Tahar Kechadi scite author profile

region at a hadron collider. This document discusses the implications of these first measurements on classes of extensions to the Standard Model, bearing in mind the interplay with the results of searches for on-shell production of new particles at ATLAS and CMS. The physics potential of an upgrade to the LHCb detector, which would allow an order of magnitude more data to be collected, is emphasised.

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Cloud forensics definitions and critical criteria for cloud forensic capability: An overview of survey results

Ruan

Carthy

Kechadi

et al. 2013

Digital Investigation

151

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Cloud Forensics

Ruan¹,

Carthy²,

Kechadi³

et al. 2011

146

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Multi-objective feature selection by using NSGA-II for customer churn prediction in telecommunications

Huang

Buckley

Kechadi

2010

Expert Systems with Applications

120

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Exploratory spatio-temporal data mining and visualization

Compieta

Martino

Bertolotto

et al. 2007

Journal of Visual Languages & Computing

107

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CupCarbon: A Multi-Agent and Discrete Event Wireless Sensor Network Design and Simulation Tool

Mehdi

Lounis

Bounceur³

et al. 2014

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This paper presents the first version of a Wireless Sensor Network simulator, called CupCarbon. It is a multi-agent and discrete event Wireless Sensor Network (WSN) simulator. Networks can be designed and prototyped in an ergonomic user-friendly interface using the OpenStreetMap (OSM) framework by deploying sensors directly on the map. It can be used to study the behaviour of a network and its costs. The main objectives of CupCarbon are both educational and scientific. It can help trainers to explain the basic concepts and how sensor networks work and it can help scientists to test their wireless topologies, protocols, etc. The current version can be used only to study the power diagram of each sensor and the overall network. The power diagrams can be calculated and displayed as a function of the simulated time. Prototyping networks is more realistic compared to existing simulators.

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Human Activity Recognition with Convolutional Neural Networks

Bevilacqua

MacDonald²,

Rangarej³

et al. 2019

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The problem of automatic identification of physical activities performed by human subjects is referred to as Human Activity Recognition (HAR). There exist several techniques to measure motion characteristics during these physical activities, such as Inertial Measurement Units (IMUs). IMUs have a cornerstone position in this context, and are characterized by usage flexibility, low cost, and reduced privacy impact. With the use of inertial sensors, it is possible to sample some measures such as acceleration and angular velocity of a body, and use them to learn models that are capable of correctly classifying activities to their corresponding classes. In this paper, we propose to use Convolutional Neural Networks (CNNs) to classify human activities. Our models use raw data obtained from a set of inertial sensors. We explore several combinations of activities and sensors, showing how motion signals can be adapted to be fed into CNNs by using different network architectures. We also compare the performance of different groups of sensors, investigating the classification potential of single, double and triple sensor systems. The experimental results obtained on a dataset of 16 lowerlimb activities, collected from a group of participants with the use of five different sensors, are very promising.

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Tahar Kechadi

Customer churn prediction in telecommunications

Implications of LHCb measurements and future prospects

Cloud forensics definitions and critical criteria for cloud forensic capability: An overview of survey results

Cloud Forensics

Multi-objective feature selection by using NSGA-II for customer churn prediction in telecommunications

Exploratory spatio-temporal data mining and visualization

CupCarbon: A Multi-Agent and Discrete Event Wireless Sensor Network Design and Simulation Tool

Human Activity Recognition with Convolutional Neural Networks

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