWM, the weight-normalizing theorem is applied to normalize the TrIT2F weights, a consistency ratio is designed to check the reliability of the obtained TrIT2F weights. Based on the determined weights of JDMs and criteria, an extended VIKOR is developed to rank alternatives. The proposed technique can not only effectively retain the inherent fuzzy information of TrIT2FSs, but also flexibly handle different decision situations. The validity of the proposed technique is demonstrated with a makeshift (fangcang) hospital selection example on COVID-19. Some sensitivity and comparison analyses are provided to show the stability, flexibility, and superiorities of the proposed technique.

Published

2021

4. The soft-margin Support Vector Machine with ordered weighted average

Author

Antonio M. Rodríguez-Chía, Justo Puerto, Luisa I. Martínez-Merino, Alfredo Marín, Universidad de Sevilla. Departamento de Estadística e Investigación Operativa, and Estadística e Investigación Operativa

Subjects

Support Vector Machine, Mixed integer quadratic programming, Information Systems and Management, Computer science, Heuristic, Contrast (statistics), Extension (predicate logic), Classification, Data science, Management Information Systems, Support vector machine, Quadratic equation, Exact solutions in general relativity, Hyperplane, Integer, Artificial Intelligence, OWA operators, Applied mathematics, Software

Abstract

This paper deals with a cost sensitive extension of the standard Support Vector Machine (SVM) using an ordered weighted sum of the deviations of misclassified individuals with respect to their corresponding supporting hyperplanes. In contrast with previous heuristic approaches, an exact method that applies the ordered weighted average operator in the classical SVM model is proposed. Specifically, when weights are sorted in non-decreasing order, a quadratic continuous formulation is developed. For general weights, a mixed integer quadratic formulation is proposed. In addition, our results prove that nonlinear kernel functions can be also applied to these new models extending its applicability beyond the linear case. Extensive computational results reported in the paper show that the predictive performance provided by the proposed exact solution approaches are better than the ones provided by the classical models (linear and nonlinear kernel) and similar or better than the previous ones provided by the heuristic solution by Maldonado et al. (2018). © 2021 The Authors, Alfredo Marín has been supported by Spanish Ministry of Science and Innovation under project PID2019-110886RB-I00 . Part of this research was conducted while he was on sabbatical at Universidad de Sevilla, Spain . Luisa I. Martínez-Merino, Antonio M. Rodríguez-Chía and Justo Puerto thank the Agencia Estatal de Investigación (AEI) and the European Regional Development’s funds (ERDF) : project PID2020-114594GB-C21/C22 ; Regional Government of Andalusia : projects FEDER-UCA18-106895 , FEDER-US-1256951 and P18-FR-1422 ; and Fundación BBVA : project NetmeetData (Ayudas Fundación BBVA a equipos de investigación científica 2019). Luisa I. Martínez-Merino has been supported by Subprograma Juan de la Cierva Formación 2019 ( FJC2019-039023-I ) and PAIDI 2020 postdoctoral fellowship financed by European Social Fund and Junta de Andalucía

Published

2022

5. Method and dataset entity mining in scientific literature: A CNN + BiLSTM model with self-attention

Author

Ou Wu, Ji Zhang, Linlin Hou, Rujing Yao, Zhao Li, Jianliang Gao, Ting Yu, Yingchun Ye, and Zhen Wang

Subjects

Structure (mathematical logic), Information Systems and Management, Information retrieval, Computer science, Mechanism (biology), Self attention, Scientific literature, Convolutional neural network, Management Information Systems, Metadata, Artificial Intelligence, Embedding, Domain analysis, Software

Abstract

The traditional literature analysis mainly focuses on the literature metadata such as topics, authors, keywords, references, and rarely pays attention to the main content of papers. However, in many scientific domains such as science, computing, engineering, the methods and datasets involved in the papers published carry important information and are quite useful for domain analysis and recommendation. Method and dataset entities have various forms, which are more difficult to recognize than common entities. In this paper, we propose a novel Method and Dataset Entity Recognition model (MDER), which is able to effectively extract the method and dataset entities from the main textual content of scientific papers. The model is the first to combine rule embedding, a parallel structure of Convolutional Neural Network (CNN) and a two-layer Bi-directional Long Short-Term Memory (BiLSTM) with the self-attention mechanism. We evaluate the proposed model on datasets constructed from the published papers of different research areas in computer science. Our model performs well in multiple areas and features a good capacity for cross-area learning and recognition. Ablation study indicates that building different modules collectively contributes to the good entity recognition performance as a whole. The data augmentation positively contributes to model training, making our model much more robust. We finally apply the proposed model on PAKDD papers published from 2009–2019 to mine insightful results over a long time span. 1

Published

2022

6. Are we meeting a deadline? classification goal achievement in time in the presence of imbalanced data

Author

Jaroslav Zendulka, Zdenek Zdrahal, and Martin Hlosta

Subjects

education.field_of_study, Information Systems and Management, Higher education, Computer science, business.industry, Population, 02 engineering and technology, Machine learning, computer.software_genre, Imbalanced data, Management Information Systems, Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Goal achievement, 020201 artificial intelligence & image processing, Artificial intelligence, business, education, computer, Finite set, Software

Abstract

This paper addresses the problem of a finite set of entities which are required to achieve a goal within a predefined deadline. For example, a group of students is supposed to submit a homework by a specified cutoff. Further, we are interested in predicting which entities will achieve the goal within the deadline. The predictive models are built based only on the data from that population. The predictions are computed at various time instants by taking into account updated data about the entities. The first contribution of the paper is a formal description of the problem. The important characteristic of the proposed method for model building is the use of the properties of entities that have already achieved the goal. We call such an approach “Self-Learning”. Since typically only a few entities have achieved the goal at the beginning and their number gradually grows, the problem is inherently imbalanced. To mitigate the curse of imbalance, we improved the Self-Learning method by tackling information loss and by several sampling techniques. The original Self-Learning and the modifications have been evaluated in a case study for predicting submission of the first assessment in distance higher education courses. The results show that the proposed improvements outperform the specified two base-line models and the original Self-Learner, and also that the best results are achieved if domain-driven techniques are utilised to tackle the imbalance problem. We also showed that these improvements are statistically significant using Wilcoxon signed rank test.

Published

2018

7. Evidential reasoning rule for MADM with both weights and reliabilities in group decision making

Author

Xin Bao Liu, Mi Zhou, Jian-Bo Yang, and Yu-Wang Chen

Subjects

0209 industrial biotechnology, Information Systems and Management, Computer science, Generalization, Process (engineering), media_common.quotation_subject, 02 engineering and technology, Interval (mathematics), Machine learning, computer.software_genre, Management Information Systems, Group decision making, 020901 industrial engineering & automation, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Result aggregation, Reliability (statistics), media_common, Evidential reasoning, business.industry, Evidential reasoning approach, Ambiguity, Reliability, Weight, Group decision-making, Process aggregation, 020201 artificial intelligence & image processing, Artificial intelligence, business, computer, Software

Abstract

Multiple attribute decision making (MADM) problems often include quantitative and qualitative attributes which can be assessed by numerical values and subjective judgements respectively. The evidential reasoning (ER) rule provides a process for dealing with this type of MADM problems of both a quantitative and qualitative nature of uncertainty. In this paper, the ER rule is generalized to dealing with MADM problems in group decision making circumstance where the weights and reliabilities of both experts and attributes are considered. Specifically, the result and process aggregation based ER rules for MADM in group decision making are given respectively, followed by the comparative analysis on the given aggregations. The ER analytical rule for group MADM problems is also provided for the generalization of the ER analytical approach where group decision making is not considered. It is also a development of Yang's ER rule which is a recursive calculation process. Due to the fact that uncertainty and ambiguity are always existent in group decision making, interval weights and reliabilities of experts and attributes should be taken into account in the process of experts’ judgment aggregation. In this paper, several ER based programming models under interval weights and reliabilities are constructed for the generation of global belief degrees in a consistent way. A case study is conducted on the life cycle assessment of electric vehicles to illustrate the applicability of the proposed method and the potential in supporting MADM in group decision making.

Published

2018

8. Fuzzy competence model drift detection for data-driven decision support systems

Author

Fan Dong, Guangquan Zhang, Kan Li, and Jie Lu

Subjects

Data stream, Decision support system, Information Systems and Management, Concept drift, business.industry, Computer science, Fuzzy set, 02 engineering and technology, Machine learning, computer.software_genre, Empirical distribution function, Fuzzy logic, Management Information Systems, Data-driven, ComputingMethodologies_PATTERNRECOGNITION, Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Artificial intelligence, Data mining, business, computer, Software

Abstract

This paper focuses on concept drift in business intelligence and data-driven decision support systems (DSSs). The assumption of a fixed distribution in the data renders conventional static DSSs inaccurate and unable to make correct decisions when concept drift occurs. However, it is important to know when, how, and where concept drift occurs so a DSS can adjust its decision processing knowledge to adapt to an ever-changing environment at the appropriate time. This paper presents a data distribution-based concept drift detection method called fuzzy competence model drift detection (FCM-DD). By introducing fuzzy sets theory and replacing crisp boundaries with fuzzy ones, we have improved the competence model to provide a better, more refined empirical distribution of the data stream. FCM-DD requires no prior knowledge of the underlying distribution and provides statistical guarantee of the reliability of the detected drift, based on the theory of bootstrapping. A series of experiments show that our proposed FCM-DD method can detect drift more accurately, has good sensitivity, and is robust.

Published

2018

9. Towards an ontology-supported case-based reasoning approach for computer-aided tolerance specification

Author

Yuchu Qin, Wenlong Lu, Meifa Huang, Paul J. Scott, Qunfen Qi, Xiangqian Jiang, and Xiaojun Liu

Subjects

0209 industrial biotechnology, Information Systems and Management, Computer science, 02 engineering and technology, Similarity measure, Ontology (information science), computer.software_genre, Management Information Systems, 020901 industrial engineering & automation, Similarity (network science), Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Computer-aided, Ontology, 020201 artificial intelligence & image processing, Case-based reasoning, Data mining, computer, Software

Abstract

In this paper, an ontology-supported case-based reasoning approach for computer-aided tolerance specification is proposed. This approach firstly considers the past tolerance specification problems and their schemes as previous cases and the new tolerance specification problems as target cases and uses an ontology to represent previous and target cases. Then certain ontology-based similarity measure is used to assess the similarity between the toleranced features of target and previous cases, the similarity between the part features of target and previous cases, and the similarity between the topological relations of target and previous cases. Based on these similarities, an ontology-based similarity measure for computing the similarity between target and previous cases is designed, and an algorithm for establishing such similarity measure with high accuracy and retrieving similar previous cases for a target case with this similarity measure is presented. This algorithm shows how to linearly combine the similarity of toleranced features, the similarity of part features, and the similarity of topological relations to assess the similarity between target and previous cases to implement retrieval of previous cases under the prerequisite of ensuring the highest accuracy of the similarity measure. The paper also reports a prototype implementation of the proposed approach, provides an example to illustrate how the approach works, and evaluates the approach via theoretical and experimental comparisons.

Published

2018

10. Enhanced Marine Predators Algorithm with Local Escaping Operator for Global Optimization

Author

Mariusz Oszust

Subjects

education.field_of_study, Information Systems and Management, Optimization problem, Computer science, IEEE Congress on Evolutionary Computation, Population, Process (computing), Management Information Systems, Operator (computer programming), Artificial Intelligence, education, Global optimization, Algorithm, Software

Abstract

The recently introduced Marine Predators Algorithm (MPA) exhibits competitive performance in solving optimization problems. However, it often prematurely converges due to an imbalance between its exploration and exploitation capabilities. Therefore, in this paper, an improved MPA variant using a proposed Local Escaping Operator (LEO) is introduced. In the MPA, solution candidates are replaced by better candidates from the previous iteration, mimicking a memory of already visited prey-abundant areas. This indicates a weak inter-dependence between the candidates in the population and possible acceptance of new solution candidates created outside the algorithm without damaging the optimization process. Consequently, in the proposed approach, the worst candidates are replaced with solutions created by the LEO. The LEO is based on representative solutions, taking into account the relationship between predators and the characteristics of their population. The approach is experimentally compared with the state-of-the-art meta-heuristics on 82 test functions, including IEEE Congress on Evolutionary Computation test suites (CEC’14 and CEC’17) and three engineering problems. The results show the superiority of the LEO-MPA over the MPA and recent algorithms. Furthermore, in this paper, the suitability of the hybridization of meta-heuristics with the LEO is discussed and successful attempts with the best algorithms are shown.

Published

2021

11. A knowledge-based experts’ system for evaluation of digital supply chain readiness

Author

Ashraf Rahman Idrisi, Iram Naim, Sharfuddin Ahmed Khan, Simonov Kusi-Sarpong, and Himanshu Gupta

Subjects

Information Systems and Management, Process management, Computer science, business.industry, Supply chain, Digital transformation, Data_CODINGANDINFORMATIONTHEORY, Plan (drawing), Management Information Systems, Artificial Intelligence, Manufacturing, Value (economics), business, Software, Fuzzy ahp

Abstract

The digitalization of the supply chain (SC) enables companies to address customers’ new requirements, the challenges of managing the SC and the expectations, and efficiency improvement. Although digital supply chain (DSC) is a buzzword, very few organizations and decision-makers understand the challenges of transforming from a traditional supply chain to a DSC. Therefore, the purpose of this paper is to develop and implement an integrated knowledge-based system (KBS) and evaluate the overall DSC readiness value (score) of an organization. DSC readiness factors are identified from an extensive literature review and validated by experts from academia and industry. The proposed KBS is based on Fuzzy-AHP​ that establishes a link between DSC readiness factors and their impact on performance and evaluates overall DSC readiness value (score). The proposed KBS has been validated in an Indian manufacturing company, and results show that the overall DSC readiness value (score) of the case company is 0.267. This paper will help organizations evaluate their current position in transforming from traditional supply chain to DSC and make a plan to achieve digitalization completely in their SC operations. Managers, practitioners, and decision-makers who are involved in digitalization can use our study’s findings as a starting point for aiding the transformation.

Published

2021

12. Hybrid algorithms based on combining reinforcement learning and metaheuristic methods to solve global optimization problems

Author

Royal Aliyev, Hasan Basyildiz, Amir Seyyedabbasi, Murat Ugur Gulle, Farzad Kiani, Mohammed Ahmed Shah, İstinye Üniversitesi, Mühendislik ve Doğa Bilimleri Fakültesi, Yazılım Mühendisliği Bölümü, and Kiani, Farzad

Subjects

Information Systems and Management, Inverse kinematics, Metaheuristic Algorithm, Computer science, Grey Wolf Optimization Algorithm, Q-learning, Reinforcement Learning Algorithm, 02 engineering and technology, Q-Learning, Management Information Systems, Local optimum, Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Benchmark (computing), Robot, Reinforcement learning, 020201 artificial intelligence & image processing, Whale Optimization Algorithm, Metaheuristic, Algorithm, Software, Global optimization problem

Abstract

This paper introduces three hybrid algorithms that help in solving global optimization problems using reinforcement learning along with metaheuristic methods. Using the algorithms presented, the search agents try to find a global optimum avoiding the local optima trap. Compared to the classical metaheuristic approaches, the proposed algorithms display higher success in finding new areas as well as exhibiting a more balanced performance while in the exploration and exploitation phases. The algorithms employ reinforcement agents to select an environment based on predefined actions and tasks. A reward and penalty system is used by the agents to discover the environment, done dynamically without following a predetermined model or method. The study makes use of Q-Learning method in all three metaheuristic algorithms, so-called RL I−GWO , RL Ex−GWO , and RL WOA algorithms, so as to check and control exploration and exploitation with Q-Table. The Q-Table values guide the search agents of the metaheuristic algorithms to select between the exploration and exploitation phases. A control mechanism is used to get the reward and penalty values for each action. The algorithms presented in this paper are simulated over 30 benchmark functions from CEC 2014, 2015 and the results obtained are compared with well-known metaheuristic and hybrid algorithms (GWO, RL GWO , I-GWO, Ex-GWO, and WOA). The proposed methods have also been applied to the inverse kinematics of the robot arms problem. The results of the used algorithms demonstrate that RL WOA provides better solutions for relevant problems.

Published

2021

13. Towards data analysis for weather cloud computing

Author

Victor Chang

Subjects

Information Systems and Management, Flood myth, Process (engineering), business.industry, Computer science, 020206 networking & telecommunications, Cloud computing, 02 engineering and technology, computer.software_genre, Management Information Systems, Visualization, Extreme weather, Data visualization, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Data mining, business, computer, Software

Abstract

This paper demonstrates an innovative data analysis for weather using Cloud Computing, integrating both system and application Data Science services to investigate extreme weather events. Identifying five existing projects with ongoing challenges, our aim is to process, analyze and visualize collected data, study implications and report meaningful findings. We demonstrate the use of Cloud Computing technologies, MapReduce and optimization techniques to simulate temperature distributions and analyze weather data. Two major cases are presented. The first case is focused on forecasting temperatures based on studying trends from the historical data of Sydney, Singapore and London to compare the historical and forecasted temperatures. The second case is to use five-step MapReduce for numerical data analysis and eight-step process for visualization, which is used to analyze and visualize temperature distributions in the United States, before, during and after the time of experiencing polar vortex, as well as in the United Kingdom during and after the flood. Optimization was used in experiments involved up to 100 nodes between Cloud and non-Cloud and compared performance with and without optimization. There was an improvement in performance between 20% and 30% under 60 nodes in Cloud. Results, discussion and comparison were presented. We justify our research contributions and explain thoroughly in the paper how the three goals can be met: (1) forecasting temperatures of three cities based on evaluating the trends from the historical data; (2) using five-step MapReduce to achieve shorter execution time on Cloud and (3) using eight-step MapReduce with optimization to achieve data visualization for temperature distributions on US and UK maps.

Published

2017

14. Improving performance of tensor-based context-aware recommenders using Bias Tensor Factorization with context feature auto-encoding

Author

Qiuxia Sun, Jianli Zhao, Wenmin Wu, Yang Zhang, Meng Fang, Zeli Zhang, and Zhang Chunsheng

Subjects

Information Systems and Management, business.industry, Computer science, Decision tree, Context (language use), 02 engineering and technology, computer.software_genre, Machine learning, MovieLens, Management Information Systems, Factorization, Artificial Intelligence, 020204 information systems, Encoding (memory), Tensor (intrinsic definition), 0202 electrical engineering, electronic engineering, information engineering, Feature (machine learning), 020201 artificial intelligence & image processing, Data mining, Artificial intelligence, Tensor, business, Categorical variable, computer, Software

Abstract

In this paper, we focus on the problem of context-aware recommendation using tensor factorization. Traditional tensor-based models in context-aware recommendation scenario only consider user-item-context interactions. In this paper, we argue that rating can't be totally explained by the interactions and the rating also influenced by the combined impact of overall mean, user bias, item bias and context bias. Based on this hypothesis, we propose a novel context-aware recommendation model named Bias Tensor Factorization, which take all this factors into account. Additionally, traditional context-aware recommenders with tensor factorization still have three main drawbacks: (1) the model complexity of those models increase exponentially with the number of context features, (2) those models can only handle context features with categorical values and (3) the models fail to select effective features from available context features. To address those problems, we propose a context features auto-encoding algorithm based on regression tree which can both handle numerical features and select effective features. Then we integrate this algorithm with Bias Tensor Factorization. Experiments on a real world contextual dataset and Movielens show that our proposed algorithms outperform the state-of-art context-aware recommendation algorithms, namely tensor factorization and factorization machine.

Published

2017

15. Multigranulation fuzzy rough set over two universes and its application to decision making

Author

Yuhua Qian, Bingzhen Sun, and Weimin Ma

Subjects

Structure (mathematical logic), 0209 industrial biotechnology, Information Systems and Management, Relation (database), Computer science, business.industry, Dominance-based rough set approach, 02 engineering and technology, Decision rule, computer.software_genre, Management Information Systems, Group decision-making, 020901 industrial engineering & automation, Ranking, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Fuzzy concept, 020201 artificial intelligence & image processing, Data mining, Artificial intelligence, Rough set, business, computer, Software

Abstract

The original Pawlaks rough set approach based on indiscernibility relation (single granularity) has been extended to multigranulation rough set structure in the recent years. Multigranulation rough set approach has become a flouring research direction in rough set theory. This paper considers rough approximation of a fuzzy concept under the framework of multigranulation over two different universes of discourse, i.e., multigranulation fuzzy rough set models over two universes. We present three types of multigranulation fuzzy rough set over two universes by the constructive approach, respectively. Some interesting properties of the proposed models are discussed and also the interrelationships between the proposed models and the existing rough set models are given. We then propose a new approach to a kind of multiple criteria group decision making problem based on multigranulation fuzzy rough set model over two universes. The decision rules and algorithm of the proposed method are given and an example of handling multiple criteria group decision making problem of clothes ranking illustrates this approach. The main contribution of this paper is twofold. One is to establish the multigranulation fuzzy rough set theory over two universes. Another is to try presenting a new approach to multiple criteria group decision making based on multigranulation fuzzy rough set over two universes. The proposed models not only enrich the theory of multigranulation rough set but also make a tentative to provide a new perspective for multiple criteria group decision making with uncertainty.

Published

2017

16. Protein secondary structure prediction by using deep learning method

Author

Hua Mao, Yangxu Wang, and Zhang Yi

Subjects

0301 basic medicine, Information Systems and Management, Computer science, 02 engineering and technology, Machine learning, computer.software_genre, Protein secondary structure prediction, Management Information Systems, 03 medical and health sciences, Protein structure, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Protein secondary structure, chemistry.chemical_classification, Series (mathematics), business.industry, G400, Deep learning, C100, Pattern recognition, Amino acid, Protein chain, 030104 developmental biology, Recurrent neural network, chemistry, 020201 artificial intelligence & image processing, Artificial intelligence, business, computer, Software

Abstract

The prediction of protein structures directly from amino acid sequences is one of the biggest challenges in computational biology. It can be divided into several independent sub-problems in which protein secondary structure (SS) prediction is fundamental. Many computational methods have been proposed for SS prediction problem. Few of them can model well both the sequence-structure mapping relationship between input protein features and SS, and the interaction relationship among residues which are both important for SS prediction. In this paper, we proposed a deep recurrent encoder–decoder networks called Secondary Structure Recurrent Encoder–Decoder Networks (SSREDNs) to solve this SS prediction problem. Deep architecture and recurrent structures are employed in the SSREDNs to model both the complex nonlinear mapping relationship between input protein features and SS, and the mutual interaction among continuous residues of the protein chain. A series of techniques are also used in this paper to refine the model’s performance. The proposed model is applied to the open dataset CullPDB and CB513. Experimental results demonstrate that our method can improve both Q3 and Q8 accuracy compared with some public available methods. For Q8 prediction problem, it achieves 68.20% and 73.1% accuracy on CB513 and CullPDB dataset in fewer epochs better than the previous state-of-art method.

Published

2017

17. On the class overlap problem in imbalanced data classification

Author

Pattaramon Vuttipittayamongkol, Eyad Elyan, and Andrei Petrovski

Subjects

Information Systems and Management, Computer science, business.industry, Context (language use), 02 engineering and technology, Machine learning, computer.software_genre, Imbalanced data, Class (biology), Management Information Systems, Critical discussion, Range (mathematics), Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Artificial intelligence, business, computer, Software

Abstract

Class imbalance is an active research area in the machine learning community. However, existing and recent literature showed that class overlap had a higher negative impact on the performance of learning algorithms. This paper provides detailed critical discussion and objective evaluation of class overlap in the context of imbalanced data and its impact on classification accuracy. First, we present a thorough experimental comparison of class overlap and class imbalance. Unlike previous work, our experiment was carried out on the full scale of class overlap and an extreme range of class imbalance degrees. Second, we provide an in-depth critical technical review of existing approaches to handle imbalanced datasets. Existing solutions from selective literature are critically reviewed and categorised as class distribution-based and class overlap-based methods. Emerging techniques and the latest development in this area are also discussed in detail. Experimental results in this paper are consistent with existing literature and show clearly that the performance of the learning algorithm deteriorates across varying degrees of class overlap whereas class imbalance does not always have an effect. The review emphasises the need for further research towards handling class overlap in imbalanced datasets to effectively improve learning algorithms’ performance.

Published

2021

18. Fast and reliable inference of semantic clusters

Author

Sébastien Harispe, Sylvie Ranwez, Vincent Ranwez, Nicolas Fiorini, Jacky Montmain, Laboratoire de Génie Informatique et Ingénierie de Production (LGI2P), IMT - MINES ALES (IMT - MINES ALES), Institut Mines-Télécom [Paris] (IMT)-Institut Mines-Télécom [Paris] (IMT), Amélioration génétique et adaptation des plantes méditerranéennes et tropicales (UMR AGAP), Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro)-Institut National de la Recherche Agronomique (INRA)-Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro), Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), AVieSan national program (French Alliance nationale pour les sciences de la Vie et de la Sant), French Agence Nationale de la Recherche : ANR-10-BINF-01 Ancestrome, Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-Institut National de la Recherche Agronomique (INRA)-Centre international d'études supérieures en sciences agronomiques (Montpellier SupAgro)-Institut national d’études supérieures agronomiques de Montpellier (Montpellier SupAgro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), and ANR-10-BINF-0001,ANCESTROME,Approche de phylogénie intégrative pour la reconstruction de génomes ancestraux(2010)

Subjects

0301 basic medicine, Information Systems and Management, semantic indexing, Computer science, méthode d'indexation, WordNet, Semantic data model, complexity analysis, [MATH.MATH-GR]Mathematics [math]/Group Theory [math.GR], Management Information Systems, 03 medical and health sciences, Annotation, intelligence artificielle, Semantic similarity, Artificial Intelligence, base de connaissances, Cluster analysis, automation, cluster labeling, Information retrieval, donnée informatique, business.industry, Search engine indexing, Similarity matrix, donnée sémantique, Hierarchical clustering, 030104 developmental biology, Knowledge base, Distance matrix, Cluster labeling, knowledge base, automatisation, business, Software, clustering, neighbor joining, semantic data

Abstract

AGAP : équipe GE2pop; Document Indexing is but not limited to summarizing document contents with a small set of keywords or concepts of a knowledge base. Such a compact representation of document contents eases their use in numerous processes such as content-based information retrieval, corpus-mining and classification. An important effort has been devoted in recent years to (partly) automate semantic indexing, i.e. associating concepts to documents, leading to the availability of large corpora of semantically indexed documents. In this paper we introduce a method that hierarchically clusters documents based on their semantic indices while providing the proposed clusters with semantic labels. Our approach follows a neighbor joining strategy. Starting from a distance matrix reflecting the semantic similarity of documents, it iteratively se- lects the two closest clusters to merge them in a larger one. The similarity matrix is then updated. This is usually done by combining similarity of the two merged clusters, e.g. using the average similarity. We propose in this paper an alternative approach where the new cluster is first semantically annotated and the similarity matrix is then updated using the semantic similarity of this new annotation with those of the remaining clusters. The hierarchical clustering so obtained is a binary tree with branch lengths that convey semantic distances of clusters. It is then post-processed by using the branch lengths to keep only the most relevant clusters. Such a tool has numerous practical applications as it automates the organi- zation of documents in meaningful clusters (e.g. papers indexed by MeSH terms, bookmarks or pictures indexed by WordNet) which is a tedious everyday task for many people. We assess the quality of the proposed methods using a specific benchmark of annotated clusters of bookmarks that were built man- ually. Each dataset of this benchmark has been clustered independently by several users. Remarkably, the clusters automatically built by our method are congruent with the clusters proposed by experts. All resources of this work, including source code, jar file, benchmark files and results are available at this address: http://sc.nicolasfiorini.info .

Published

2016

19. Cross-document event ordering through temporal, lexical and distributional knowledge

Author

Estela Saquete, Borja Navarro-Colorado, Universidad de Alicante. Departamento de Lenguajes y Sistemas Informáticos, and Procesamiento del Lenguaje y Sistemas de Información (GPLSI)

Subjects

Descriptive knowledge, Information Systems and Management, Event ordering, Computer science, Cross-document event coreference, 02 engineering and technology, computer.software_genre, Timelines, Management Information Systems, Task (project management), Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Cross-document temporal relation, Distributional semantics, Coreference, Information retrieval, Event (computing), business.industry, Timeline, Relationship extraction, SemEval, Lenguajes y Sistemas Informáticos, 020201 artificial intelligence & image processing, Artificial intelligence, Temporal information processing, business, computer, Software, Natural language processing

Abstract

In this paper we present a system that automatically builds ordered timelines of events from different written texts in English. The system deals with problems such as automatic event extraction, cross-document temporal relation extraction and cross-document event coreference resolution. Its main characteristic is the application of three different types of knowledge: temporal knowledge, lexical-semantic knowledge and distributional-semantic knowledge, in order to anchor and order the events in the timeline. It has been evaluated within the framework of SemEval 2015. The proposed system improves the current state-of-the-art systems in all measures (up to eight points of F1-score over other systems) and shows a significant advance in the Cross-document event ordering task. This paper has been partially supported by the Spanish government, project TIN2015-65100-R and project TIN2015-65136-C2-2-R.

Published

2016

20. A knowledge-based resource discovery for Internet of Things

Author

Charith Perera and Athanasios V. Vasilakos

Subjects

FOS: Computer and information sciences, Service (systems architecture), Information Systems and Management, Computer science, Process (engineering), Context (language use), 02 engineering and technology, QA76, Management Information Systems, Computer Science - Networking and Internet Architecture, World Wide Web, Resource (project management), Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Artificial Intelligence & Image Processing, Networking and Internet Architecture (cs.NI), 08 Information and Computing Sciences, 15 Commerce, Management, Tourism and Services, 17 Psychology and Cognitive Sciences, business.industry, 020206 networking & telecommunications, Usability, Subject-matter expert, Middleware, 020201 artificial intelligence & image processing, business, Wireless sensor network, Software

Abstract

In the sensing as a service paradigm, Internet of Things (IoT) Middleware platforms allow data consumers to retrieve the data they want without knowing the underlying technical details of IoT resources (i.e. sensors and data processing components). However, configuring an IoT middleware platform and retrieving data is a significant challenge for data consumers as it requires both technical knowledge and domain expertise. In this paper, we propose a knowledge driven approach called Context Aware Sensor Configuration Model (CASCOM) to simplify the process of configuring IoT middleware platforms, so the data consumers, specifically non-technical personnel, can easily retrieve the data they required. In this paper, we demonstrate how IoT resources can be described using semantics in such away that they can later be used to compose service work-flows. Such automated semantic-knowledge based IoT resource composition approach advances the current research. We demonstrate the feasibility and the usability of our approach through a prototype implementation based on an IoT middleware called Global Sensor Networks (GSN), though our model can be generalized to any other middleware platform., Comment: Knowledge-Based Systems Journal 2016. arXiv admin note: substantial text overlap with arXiv:1309.1515, arXiv:1309.1811

Published

2016

21. Noise filtering to improve data and model quality for crowdsourcing

Author

Liangxiao Jiang, Chaoqun Li, Victor S. Sheng, and Hongwei Li

Subjects

Information Systems and Management, Training set, Computer science, business.industry, Supervised learning, 02 engineering and technology, computer.software_genre, Crowdsourcing, Machine learning, Field (computer science), Management Information Systems, Noise, Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Benchmark (computing), 020201 artificial intelligence & image processing, Model quality, Data mining, Artificial intelligence, Set (psychology), business, computer, Software

Abstract

Crowdsourcing services provide an easy means of acquiring labeled training data for supervised learning. However, the labels provided by a single crowd worker are often unreliable. Repeated labeling can be used to solve this problem. After multiple labels have been acquired by repeated labeling for each instance, in general consensus methods are used to obtain the integrated labels of instances. Although consensus methods are effective in practice, it cannot be denied that a level of noise still exists in the set of integrated labels. In this study, an attempt was made to employ noise filters to delete the noise in integrated labels, and consequently, enhance the training data and model quality. In fact, noise handling is a relatively mature field in the machine learning community, and many noise filters for deleting label noise have been presented in the past. However, to the best of our knowledge, in very few studies was noise filtering used to improve crowdsourcing learning. Therefore, in this study we empirically investigated the performance of noise filters in terms of improving crowdsourcing learning. Thus, in this paper some existing noise filters presented in previous papers are reviewed and their experimental application to crowdsourcing learning tasks is described. Experimental results based on 14 benchmark UCI data sets and three real-world data sets show that these noise filters can significantly reduce the noise level in integrated labels and thereby considerably enhance the performance of target classifiers.

Published

2016

22. A survey of trust management systems for online social communities – Trust modeling, trust inference and attacks

Author

Yefeng Ruan and Arjan Durresi

Subjects

Information Systems and Management, Computer science, business.industry, media_common.quotation_subject, Data_MISCELLANEOUS, Internet privacy, Inference, 020206 networking & telecommunications, 02 engineering and technology, Management Information Systems, Web of trust, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Trust management (information system), 020201 artificial intelligence & image processing, Computational trust, business, Software, Reputation, media_common

Abstract

Trust can help participants in online social communities to make decisions; however, it is a challenge for systems to map trust into computational models because of its subjective properties. Also, many online social communities are sparsely connected. Therefore, it is necessary to introduce mechanisms which can infer indirect trust among participants who are not directly connected. We provide a survey of existing trust management systems for online social communities. We also list four types of attacks, and analyze existing systems' vulnerabilities. Compared with previous surveys, our survey takes trust modeling, trust inference, and attacks into account. Although there are several survey papers about global trust/reputation related attacks, the main contribution of this paper is that we consider trust inference and potential local trust related attacks.

Published

2016

23. Decision support systems for adoption in dental clinics: A survey

Author

Jianming Yong, Wee Pheng Goh, Ji Zhang, and Xiaohui Tao

Subjects

Decision support system, Information Systems and Management, Knowledge management, business.industry, Computer science, Big data, 02 engineering and technology, Health outcomes, Management Information Systems, 03 medical and health sciences, 0302 clinical medicine, Workflow, Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, Information system, 020201 artificial intelligence & image processing, 030212 general & internal medicine, Disease management (health), Medical prescription, business, Productivity, Software, Dental Informatics

Abstract

While most dental clinicians use some sort of information system, they are involved with administrative functions, despite the advisory potential of some of these systems. This paper outlines some current decision support systems (DSS) and the common barriers facing dentists in adopting them within their workflow. These barriers include lack of perceived usefulness, complicated social and economic factors, and the difficulty for users to interpret the advice given by the system. A survey of current systems found that although there are systems that suggest treatment options, there is no real-time integration with other knowledge bases. Additionally, advice on drug prescription at point-of-care is absent from such systems, which is a significant omission, in consideration of the fact that disease management and drug prescription are common in the workflow of a dentist. This paper also addresses future trends in the research and development of dental clinical DSS, with specific emphasis on big data, standards and privacy issues to fulfil the vision of a robust, user-friendly and scalable personalised DSS for dentists. The findings of this study will offer strategies in design, research and development of a DSS with sufficient perceived usefulness to attract adoption and integration by dentists within their routine clinical workflow, thus resulting in better health outcomes for patients and increased productivity for the clinic.

Published

2016

24. Comparison and links between two 2-tuple linguistic models for decision making

Author

Isis Truck, Cognitions Humaine et ARTificielle (CHART), Université Paris 8 Vincennes-Saint-Denis (UP8)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université Paris Nanterre (UPN)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12), and École pratique des hautes études (EPHE)-Université Paris 8 Vincennes-Saint-Denis (UP8)-Université Paris Nanterre (UPN)-Université Paris-Est Créteil Val-de-Marne - Paris 12 (UPEC UP12)

Subjects

Information Systems and Management, Computer science, Comparison, Semantic data model, Linguistics, [INFO.INFO-AI]Computer Science [cs]/Artificial Intelligence [cs.AI], Management Information Systems, Artificial Intelligence, Stress (linguistics), The Symbolic, 2-tuple linguistic models, Tuple, Closing (morphology), Decision making, Value (mathematics), Software

Abstract

International audience; This paper deals with linguistic models that may prove useful for representing the information during decision making.Data extraction is a complex problem, especially when dealing with information coming from human beings (linguistic assertions, preferences, feelings, etc.) and several models have emerged to overcome difficulties in expressing the data. Among those models, we are interested in two of them: the 2-tuple semantic model and the 2-tuple symbolic model.In this paper we stress on a comparison between both models and we prove that links can be made between them. An interesting result is obtained: the 2-tuple semantic model can generate a partitioning that is identical to the one that would be generated thanks to the symbolic 2-tuple model. This permits to compare the models and mix the two when there is a need to use one model or another, depending on the applications, and then to reach a consensus. In closing, an example of the use is given to demonstrate the value of the method.

Published

2015

25. Evolving connectionist systems for adaptive learning and knowledge discovery: Trends and directions

Author

Nikola Kasabov

Subjects

Spiking neural network, Information Systems and Management, Quantitative Biology::Neurons and Cognition, Neuro-fuzzy, Artificial neural network, business.industry, Computer science, Computer Science::Neural and Evolutionary Computation, Fuzzy control system, Machine learning, computer.software_genre, Fuzzy logic, Expert system, Management Information Systems, Knowledge-based systems, Connectionism, Knowledge extraction, Artificial Intelligence, Artificial intelligence, Adaptive learning, business, computer, Software, Interpretability

Abstract

This paper follows the 25years of development of methods and systems for knowledge-based neural network systems and more specifically the recent evolving connectionist systems (ECOS). ECOS combine the adaptive/evolving learning ability of neural networks and the approximate reasoning and linguistically meaningful explanation features of symbolic representation, such as fuzzy rules. This review paper presents the classical now hybrid expert systems and evolving neuro-fuzzy systems, along with new developments in spiking neural networks, neurogenetic systems, and quantum inspired systems, all discussed from the point of few of their adaptability, model interpretability and knowledge discovery. The paper discusses new directions for the integration of principles from neural networks, fuzzy systems, bio- and neuroinformatics, and nature in general.

Published

2015

26. Situated interpretation in computational creativity

Author

John S. Gero and Nick Kelly

Subjects

Cognitive science, Framing (visual arts), Information Systems and Management, Computational creativity, business.industry, Computer science, Situated cognition, Cognitive reframing, Management Information Systems, Framing (social sciences), Empirical research, Artificial Intelligence, Framing (construction), Situated, Artificial intelligence, business, Software

Abstract

This paper describes, formalises and implements an approach to computational creativity based on situated interpretation. The paper introduces the notions of framing and reframing of conceptual spaces based on empirical studies as the driver for this research. It uses concepts from situated cognition, and situated interpretation in particular, to be the basis of a formal model of the movement between conceptual spaces. This model is implemented using rules within interacting neural networks. This implementation demonstrates behaviour similar to that observed in studies of human designers.

Published

2015

27. Multi-dimensional fairness for auction-based resource allocation

Author

Javier Murillo, Albert Pla, Beatriz López, Ministerio de Economía y Competitividad (Espanya), and Generalitat de Catalunya. Agència de Gestió d'Ajuts Universitaris i de Recerca

Subjects

Mechanism design, Information Systems and Management, Auctions, Operations research, Computer science, Multi-agent system, media_common.quotation_subject, Subhastes, Management Information Systems, Resource (project management), Incentive, Multiagent systems, Artificial Intelligence, Max-min fairness, Sistemes multiagent, Fairness measure, Common value auction, Resource allocation, Quality (business), Software, media_common

Abstract

Multi-attribute resource allocation problems involve the allocation of resources on the basis of several attributes, therefore, the definition of a fairness method for this kind of auctions should be formulated from a multi-dimensional perspective. Under such point of view, fairness should take into account all the attributes involved in the allocation problem, since focusing on just a single attribute may compromise the allocations regarding the remainder attributes (e.g. incurring in delayed or bad quality tasks). In this paper, we present a multi-dimensional fairness approach based on priorities. For that purpose, a recurrent auction scenario is assumed, in which the auctioneer keeps track of winner and losers. From that information, the priority methods are defined based on the lost auctions number, the number of consecutive loses, and the fitness of their loser bids. Moreover, some methods contain a probabilistic parameter that enables handling wealth ranking disorders due to fairness. We test our approach in real-data based simulator which emulates an industrial production environment where several resource providers compete to perform different tasks. The results pointed that multi-dimensional fairness incentives agents to remain in the market whilst it improves the equity of the wealth distribution without compromising the quality of the allocation attributes This research project has been partially funded through the BR10/18 Scholarship granted to the first author of the paper. Work developed with the support of the research group SITES awarded with distinction by the Generalitat de Catalunya (SGR 2014-2016) and the MESC project funded by the Spanish MINECO (Ref. DPI2013-47450-C2-1-R)

Published

2015

28. Grey Forecast model for accurate recommendation in presence of data sparsity and correlation

Author

Geoffrey C. Fox, Jiaxing Shang, Feng Xie, and Zhen Chen

Subjects

Slope One, Information Systems and Management, Computer science, business.industry, Recommender system, Machine learning, computer.software_genre, MovieLens, Management Information Systems, Matrix decomposition, Similarity (network science), Artificial Intelligence, Collaborative filtering, Data mining, Artificial intelligence, business, computer, Software

Abstract

Recently, recommender systems have attracted increased attention because of their ability to suggest appropriate choices to users based on intelligent prediction. As one of the most popular recommender system techniques, Collaborative Filtering (CF) achieves efficiency from the similarity measurement of users and items. However, existing similarity measurement methods have reduced accuracy due to problems such as data correlation and data sparsity. To overcome these problems, this paper introduces the Grey Forecast (GF) model for recommender systems. First, the Cosine Distance method is used to compute the similarities between items. Then, we rank the items, which have been rated by an active user, according to their similarities to the target item, which has not yet been rated by the active user; we use the ratings of the first k items to construct a GF model and obtain the required prediction. The advantages of the paper are threefold: first, the proposed method introduces a new prediction model for CF, which, in turn, yields better performance of the model; second, it is able to alleviate the well-known sparsity problem as it requires less data in constructing the model; third, the model will become more effective when strong correlations exist among the data. Extensive experiments are conducted and the results are compared with several CF methods including item based, slope one, and matrix factorization by using two public data sets, namely, MovieLens and EachMovie. The experimental results demonstrate that the proposed algorithm exhibits improvements of over 20% in terms of the mean absolute error (MAE) and root mean square error (RMSE) when compared with the item based method. Moreover, it achieves comparative, or sometimes even better, performance when compared to the matrix factorization methods in terms of accuracy and F-measure metrics, even with small k.

Published

2014

29. Methodology for developing an advanced communications system for the Deaf in a new domain

Author

Verónica López-Ludeña, C. González-Morcillo, Rubén San-Segundo, Javier Ferreiros, Juan Carlos López, and E. Ferreiro

Subjects

Information Systems and Management, Computer science, Word error rate, 02 engineering and technology, Sign language, Communications system, computer.software_genre, Field (computer science), Management Information Systems, Domain (software engineering), Artificial Intelligence, 0202 electrical engineering, electronic engineering, information engineering, 0501 psychology and cognitive sciences, 050107 human factors, Telecomunicaciones, business.industry, 4. Education, 05 social sciences, Sign (semiotics), 020201 artificial intelligence & image processing, Artificial intelligence, business, computer, Software, Natural language processing

Abstract

A methodology for developing an advanced communications system for the Deaf in a new domain is presented in this paper. This methodology is a user-centred design approach consisting of four main steps: requirement analysis, parallel corpus generation, technology adaptation to the new domain, and finally, system evaluation. During the requirement analysis, both the user and technical requirements are evaluated and defined. For generating the parallel corpus, it is necessary to collect Spanish sentences in the new domain and translate them into LSE (Lengua de Signos Española: Spanish Sign Language). LSE is represented by glosses and using video recordings. This corpus is used for training the two main modules of the advanced communications system to the new domain: the spoken Spanish into the LSE translation module and the Spanish generation from the LSE module. The main aspects to be generated are the vocabularies for both languages (Spanish words and signs), and the knowledge for translating in both directions. Finally, the field evaluation is carried out with deaf people using the advanced communications system to interact with hearing people in several scenarios. In this evaluation, the paper proposes several objective and subjective measurements for evaluating the performance. In this paper, the new considered domain is about dialogues in a hotel reception. Using this methodology, the system was developed in several months, obtaining very good performance: good translation rates (10% Sign Error Rate) with small processing times, allowing face-to-face dialogues.

Published

2014

30. CRM: An efficient trust and reputation model for agent computing

Author

Babak Khosravifar, Rafiul Alam, Maziar Gomrokchi, and Jamal Bentahar

Subjects

Structure (mathematical logic), Information Systems and Management, Knowledge management, Process (engineering), business.industry, Computer science, Multi-agent system, media_common.quotation_subject, Novelty, Management Information Systems, Risk analysis (engineering), Artificial Intelligence, Credibility, Computational trust, business, Software, Reputation, media_common

Abstract

In open multi-agent systems, agents engage in interactions to share and exchange information. Due to the fact that these agents are self-interested, they may jeopardize mutual trust by not performing actions as they are expected to do. To this end, different models of trust have been proposed to assess the credibility of peers in the environment. These frameworks fail to consider and analyze the multiple factors impacting the trust. In this paper, we overcome this limit by proposing a comprehensive trust framework as a multi-factor model, which applies a number of measurements to evaluate the trust of interacting agents. First, this framework considers direct interactions among agents, and this part of the framework is called online trust estimation. Furthermore, after a variable interval of time, the actual performance of the evaluated agent is compared against the information provided by some other agents (consulting agents). This comparison in the off-line process leads to both adjusting the credibility of the contributing agents in trust evaluation and improving the system trust evaluation by minimizing the estimation error. What specifically distinguishes this work from the previous proposals in the same domain is its novelty in after-interaction investigation and performance analysis that prove the applicability of the proposed model in distributed multi-agent systems. In this paper, the agent structure and interaction mechanism of the proposed framework are described. A theoretical analysis of trust assessment and the system implementation along with simulations are also discussed. Finally, a comparison of our trust framework with other well-known frameworks from the literature is provided.

Published

2012

31. An ensemble design of intrusion detection system for handling uncertainty using Neutrosophic Logic Classifier

Author

B. Kavitha, S. Karthikeyan, and P. Sheeba Maybell

Subjects

Information Systems and Management, Intrusion, Computer science, business.industry, Paraconsistent logic, Intrusion detection system, Intuitionistic logic, Machine learning, computer.software_genre, Fuzzy logic, Management Information Systems, Constant false alarm rate, Artificial Intelligence, Data mining, Artificial intelligence, business, KDD cup, computer, Classifier (UML), Software

Abstract

In the real world it is a routine that one must deal with uncertainty when security is concerned. Intrusion detection systems offer a new challenge in handling uncertainty due to imprecise knowledge in classifying the normal or abnormal behaviour patterns. In this paper we have introduced an emerging approach for intrusion detection system using Neutrosophic Logic Classifier which is an extension/combination of the fuzzy logic, intuitionistic logic, paraconsistent logic, and the three-valued logics that use an indeterminate value. It is capable of handling fuzzy, vague, incomplete and inconsistent information under one framework. Using this new approach there is an increase in detection rate and the significant decrease in false alarm rate. The proposed method tripartitions the dataset into normal, abnormal and indeterministic based on the degree of membership of truthness, degree of membership of indeterminacy and degree of membership of falsity. The proposed method was tested up on KDD Cup 99 dataset. The Neutrosophic Logic Classifier generates the Neutrosophic rules to determine the intrusion in progress. Improvised genetic algorithm is adopted in order to detect the potential rules for performing better classification. This paper exhibits the efficiency of handling uncertainty in Intrusion detection precisely using Neutrosophic Logic Classifier based Intrusion detection System.

Published

2012

32. Methods for model-based reasoning within agent-based Ambient Intelligence applications

Author

Fiemke Both, Jan Treur, Charlotte Gerritsen, Tibor Bosse, Mark Hoogendoorn, Artificial intelligence, Network Institute, Computational Intelligence, and Social AI

Subjects

Reasoning system, Information Systems and Management, Opportunistic reasoning, Ambient intelligence, Knowledge representation and reasoning, Computer science, business.industry, Default logic, Model-based reasoning, Machine learning, computer.software_genre, Management Information Systems, Qualitative reasoning, Procedural reasoning system, Artificial Intelligence, Formal specification, Automated reasoning, Artificial intelligence, business, computer, Software

Abstract

Within agent-based Ambient Intelligence applications agents react to humans based on information obtained by sensoring and their knowledge about human functioning. Appropriate types of reactions depend on the extent to which an agent understands the human and is able to interpret the available information (which is often incomplete, and hence multi-interpretable) in order to create a more complete internal image of the environment, including humans. Such an understanding requires that the agent has knowledge to a certain depth about the human's physiological and mental processes in the form of an explicitly represented model of the causal and dynamic relations describing these processes. In addition, given such a model representation, the agent needs reasoning methods to derive conclusions from the model and interpret the (partial) information available by sensoring. This paper presents the development of a toolbox that can be used by a modeller to design Ambient Intelligence applications. This toolbox contains a number of model-based reasoning methods and approaches to control such reasoning methods. Formal specifications in an executable temporal format are offered, which allows for simulation of reasoning processes and automated verification of the resulting reasoning traces in a dedicated software environment. A number of such simulation experiments and their formal analysis are described. The main contribution of this paper is that the reasoning methods in the toolbox have the possibility to reason using both quantitative and qualitative aspects in combination with a temporal dimension, and the possibility to perform focused reasoning based upon certain heuristic information. © 2011 Elsevier B.V. All rights reserved.

Published

2012

33. A collaborative filtering approach to mitigate the new user cold start problem

Author

Jesús Bobadilla, Antonio Hernando, Fernando Ortega, and Jesús Bernal

Subjects

Information Systems and Management, Computer science, media_common.quotation_subject, 02 engineering and technology, Similarity measure, Recommender system, Machine learning, computer.software_genre, MovieLens, Management Information Systems, Cold start, Artificial Intelligence, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, Collaborative filtering, Quality (business), media_common, business.industry, Metric (mathematics), 020201 artificial intelligence & image processing, Artificial intelligence, Data mining, business, Precision and recall, computer, Software

Abstract

The new user cold start issue represents a serious problem in recommender systems as it can lead to the loss of new users who decide to stop using the system due to the lack of accuracy in the recommendations received in that first stage in which they have not yet cast a significant number of votes with which to feed the recommender system's collaborative filtering core. For this reason it is particularly important to design new similarity metrics which provide greater precision in the results offered to users who have cast few votes. This paper presents a new similarity measure perfected using optimization based on neural learning, which exceeds the best results obtained with current metrics. The metric has been tested on the Netflix and Movielens databases, obtaining important improvements in the measures of accuracy, precision and recall when applied to new user cold start situations. The paper includes the mathematical formalization describing how to obtain the main quality measures of a recommender system using leave-one-out cross validation.

Published

2012

34. Developing a knowledge-based system for complex geometrical product specification (GPS) data manipulation

Author

Yuanping Xu, Xiangqian Jiang, Zhijie Xu, and Paul J. Scott

Subjects

0209 industrial biotechnology, Information Systems and Management, Product design, business.industry, Computer science, Functional requirement, 02 engineering and technology, computer.software_genre, Knowledge acquisition, Management Information Systems, Geometrical product specification, Knowledge-based systems, 020901 industrial engineering & automation, Knowledge base, Artificial Intelligence, Assisted GPS, 0202 electrical engineering, electronic engineering, information engineering, Global Positioning System, 020201 artificial intelligence & image processing, Data mining, Product (category theory), business, Software engineering, computer, Software

Abstract

Geometrical product specification and verification (GPS) matrix system is a universal tool for expressing geometrical requirements on product design drawings. It benefits product designers through providing detailed description of functional requirements for geometrical products, and through referring to corresponding manufacturing and verification processes. In order to overcome current implementation problems highlighted in this paper, a GPS knowledge base and a corresponding innovative inference mechanism have been researched, which led to the development of an integrated GPS knowledge-based system to facilitate rapid and flexible manufacturing requirements. This paper starts with a brief introduction of GPS, GPS application problems and the project background. It then moves on to demonstrate a unified knowledge acquisition and representation mechanism based on the category theory (CT) with five selected examples of this project. The paper concludes with a discussion on the future works for this project.

Published

2011

35. Using argumentation to model and deploy agent-based applications

Author

Rafiul Alam, Nanjangud C. Narendra, Zakaria Maamar, and Jamal Bentahar

Subjects

Soundness, Persuasion, Information Systems and Management, Management science, Business process, business.industry, Computer science, media_common.quotation_subject, Autonomous agent, Management Information Systems, Argumentation theory, Resource (project management), Artificial Intelligence, General partnership, Software engineering, business, Protocol (object-oriented programming), Software, media_common

Abstract

This paper presents an agent-based framework for modeling and deploying Business-to-Business (B2B) applications, where autonomous agents act on behalf of the individual components that form these applications. This framework consists of three levels identified by strategic, application, and resource, with focus in this paper on the first two levels. The strategic level is about the common vision that independent businesses define as part of their decision of partnership. The application level is about the business processes that get virtually combined as result of this common vision. As conflicts are bound to arise among the independent applications/agents, the framework uses a formal model based on computational argumentation theory through a persuasion protocol to detect and resolve these conflicts. In this protocol, agents reason about partial information using partial arguments, partial attack, and partial acceptability. Agents can then jointly find arguments that support a new solution for their conflicts, which is not known by any of them individually. Termination, soundness, and completeness properties of this protocol are provided. Distributed and centralized coordination strategies are also supported in this framework, which is illustrated with an online-purchasing example.

Published

2010

36. EMADS: An extendible multi-agent data miner

Author

Paul H. Leng, Frans Coenen, and Kamal Ali Albashiri

Subjects

Information Systems and Management, User agent, Association rule learning, Conceptual framework, Artificial Intelligence, Computer science, End user, Control (management), Data classification, Data science, Software, Management Information Systems

Abstract

In this paper, we describe EMADS, an extendible multi-agent data mining system. The EMADS vision is that of a community of data mining agents, contributed by many individuals, interacting under decentralised control to address data mining requests. EMADS is seen both as an end user application and a research tool. This paper details the EMADS vision, the associated conceptual framework and the current implementation. Although EMADS may be applied to many data mining tasks; the study described here, for the sake of brevity, concentrates on agent based data classification. A full description of EMADS is presented.

Published

2009

37. Hamshahri: A standard Persian text collection

Author

Farhad Oroumchian, Ehsan Darrudi, Hadi Amiri, Masoud Rahgozar, and Abolfazl AleAhmad

Subjects

Information Systems and Management, Information retrieval, Middle East, Computer science, business.industry, computer.software_genre, language.human_language, Management Information Systems, Newspaper, Artificial Intelligence, language, Relevance (information retrieval), Artificial intelligence, business, computer, Software, Natural language processing, Persian

Abstract

The Persian language is one of the dominant languages in the Middle East, so there are significant amount of Persian documents available on the Web. Due to the different nature of the Persian language compared to the other languages such as English, the design of information retrieval systems in Persian requires special considerations. However, there are relatively few studies on retrieval of Persian documents in the literature and one of the main reasons is the lack of a standard test collection. In this paper, we introduce a standard Persian text collection, named Hamshahri, which is built from a large number of newspaper articles according to TREC specifications. Furthermore, statistical information about documents, queries and their relevance judgments are presented in this paper. We believe that this collection is the largest Persian text collection, so far.

Published

2009

38. A generic design environment for the rural industry knowledge acquisition

Author

Tom Cowan, Donald Kerr, John G. Gammack, and Shah Jahan Miah

Subjects

Decision support system, Information Systems and Management, Knowledge management, business.industry, Computer science, End user, Context (language use), Knowledge acquisition, Management Information Systems, Knowledge-based systems, Knowledge base, Artificial Intelligence, Problem domain, business, Software

Abstract

This paper describes a new knowledge acquisition method using a generic design environment where context-sensitive knowledge is used to build specific DSS for rural business. Although standard knowledge acquisition methods have been applied in rural business applications, uptake remains low and familiar weaknesses such as obsolescence and brittleness apply. We describe a decision support system (DSS) building environment where contextual factors relevant to the end users are directly taken into consideration. This ''end user enabled design environment'' (EUEDE) engages both domain experts in creating an expert knowledge base and business operators/end users (such as farmers) in using this knowledge for building their specific DSS. We document the knowledge organisation for the problem domain, namely a dairy industry application. This development involved a case-study research approach used to explore dairy operational knowledge. In this system end users can tailor their decision-making requirements using their own judgement to build specific DSSs. In a specific end user's farming context, each specific DSS provides expert suggestions to assist farmers in improving their farming practice. The paper also shows the environment's generic capability.

Published

2008

39. An empirical study on sea water quality prediction

Author

Grigorios Tsoumakas, Ioannis Vlahavas, George Tzanis, Evaggelos V. Hatzikos, and Nick Bassiliades

Subjects

Information Systems and Management, Computer science, business.industry, media_common.quotation_subject, Machine learning, computer.software_genre, Management Information Systems, Variety (cybernetics), Nonlinear system, Empirical research, Artificial Intelligence, Quality (business), Artificial intelligence, Water quality, Predictability, business, computer, Wireless sensor network, Software, media_common

Abstract

This paper studies the problem of predicting future values for a number of water quality variables, based on measurements from under-water sensors. It performs both exploratory and automatic analysis of the collected data with a variety of linear and nonlinear modeling methods. The paper investigates issues, such as the ability to predict future values for a varying number of days ahead and the effect of including values from a varying number of past days. Experimental results provide interesting insights on the predictability of the target variables and the performance of the different learning algorithms.

Published

2008

40. Discourse processing for context question answering based on linguistic knowledge

Author

Mingyu Sun and Joyce Y. Chai

Subjects

Cohesion (linguistics), Pronoun, Query expansion, Information Systems and Management, Information retrieval, Artificial Intelligence, Computer science, Question answering, Document retrieval, Discourse processing, Data science, Software, Management Information Systems

Abstract

Motivated by the recent effort on scenario-based context question answering (QA), this paper investigates the role of discourse processing and its implication on query expansion for a sequence of questions. Our view is that a question sequence is not random, but rather follows a coherent manner to serve some information goals. Therefore, this sequence of questions can be considered as a mini discourse with some characteristics of discourse cohesion. Understanding such a discourse will help QA systems better interpret questions and retrieve answers. Thus, we examine three models driven by Centering Theory for discourse processing: a reference model that resolves pronoun references for each question, a forward model that makes use of the forward looking centers from previous questions, and a transition model that takes into account the transition state between adjacent questions. Our empirical results indicate that more sophisticated processing based on discourse transitions and centers can significantly improve the performance of document retrieval compared to models that only resolve references. This paper provides a systematic evaluation of these models and discusses their potentials and limitations in processing coherent context questions.

Published

2007

41. Approximate declarative semantics for rule base anomalies

Author

Du Zhang and Luqi

Subjects

Information Systems and Management, Semantics (computer science), Computer science, Inconsistency, computer.software_genre, Semantics, Management Information Systems, Knowledge-based systems, Redundancy, Artificial Intelligence, Redundancy (engineering), Programming language, business.industry, Knowledge base anomalies, Incompleteness, Circularity, Legal expert system, Knowledge base verification, Expert system, First-order logic, Knowledge base, Artificial intelligence, business, computer, Software, Natural language processing, Verification and validation

Abstract

The article of record as published may be found at https://doi.org/10.1016/S0950-7051(99)00032-5 Despite the fact that there has been a surge of publications in verification and validation of knowledge-based systems and expert systems in the past decade, there are still gaps in the study of verification and validation (V&V) of expert systems, not the least of which is the lack of appropriate semantics for expert system programming languages. Without a semantics, it is hard to formally define and analyze knowledge base anomalies such as inconsistency and redundancy, and it is hard to assess the effectiveness of V&V tools, methods and techniques that have been developed or proposed. In this paper, we develop an approximate declarative semantics for rule-based knowledge bases and provide a formal definition and analysis of knowledge base inconsistency, redundancy, circularity and incompleteness in terms of theories in the first order predicate logic. In the paper, we offer classifications of commonly found cases of inconsistency, redundancy, circularity and incompleteness. Finally, general guidelines on how to remedy knowledge base anomalies are given.

Published

1999

42. A Data Mining methodology for cross-sales

Author

David A. Bell, Sarabjot Singh Anand, John Hughes, and A. R. Patrick

Subjects

Measure (data warehouse), Information Systems and Management, business.industry, Computer science, Filter (signal processing), Machine learning, computer.software_genre, Management Information Systems, Artificial Intelligence, Domain knowledge, Survey data collection, Data enrichment, Artificial intelligence, Data mining, business, Value (mathematics), computer, Software, Financial sector

Abstract

In this paper we discuss the use of Data Mining to provide a solution to the problem of cross-sales. We define and analyse the cross-sales problem and develop a hybrid methodology to solve it, using characteristic rule discovery and deviation detection. Deviation detection is used as a measure of interest to filter out the less interesting characteristic rules and only retain the best characteristic rules discovered. The effect of domain knowledge on the interestingness value of the discovered rules is discussed and techniques for refining the knowledge to increase this interestingness measure are studied. We also investigate the use of externally procured lifestyle and other survey data for data enrichment and discuss its use as additional domain knowledge. The developed methodology has been applied to a real world cross-sales problem within the financial sector, and the results are also presented in this paper. Although the application described is in the financial sector, the methodology is generic in nature and can be applied to other sectors.

Published

1998

43. SigOpt Mulch: An intelligent system for AutoML of gradient boosted trees

Author

Aleksei Sorokin, Xinran Zhu, Eric Hans Lee, and Bolong Cheng

Subjects

FOS: Computer and information sciences, Computer Science - Machine Learning, Artificial Intelligence (cs.AI), Information Systems and Management, Computer Science - Artificial Intelligence, Artificial Intelligence, Computer Science - Mathematical Software, Mathematical Software (cs.MS), Software, Machine Learning (cs.LG), Management Information Systems

Abstract

Gradient boosted trees (GBTs) are ubiquitous models used by researchers, machine learning (ML) practitioners, and data scientists because of their robust performance, interpretable behavior, and ease-of-use. One critical challenge in training GBTs is the tuning of their hyperparameters. In practice, selecting these hyperparameters is often done manually. Recently, the ML community has advocated for tuning hyperparameters through black-box optimization and developed state-of-the-art systems to do so. However, applying such systems to tune GBTs suffers from two drawbacks. First, these systems are not \textit{model-aware}, rather they are designed to apply to a \textit{generic} model; this leaves significant optimization performance on the table. Second, using these systems requires \textit{domain knowledge} such as the choice of hyperparameter search space, which is an antithesis to the automatic experimentation that black-box optimization aims to provide. In this paper, we present SigOpt Mulch, a model-aware hyperparameter tuning system specifically designed for automated tuning of GBTs that provides two improvements over existing systems. First, Mulch leverages powerful techniques in metalearning and multifidelity optimization to perform model-aware hyperparameter optimization. Second, it automates the process of learning performant hyperparameters by making intelligent decisions about the optimization search space, thus reducing the need for user domain knowledge. These innovations allow Mulch to identify good GBT hyperparameters far more efficiently -- and in a more seamless and user-friendly way -- than existing black-box hyperparameter tuning systems.

Published

2023

44. Graph reduction implementation of a production system

Author

Stephen Murrell and Robert Plant

Subjects

Information Systems and Management, Theoretical computer science, Computer science, media_common.quotation_subject, Knowledge engineering, Inference, Data type, Management Information Systems, Programming style, Parallel processing (DSP implementation), Artificial Intelligence, Graph reduction, Alice (programming language), computer, Implementation, Software, media_common, computer.programming_language

Abstract

The paper explores the implementation of rule-based pattern-directed inference systems on parallel computers. The paper discusses one of these approaches in detail, the use of a graph-reduction machine such as ALICE. The technique is illustrated through two example domains: automobile fault diagnosis and organic psychiatric mental disorders. The paper discusses extensions to the graph reduction technique as applied to knowledge-based systems, including partitioning, time considerations and input data types. The paper shows that the graph-reduction technique has significant advantages for knowledge-based system implementation over conventional approaches, and it demonstrates that this programming style is amenable to knowledge engineering domains.

Published

1995

45. Towards competent information acquisition interactions between an expert system and its user

Author

Keravnou-Papailiou, Elpida T., Washbrook, J., Dams, F., Keravnou-Papailiou, Elpida T. [0000-0002-8980-4253], and Κεραυνού-Παπαηλιού, Ελπίδα

Subjects

Expert systems (Computer science), Information Systems and Management, Knowledge management, business.industry, Computer science, media_common.quotation_subject, User modeling, Legal expert system, computer.software_genre, Medical and Health Sciences, Expert system, Management Information Systems, Subject-matter expert, Data model, Artificial Intelligence, Human–computer interaction, Perception, Diagnosis, Medicine, business, computer, Competence (human resources), Software, media_common

Abstract

Expert systems are consultative, highly interactive systems, and hence the quality of interaction between system and user is important for the acceptability of the system. Acquisition of data about the problem in hand is a central feature of the interaction between system and user, and it makes a major contribution to the user's perception of the system. It is therefore crucial that the acquisition of this data (both as individual data items and as a sequence of data inputs) is perceived by the user as competent. This paper identifies central, domain-independent, design goals for the information-acquisition interactions between an expert system and its user, including mixed-initiative interaction, flexibility in user input, and system competence in querying the user. The paper discusses the realisation of these goals in a diagnostic expert system, Skeletal Dysplasias Diagnostician, through an explicit data model which allows for the representation of data with temporal and spatial (locality) aspects and the decide-status function which operates on the data model.

Published

1993

46. RNNCTPs: A neural symbolic reasoning method using dynamic knowledge partitioning technology

Author

Yu-hao Wu and Hou-biao Li

Subjects

FOS: Computer and information sciences, Artificial Intelligence (cs.AI), Information Systems and Management, Computer Science - Artificial Intelligence, Artificial Intelligence, FOS: Mathematics, F.4.1, Mathematics - Logic, Mathematics - Numerical Analysis, Numerical Analysis (math.NA), Logic (math.LO), Software, Management Information Systems

Abstract

Although traditional symbolic reasoning methods are highly interpretable, their application in knowledge graph link prediction is limited due to their low computational efficiency. In this paper, we propose a new neural symbolic reasoning method: RNNCTPs, which improves computational efficiency by re-filtering the knowledge selection of Conditional Theorem Provers (CTPs), and is less sensitive to the embedding size parameter. RNNCTPs are divided into relation selectors and predictors. The relation selectors are trained efficiently and interpretably, so that the whole model can dynamically generate knowledge for the inference of the predictor. In all four datasets, the method shows competitive performance against traditional methods on the link prediction task, and can have higher applicability to the selection of datasets relative to CTPs., Comment: 16 pages, 8 figures,5 tables

Published

2023

47. FADO: Feedback-Aware Double COntrolling Network for Emotional Support Conversation

Author

Wei Peng, Ziyuan Qin, Yue Hu, Yuqiang Xie, and Yunpeng Li

Subjects

FOS: Computer and information sciences, Computer Science - Computation and Language, Information Systems and Management, Artificial Intelligence, Computation and Language (cs.CL), Software, Management Information Systems

Abstract

Emotional Support Conversation (ESConv) aims to reduce help-seekers'emotional distress with the supportive strategy and response. It is essential for the supporter to select an appropriate strategy with the feedback of the help-seeker (e.g., emotion change during dialog turns, etc) in ESConv. However, previous methods mainly focus on the dialog history to select the strategy and ignore the help-seeker's feedback, leading to the wrong and user-irrelevant strategy prediction. In addition, these approaches only model the context-to-strategy flow and pay less attention to the strategy-to-context flow that can focus on the strategy-related context for generating the strategy-constrain response. In this paper, we propose a Feedback-Aware Double COntrolling Network (FADO) to make a strategy schedule and generate the supportive response. The core module in FADO consists of a dual-level feedback strategy selector and a double control reader. Specifically, the dual-level feedback strategy selector leverages the turn-level and conversation-level feedback to encourage or penalize strategies. The double control reader constructs the novel strategy-to-context flow for generating the strategy-constrain response. Furthermore, a strategy dictionary is designed to enrich the semantic information of the strategy and improve the quality of strategy-constrain response. Experimental results on ESConv show that the proposed FADO has achieved the state-of-the-art performance in terms of both strategy selection and response generation. Our code is available at https://github.com/Thedatababbler/FADO., Accepted on Knowl. Based Syst. (SCI I)

Published

2023

48. Structuring and modules for knowledge bases: motivation for a new model

Author

Grigoris Antoniou and Ipke Wachsmuth

Subjects

Information Systems and Management, Theoretical computer science, Knowledge representation and reasoning, business.industry, Computer science, modules, knowledge representation, Open Knowledge Base Connectivity, Procedural knowledge, Management Information Systems, Knowledge sharing, Body of knowledge, Knowledge-based systems, Knowledge base, Knowledge extraction, Artificial Intelligence, Knowledge integration, Domain knowledge, Artificial intelligence, knowledge sharing, business, Software, Logic programming

Abstract

Evolving out of theoretical and practical work, the paper presents the motivation and basic ideas for the construction and use of modular knowledge bases. The approach relates to earlier work carried out by each of the two authors of the paper separately. A model is introduced that merges the two previous approaches, modules for logical knowledge bases, and ordering by generality domains, while maintaining their benefits. Central aims are reusability, the restriction of memory searching, and the management of inconsistent (competing) knowledge within one knowledge base. The model is explained using examples, and the formal semantics are discussed of structured, modular knowledge bases for knowledge representations that are based on logic programming.

Published

1994

49. New machine learning approaches for real-life human activity recognition using smartphone sensor-based data

Author

Daniel Garcia-Gonzalez, Daniel Rivero, Enrique Fernandez-Blanco, and Miguel R. Luaces

Subjects

Smartphones, Information Systems and Management, HAR, Sensors, Artificial Intelligence, Machine learning, Real life, Human activity recognition, Software, Management Information Systems

Abstract

Financiado para publicar en acceso aberto. Universidade da Coruña/CISUG [Abstract]: In recent years, mainly due to the application of smartphones in this area, research in human activity recognition (HAR) has shown a continuous and steady growth. Thanks to its wide range of sensors, its size, its ease of use, its low price and its applicability in many other fields, it is a highly attractive option for researchers. However, the vast majority of studies carried out so far focus on laboratory settings, outside of a real-life environment. In this work, unlike in other papers, progress was sought on the latter point. To do so, a dataset already published for this purpose was used. This dataset was collected using the sensors of the smartphones of different individuals in their daily life, with almost total freedom. To exploit these data, numerous experiments were carried out with various machine learning techniques and each of them with different hyperparameters. These experiments proved that, in this case, tree-based models, such as Random Forest, outperform the rest. The final result shows an enormous improvement in the accuracy of the best model found to date for this purpose, from 74.39% to 92.97%. Xunta de Galicia; ED431G 2019/01 Xunta de Galicia; ED481A 2020/003 Xunta de Galicia; ED431C 2022/46 Xunta de Galicia; ED431C 2018/49 Xunta de Galicia; ED431C 2021/53 This research was partially funded by MCIN/AEI/10.13039/ 501100011033, NextGenerationEU/PRTR, FLATCITY-POC , Spain [grant number P DC2021-121239-C31]; MCIN/AEI/10.13039/ 501100011033 MAGIST, Spain [grant number P ID2019-105221RB-C41]; Xunta de Galicia/FEDER-UE, Spain [grant numbers ED431G 2019/01 , ED481A 2020/003 , ED431C 2022/46 , ED431C 2018/49 and ED431C 2021/53 ]. Funding for open access charge: Universidade da Coruña/CISUG.

Published

2023

50. A two-stage integrated method for early prediction of remaining useful life of lithium-ion batteries

Author

Guijun Ma, Zidong Wang, Weibo Liu, Jingzhong Fang, Yong Zhang, Han Ding, and Ye Yuan

Subjects

Information Systems and Management, Artificial Intelligence, lithium-ion batteries, convolutional neural network, remaining useful life prediction, cycle life prediction, Gaussian process regression, Software, Management Information Systems

Abstract

Data availability: The code used in this paper is available at: https://github.com/mxt0607/Two_Stage_RUL_Prediction. This article puts forward a two-stage integrated method to predict the remaining useful life (RUL) of lithium-ion batteries (LIBs). At the first stage, a convolutional neural network (CNN) is employed to preliminarily estimate the cycle life of each testing LIB, where the network structure of the CNN is carefully designed to extract the discharge capacity features. By analyzing the cycle lives, an LIB which has the most similar degradation mode to each testing LIB is chosen from the training dataset. The capacities of the selected LIB are identified based on a double exponential model (DEM). At the second stage, the identified DEM is utilized as the initial mean function of the Gaussian process regression (GPR) algorithm. The GPR algorithm is then applied to early RUL prediction of each testing LIB in a personalized manner. To verify the efficacy of the proposed method, four LIBs with long-term cycle lives are selected as the testing dataset. Experimental results show the superior performance of the proposed method over the standard CNN-based RUL prediction method and the standard GPR-based RUL prediction method. This work was supported in part the National Natural Science Foundation of China under Grants 62273264, 51905197 and 61933007.

Published

2023