Equipe 2 com

2019

Mohyeddine, Soltani. 2019. “Enhancement of the industrial performances through Value Stream Mapping method: case study in an Algerian”. ISTSID International symposium on Technology Sustainable Industry Development 25-26/02 Eloued.

Zerari, Naima, et al. 2019. “Proposal of an Automatic Single Document Text Summarization”. 43rd International Conference on Management, Economics & Social Science ( ICMESS 2019 ) 18-19 Mars. Publisher's Version

2018

Hanane, Zermane. 2018. “Bi-directional Recurrent End-to-End Neural Network Classifier for Spoken Arab Digit Recognition”. In ICNLSP 2018, International Conference on Natural Language and Speech Processing,. Publisher's Version Abstract

Automatic Speech Recognition can be considered as a transcription of spoken utterances into text which can be used to monitor/command a specific system. In this paper, we propose a general end-to-end approach to sequence learning that uses Long Short-Term Memory (LSTM) to deal with the non-uniform sequence length of the speech utterances. The neural architecture can recognize the Arabic spoken digit spelling of an isolated Arabic word using a classification methodology, with the aim to enable natural human-machine interaction. The proposed system consists to, first, extract the relevant features from the input speech signal using Mel Frequency Cepstral Coefficients (MFCC) and then these features are processed by a deep neural network able to deal with the non uniformity of the sequences length. A recurrent LSTM or GRU architecture is used to encode sequences of MFCC features as a fixed size vector that will feed a multilayer perceptron network to perform the classification. The whole neural network classifier is trained in an end-to-end manner. The proposed system outperforms by a large gap the previous published results on the same database.

Hanane, Zermane. 2018. “Control of inhalation anesthesia using fuzzy logic”. IEOM 2018 Industrial Engineering and Operations Management July 26-27 Paris, France. Publisher's Version

Hanane, Zermane. 2018. “Supervision of an Industrial Process of Milk Production using Fuzzy Logi ”. IEOM 2018 Industrial Engineering and Operations Management July 26-27 Paris, France. Publisher's Version Abstract

Because we usually deal with real - world systems with real - world constraints (cost, computer resources, size, weight, power, heat dissipation, etc.), it is understood that the simplest method to accomplish a task is the one that should be used. Experts usually rely on common sense when they solve problems. They also use vague and ambiguous terms. Other experts have no difficulties with understanding and interpreting this statement because they have the background to hearing problems described like this. However, a knowledge engineer would have difficulties providing a computer with the same level of understanding. In a complex industrial process, how can we represent expert knowledge that uses vague and fuzzy terms in a computer to control it? In this work, the application is developed to control the pretreatment and pasteurization station of milk localized in Batna (Algeria) by adopting a control approach based on expert knowledge and fuzzy logic

Samia, Aitoche. 2018. “Proposal of a flexible and universal survey generator for a Business Intelligence”. CEIT 2018 6th International Conference on Control Engineering and Information Technologies 25-27 Octobre Istambul, Turkie. Publisher's Version

2018. “Management des compétences dans l’entreprise et sa relation avec la formation”. ISKO Maghreb 2018 (International Society for Knowledge Organization 25-26 Novembre, Bejaia, Algérie. Publisher's Version

Samia, Aitouche. 2018. “Relative scientometric analysis of knowledge management journals in SCOPUS ”. PAIS 2018 The 3rd International Conference on Pattern Analysis and Intelligent Systems 24-25 Octobre Tebessa, Algérie. Publisher's Version

Khaled, Latreche. 2018. “Relative bibliometrics of intellectual capital and knowledge management in SCOPUS ISSN: 2169-876 ISBN: 978-1-5323-5944-6-3”. IOEM2018. Industrial Engineering and Operations Management 26-27Juillet Paris, France. Publisher's Version

Khereydine, Bouhafna. 2018. “A strategic method for steering a photovoltaic generator ISSN: 2308-4375, ISBN: 978-1-61208-620-0”. EKNOW 2018 International Conference on Information, Process, and Knowledge Management : 50-55, 25-29 . Publisher's Version

Hanane, Zermane. 2018. “ Fuzzy Supervision of an Industrial Production Process by Extracting Experts Knwoledge ISSN: 2169-876 ISBN: 978-1-5323-5944-6 ”. EKNOW 2018 International Conference on Information, Process, and Knowledge Management : 44-49, 25-29 . Publisher's Version

2017

Bilal, Menzer. 2017. “Processing a voice query in a Standard Arabic Human-Machine Dialog System (SAHMDS)”. PAIS’17 The 2nd International Conference on Pattern Analysis and Intelligent Systems November 16-17th Khenchela Algeria.

Lahcene, Guezouli. 2017. “An effective multi-criteria solving procedure for Multi-depot Fleet Size and Mix VRP with time window”. ICC 2017The second International Conference on Internet of Things, Data and Cloud Computing Cambridge university, United Kingdom .

Lahcene, Guezouli. 2017. “A multi-objective optimization of Multi-depot Fleet Size and Mix Vehicle Routing Problem with time window”. IICSC). 6th International Conference on Systems and Controle Batna2 university, Algeria : 328-333 . Publisher's Version

Naima, Zerari. 2017. “Keyword analysis of intellectual capital and knowledge management in SCOPUS ISSN:2308-4375 ISBN: 978-1-61208-542”. EKNOW 2017 International Conference on Information, Process, and Knowledge Management March 19 - 23 Nice, France : 26-32. Publisher's Version

Mounir, Aouedj. 2017. “Analysis of Wireless Data Transmission for the Site Survey of Telemetry Systems Projects ISBN 978-1-61399-563-1”. ADIPEC International Petroleum Exhibition & Conference 13-16 November Abu Dhabi, UAE. Publisher's Version

Samia, Brahmi. 2017. “Intellectual capital and its measurement ISSN: 2196-8767, ISBN: 978-0-9855497-6-3”. IEOM 2017 Industrial Engineering and Operations Management 11-13Avril Rabat, Marocco : 205-209. Publisher's Version

Naima, Zerari. 2017. “Automatic text summarization: A review ISSN:2308-4375 ISBN: 978-1-61208-542”. EKNOW 2017 International Conference on Information, Process, and Knowledge Management Nice, France. Publisher's Version

Samia, Aitoche. 2017. “Keyword analysis of intellectual capital and knowledge management in SCOPUS, ISSN:2308-4375 ISBN: 978-1-61208-542”. EKNOW 2017 International Conference on Information, Process, and Knowledge Management Nice, France . Publisher's Version

Mounir, Aouedj. 2017. “Building a SCADA System by Using a DCS Control System to Improve Oilfield Wells Monitoring, ISBN 978-1-61399-575-4”. SPE Intelligent Oil and Gas Symposium Knowledge Sharing 9-10 May held in Abu Dhabi, UAE : 506-512.

Quo Vadis Machine Learning-Based Systems Condition Prognosis?—A Perspective

Benbouzid, Mohamed, and Tarek Berghout. 2023. “Quo Vadis Machine Learning-Based Systems Condition Prognosis?—A Perspective”. Electronics 12 (3) : 527. Publisher's Version Abstract

Data-driven prognostics and health management (PHM) is key to increasing the productivity of industrial processes through accurate maintenance planning. The increasing complexity of the systems themselves, in addition to cyber-physical connectivity, has brought too many challenges for the discipline. As a result, data complexity challenges have been pushed back to include more decentralized learning challenges. In this context, this perspective paper describes these challenges and provides future directions based on a relevant state-of-the-art review.

Lithium-ion Battery State of Health Prediction with a Robust Collaborative Augmented Hidden Layer Feedforward Neural Network Approach

Berghout, Tarek, et al. 2023. “Lithium-ion Battery State of Health Prediction with a Robust Collaborative Augmented Hidden Layer Feedforward Neural Network Approach”. IEEE Transactions on Transportation Electrification. Publisher's Version Abstract

Lithium-ion (Li-ion) batteries play an important role in providing necessary energy when acting as a main or backup source of electricity. Indeed, the unavailability of battery aging discharge data in most real-world applications makes the State of Health (SoH) assessment very challenging. Alternatively, accelerated aging is therefore adopted to emulate the degradation process and to achieve an SoH estimate. However, accelerated aging generates limited deterioration patterns suffering from a higher level of complexity due to the non-linearity and non-stationarity imposed by harsh conditions. In this context, this paper aims to provide a predictive model capable of solving incomplete data problems by providing two main solutions for each of the problems of complexity and missing patterns, respectively. First, to overcome the problem of lack of patterns, a robust collaborative feature extractor (RCFE) is designed by collaborating between a set of improved restricted Boltzmann machines (I-RBMs) to be able to share learning knowledge among different locally trained I-RBMs to create a more generalized global extraction model. Second, a set of RCFEs is then evolved through a neural network with an augmented hidden layer (NAHL) to enhance the predictive ability by further exploring representation learning to overcome pattern complexity issues. The designed RCFE-NAHL is trained to predict SoH using constant current (CC) discharge characteristics by implying multiple characteristics recorded through the constant voltage (CV) charging process as indicators of health. The proposed SoH prediction approach performances are evaluated on a set of battery life cycles from the well-known NASA database. In this context, the achieved results clearly highlight the higher accuracy and robustness of the proposed learning model.

2DF-IDS: Decentralized and differentially private federated learning-based intrusion detection system for industrial IoT

Othmane, Friha, et al. 2023. “2DF-IDS: Decentralized and differentially private federated learning-based intrusion detection system for industrial IoT”. Computers & Security 127. Publisher's Version Abstract

Advanced technologies, such as the Internet of Things (IoT) and Artificial Intelligence (AI), underpin many of the innovations in Industry 4.0. However, the interconnectivity and open nature of such systems in smart industrial facilities can also be targeted and abused by malicious actors, which reinforces the importance of cyber security. In this paper, we present a secure, decentralized, and Differentially Private (DP) Federated Learning (FL)-based IDS (2DF-IDS), for securing smart industrial facilities. The proposed 2DF-IDS comprises three building blocks, namely: a key exchange protocol (for securing the communicated weights among all peers in the system), a differentially private gradient exchange scheme (achieve improved privacy of the FL approach), and a decentralized FL approach (that mitigates the single point of failure/attack risk associated with the aggregation server in the conventional FL approach). We evaluate our proposed system through detailed experiments using a real-world IoT/IIoT dataset, and the results show that the proposed 2DF-IDS system can identify different types of cyber attacks in an Industrial IoT system with high performance. For instance, the proposed system achieves comparable performance (94.37%) with the centralized learning approach (94.37%) and outperforms the FL-based approach (93.91%) in terms of accuracy. The proposed system is also shown to improve the overall performance by 12%, 13%, and 9% in terms of F1-score, recall, and precision, respectively, under strict privacy settings when compared to other competing FL-based IDS solutions.

Faulty Detection System Based on SPC and Machine Learning Techniques

Benrabah, Mohamed-Elamine, Ouahab Kadri, and Nadia-Kenza Mouss. 2023. “Faulty Detection System Based on SPC and Machine Learning Techniques”. Revue de l’Intelligence Artificielle : 969-977. Publisher's Version Abstract

Starting from a worrying observation, that companies have difficulties controlling the anomalies of their manufacturing processes, in order to have a better control over them, we have realized a case study on the practical data of the Fertial Complex to analyze the main parameters of the ammonia neutralization by nitric acid process. This article proposes a precise diagnostic of this process to detect dysfunction problems affecting the final product. We start with a general diagnosis of the process using the SPC method, this approach is considered an excellent way to monitor and improve the product quality and provides very useful observations that allowed us to detect the parameters that suffer from problems affecting the quality. After the discovery of the parameters incapable to produce the quality required by the standards, we applies two machine learning technologies dedicated to the type of data of these parameters for detected the anomaly, the first technique called The kernel connectivity-based outlier factor (COF) algorithm consists in recording for each object the degree of being an outlier, the second technique called the Isolation Forest, its principle is to establish a forest to facilitate the calculation and description. The results obtained were compared in order to choose which is the best algorithm to monitor and detect the problems of these parameters, we find that the COF method is more efficient than the isolation forest which leads us to rely on this technology in this kind of process in order to avoid passing a bad quality to the customer in future.

IoT-based food traceability system: Architecture, technologies, applications, and future trends

Mehannaoui, Raouf, Kinza-Nadia Mouss, and Karima Aksa. 2023. “IoT-based food traceability system: Architecture, technologies, applications, and future trends”. Food Control 145. Publisher's Version Abstract

An effective Food Traceability System (FTS) in a Food Supply Chain (FSC) should adequately provide all necessary information to the consumer(s), meet the requirements of the relevant agencies, and improve food safety as well as consumer confidence. New information and communication technologies are rapidly advancing, especially after the emergence of the Internet of Things (IoT). Consequently, new food traceability systems have become mainly based on IoT. Many studies have been conducted on food traceability. They mainly focused on the practical implementation and theoretical concepts. Accordingly, various definitions, technologies, and principles have been proposed. The “traceability” concept has been defined in several ways and each new definition has tried to generalize its previous ones. Nevertheless, no standard definition has been reached. Furthermore, the architecture of IoT-based food traceability systems has not yet been standardized. Similarly, used technologies in this field have not been yet well classified. This article presents an analysis of the existing definitions of food traceability, and thus proposes a new one that aims to be simpler, general, and encompassing than the previous ones. We also propose, through this article, a new architecture for IoT-based food traceability systems as well as a new classification of technologies used in this context. We do not miss discussing the applications of different technologies and future trends in the field of IoT-based food traceability systems. Mainly, an FTS can make use of three types of technologies: Identification and Monitoring Technologies (IMT), Communication Technologies (CT), and Data Management Technologies (DMT). Improving a food traceability system requires the use of the best new technologies. There is a variety of promising technologies today to enhance FTS, such as fifth-generation (5G) mobile communication systems and distributed ledger technology (DLT).

Laboratoire D'automatique et Productique