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Prof. César Benavente-Peces
Universidad Politecnica de Madrid (UPM)

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0 IoT
0 WSN
0 machine learning
0 Signal Processing,
0 Communications,

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Communications,
Signal Processing,
WSN
machine learning

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Original research
Published: 03 January 2021 in Journal of Ambient Intelligence and Humanized Computing
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Recent advances in wireless sensor networks, especially in industry (IWSN), have brought important improvements to deploy a sensor network in such environments. However, there is a high interference level, noise, shadowing, and multipath fading, caused by machines, several metallic objects, which affect the link quality. Some mechanisms have been proposed to deal with these effects, such as frequency hopping and channel blacklisting, or rather, denylisting. However, there are still open issues, such as an appropriate method for managing both mechanisms to avoid similar or adjacent channels in simultaneous transmissions. In addition to denylisting with low quality channels, this paper proposes a greylist with uncertain quality channels, and a whitelist, or rather, allowlist, with good quality channels. A fuzzy logic method to classify them and insert the channels into the appropriate list is used. The mechanism was compared to the channel hopping approach employed on the time slotted channel hopping (TSCH) protocol with and without channel offset management in tree topology networks. The evaluations were made through simulations using a realistic channel model for IWSN, and the results demonstrate that the proposed approach presented better performance in terms of packet delivery rate and determinism. In the studied examples, the network with 53 devices and with the triple channel list approach presented 8% better in terms of packet delivery rate in the application layer than the blind approach (without link quality estimation) of TSCH with channel offset management (no collision), and from 51 to 59% better than approaches without the channel offset management.

ACS Style

Diego V. Queiroz; Ruan D. Gomes; Iguatemi E. Fonseca; Marcelo S. Alencar; Cesar Benavente-Peces. Channel assignment in TSCH-based wireless sensor networks using fuzzy logic. Journal of Ambient Intelligence and Humanized Computing 2021, 1 -20.

AMA Style

Diego V. Queiroz, Ruan D. Gomes, Iguatemi E. Fonseca, Marcelo S. Alencar, Cesar Benavente-Peces. Channel assignment in TSCH-based wireless sensor networks using fuzzy logic. Journal of Ambient Intelligence and Humanized Computing. 2021; ():1-20.

Chicago/Turabian Style

Diego V. Queiroz; Ruan D. Gomes; Iguatemi E. Fonseca; Marcelo S. Alencar; Cesar Benavente-Peces. 2021. "Channel assignment in TSCH-based wireless sensor networks using fuzzy logic." Journal of Ambient Intelligence and Humanized Computing , no. : 1-20.

Journal article
Published: 07 July 2020 in Energies
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Energy efficiency is a major concern to achieve sustainability in modern society. Smart cities sustainability depends on the availability of energy-efficient infrastructures and services. Buildings compose most of the city, and they are responsible for most of the energy consumption and emissions to the atmosphere (40%). Smart cities need smart buildings to achieve sustainability goals. Building’s thermal modeling is essential to face the energy efficiency race. In this paper, we show how ICT and data science technologies and techniques can be applied to evaluate the energy efficiency of buildings. In concrete, we apply machine learning techniques to classify buildings based on their energy efficiency. Particularly, our focus is on single-family buildings in residential areas. Along this paper, we demonstrate the capabilities of machine learning techniques to classify buildings depending on their energy efficiency. Moreover, we analyze and compare the performance of different classifiers. Furthermore, we introduce new parameters which have some impact on the buildings thermal modeling, especially those concerning the environment where the building is located. We also make an insight on ICT and remark the growing relevance in data acquisition and monitoring of relevant parameters by using wireless sensor networks. It is worthy to remark the need for an appropriate and reliable dataset to achieve the best results. Moreover, we demonstrate that reliable classification is feasible with a few featured parameters.

ACS Style

César Benavente-Peces; Nisrine Ibadah. Buildings Energy Efficiency Analysis and Classification Using Various Machine Learning Technique Classifiers. Energies 2020, 13, 3497 .

AMA Style

César Benavente-Peces, Nisrine Ibadah. Buildings Energy Efficiency Analysis and Classification Using Various Machine Learning Technique Classifiers. Energies. 2020; 13 (13):3497.

Chicago/Turabian Style

César Benavente-Peces; Nisrine Ibadah. 2020. "Buildings Energy Efficiency Analysis and Classification Using Various Machine Learning Technique Classifiers." Energies 13, no. 13: 3497.

Review
Published: 01 July 2020 in Smart Cities
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Current terrestrial mobile communications networks can’t provide worldwide coverage. Satellite communications are expensive, and terminals are large and heavy. Worldwide mobile coverage requires the use of satellites providing an appropriate QoS, including polar regions. The analysis of the potential satellite constellations demonstrates that LEO one is the best solution. A new generation of low cost, small size, lightweight and global mobile coverage LEO satellites is emerging. The main limitation of the terminals is the antenna size factor, and innovative antennas must be developed to meet this goal. This paper investigates the technologies and techniques for designing and developing antennas aimed at LEO satellite communications in Smart Cities and beyond, which are especially beneficial for mobile communications in areas without 4G/5G coverage. The paper focuses on the terrestrial segment and future mobile devices, remarking the design constraints. In this scenario, the paper reviews the most relevant technologies and techniques used to design suitable antennas. The investigation analyses the state-of-the-art and most recent advances in the design of antennas operating in the Ku-band. The main contribution of the authors is a novel antenna design approach based on SIW technology. The antenna features are compared with other approaches, highlighting the benefits, advantages and drawbacks. As a conclusion, the proposed antenna demonstrates to be a good solution to meet the design constraints for such an application: light, low cost, small size factor.

ACS Style

César Benavente-Peces; Iván Herrero-Sebastián. Worldwide Coverage Mobile Systems for Supra-Smart Cities Communications: Featured Antennas and Design. Smart Cities 2020, 3, 556 -584.

AMA Style

César Benavente-Peces, Iván Herrero-Sebastián. Worldwide Coverage Mobile Systems for Supra-Smart Cities Communications: Featured Antennas and Design. Smart Cities. 2020; 3 (3):556-584.

Chicago/Turabian Style

César Benavente-Peces; Iván Herrero-Sebastián. 2020. "Worldwide Coverage Mobile Systems for Supra-Smart Cities Communications: Featured Antennas and Design." Smart Cities 3, no. 3: 556-584.

Review
Published: 19 November 2019 in Energies
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Energy efficiency is one of the most relevant issues that the scientific community, and society in general, must face in the next years. Furthermore, higher energy efficiencies will contribute to worldwide sustainability. Buildings are responsible for 40% of the overall consumed energy. Smart Grids and Smart Buildings are playing an essential role in the definition of the next generation of sustainable Smart Cities. The main goal is reducing the impact of energy consumption on the environment as much as possible. This paper focuses on information communication technologies (ICTs) and techniques, their key characteristics and contribution to obtain higher energy efficiencies in smart buildings. Given that electrical energy is the most used, the investigation mainly centres on this energy. This paper also pays attention to green energies and energy harvesting due to their contribution to energy efficiency by providing additional clean energy. The main contribution of this investigation is pointing out the most relevant existing and emerging ICT technologies and techniques which can be used to optimize the energy efficiency of Smart Buildings. The research puts special attention on available, novel and emerging sensors, communication technologies and standards, intelligence techniques and algorithms, green energies and energy harvesting. All of them enable high-performance intelligent systems to optimize energy consumption and occupants’ comfort. Furthermore, it remarks on the most suitable technologies and techniques, their main features and their applications in Smart Buildings.

ACS Style

César Benavente-Peces. On the Energy Efficiency in the Next Generation of Smart Buildings—Supporting Technologies and Techniques. Energies 2019, 12, 4399 .

AMA Style

César Benavente-Peces. On the Energy Efficiency in the Next Generation of Smart Buildings—Supporting Technologies and Techniques. Energies. 2019; 12 (22):4399.

Chicago/Turabian Style

César Benavente-Peces. 2019. "On the Energy Efficiency in the Next Generation of Smart Buildings—Supporting Technologies and Techniques." Energies 12, no. 22: 4399.

Conference paper
Published: 11 September 2019 in Communications in Computer and Information Science
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The applications aimed at monitoring and controlling smart homes and buildings, health, industrial environments, traffic, energy consumption, resources, and so on, are being increasingly deployed due to the advantages they provide, increasing efficiency and decreasing costs. In this context Wireless Sensor Networks (WSN) have become a leading solution providing the appropriate mean to get and collect data and deliver it for their processing. Sensor nodes in a WSN have resource constraints, presenting low processing power and, in some cases, restrictions in power consumption. Resources availability constraints force researchers and engineers to develop proper Operating Systems (OS) aimed at low-power wireless devices, and one of the most important and in active use is the TinyOS. This paper describes an experimental analysis and evaluation which investigates relevant features and evaluates the performance (throughput, network delay, success rate, and energy consumption) of WSN under the constraint of using the low-power-consumption-aimed chosen operating system in an harsh outdoor industrial environment for with two different protocols: Active Message (AM) layer protocol and the fully 802.15.4 compliant protocol stack TKN15.4. Based on the results we conclude that TKN15.4 is better in energy consumption and success rate. On the other hand, AM protocol allows running multiple services using the same radio, but at the cost of an excessive energy consumption.

ACS Style

Diego V. Queiroz; Cesar Benavente-Peces; Ruan D. Gomes. TinyOS-Based WSN Performance: Default Active Message Layer vs. TKN15.4. Communications in Computer and Information Science 2019, 1 -22.

AMA Style

Diego V. Queiroz, Cesar Benavente-Peces, Ruan D. Gomes. TinyOS-Based WSN Performance: Default Active Message Layer vs. TKN15.4. Communications in Computer and Information Science. 2019; ():1-22.

Chicago/Turabian Style

Diego V. Queiroz; Cesar Benavente-Peces; Ruan D. Gomes. 2019. "TinyOS-Based WSN Performance: Default Active Message Layer vs. TKN15.4." Communications in Computer and Information Science , no. : 1-22.

Original research
Published: 02 July 2019 in Journal of Ambient Intelligence and Humanized Computing
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Mobility modeling is one of the most influential pillars in improving the performance of wireless networks. Understanding mobility features is relevant for the design and analysis of proper motion schemes for any network. Up to now, a variety of entity mobility models have been suggested which do not take into account all the characteristics of real-life movements (time, space, environment). In order to obtain an improved model that overcomes such limitations, in this paper a new hybrid synthetic entity mobility model is proposed, called the Maze mobility model (MzMM). It takes into consideration the timeline history, spatial dependencies, and geographical restrictions as well. At the same time, it respects the laws of motion to reflect actual scenarios using a flexible discovery mechanism, where it permits nodes arriving at predefined destinations following the most appropriate trajectories in the presence of several obstacles. This approach allows mobile nodes to move correctly even in the presence of multiple mobility constraints. The significance of this research is that the new approach considers a realistic combination of parameters to achieve a flexible and robust mobility model that can be applied for autonomous or human mobility, even in complex environments to provide optimized performances for networks, as demonstrated by its high performance results.

ACS Style

Nisrine Ibadah; Mohammed Rziza; Khalid Minaoui; Mohammed Oumsis; Cesar Benavente-Peces. Flexible synthetic mobility modeling to discover trajectories for complex areas of mobile wireless networks. Journal of Ambient Intelligence and Humanized Computing 2019, 1 -14.

AMA Style

Nisrine Ibadah, Mohammed Rziza, Khalid Minaoui, Mohammed Oumsis, Cesar Benavente-Peces. Flexible synthetic mobility modeling to discover trajectories for complex areas of mobile wireless networks. Journal of Ambient Intelligence and Humanized Computing. 2019; ():1-14.

Chicago/Turabian Style

Nisrine Ibadah; Mohammed Rziza; Khalid Minaoui; Mohammed Oumsis; Cesar Benavente-Peces. 2019. "Flexible synthetic mobility modeling to discover trajectories for complex areas of mobile wireless networks." Journal of Ambient Intelligence and Humanized Computing , no. : 1-14.

Journal article
Published: 04 February 2019 in Journal of Network and Computer Applications
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This paper proposes a novel protocol for Industrial Wireless Sensor Networks (IWSN), which is called Adaptive and Beacon-based Multi-Channel Protocol (ABMP), and combines multi-channel communication, real-time link quality estimation, and dynamic channel allocation, to deal with the problems that affect the link quality in industrial environments. A hybrid channel diversity mechanism is employed, in which the beacon frames are transmitted using channel hopping, and the unicast data packets are transmitted using channel adaptation. The network dynamically allocates the channels to deal with temporal and spatial variations in the channel quality. Referring to ABMP, the end-nodes do not need to receive all the beacons to maintain the communication. As demonstrated in this paper, the proposed approach makes the network more robust against problems related to the beacon reception. The ABMP has been compared to the protocols TSCH, and CSMA/CA for networks with the star and the tree topologies, using theoretical and simulation studies, with a realistic channel model for the IWSN. The results indicate that the proposed protocol presents a better performance in comparison to the MAC protocols defined by the new standards for IWSN, in terms of packet delivery rate, delay, and determinism.

ACS Style

Ruan Delgado Gomes; Cesar Benavente-Peces; Iguatemi E. Fonseca; Marcelo S. Alencar. Adaptive and Beacon-based multi-channel protocol for Industrial Wireless Sensor Networks. Journal of Network and Computer Applications 2019, 132, 22 -39.

AMA Style

Ruan Delgado Gomes, Cesar Benavente-Peces, Iguatemi E. Fonseca, Marcelo S. Alencar. Adaptive and Beacon-based multi-channel protocol for Industrial Wireless Sensor Networks. Journal of Network and Computer Applications. 2019; 132 ():22-39.

Chicago/Turabian Style

Ruan Delgado Gomes; Cesar Benavente-Peces; Iguatemi E. Fonseca; Marcelo S. Alencar. 2019. "Adaptive and Beacon-based multi-channel protocol for Industrial Wireless Sensor Networks." Journal of Network and Computer Applications 132, no. : 22-39.

Conference paper
Published: 18 January 2019 in Communications in Computer and Information Science
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In the current globalisation framework where electronic transactions and data sharing is a common activity, cyber-risks analysis, protection and avoidance have become a key aspect which must be book and prioritised on the business agenda in companies. Nevertheless, this issue is difficult to analyse given the dimension of the problem and the company units and individuals and infrastructures which are involved. In consequence, cyber-insurance is considered as the appropriate mean to avoid financial losses caused by information technologies infrastructures and procedures security breaches. This paper analyses and describes how costumers and their cyber-risks should be assessed by an insurance company in order to establish the company status and implement the required actions to fix the issue. This work describes the three phases required to complete a full cyber-risk assessment and the risks evaluation. Furthermore, the paper highlights the resources that the insurer should keep in its road-map to implement the risk assessment and, thus, to determine the company insurability, and the requirements to reach such condition. After the risk analysis completion at the customer’s premises, it must be evaluated subsequently at all levels. Among other factors, this evaluation is based on 63 question criteria. In the risk assessment criteria weights are not uniformly distributed and weighting is applied according to the relevance. In particular, criteria that should receive a special attention are referred to as showstoppers.

ACS Style

David Nicolas Bartolini; Cesar Benavente-Peces; Andreas Ahrens. Using Risk Assessments to Assess Insurability in the Context of Cyber Insurance. Communications in Computer and Information Science 2019, 337 -345.

AMA Style

David Nicolas Bartolini, Cesar Benavente-Peces, Andreas Ahrens. Using Risk Assessments to Assess Insurability in the Context of Cyber Insurance. Communications in Computer and Information Science. 2019; ():337-345.

Chicago/Turabian Style

David Nicolas Bartolini; Cesar Benavente-Peces; Andreas Ahrens. 2019. "Using Risk Assessments to Assess Insurability in the Context of Cyber Insurance." Communications in Computer and Information Science , no. : 337-345.

Conference paper
Published: 01 January 2019 in Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems
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ACS Style

Diego Queiroz; Ruan Gomes; Cesar Benavente-Peces; Iguatemi Fonseca; Marcelo Alencar. Join Multiple Channels and IEEE 802.15.4e TSCH Protocol Use Effects on WSN Performance and Energy Efficiency. Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems 2019, 83 -90.

AMA Style

Diego Queiroz, Ruan Gomes, Cesar Benavente-Peces, Iguatemi Fonseca, Marcelo Alencar. Join Multiple Channels and IEEE 802.15.4e TSCH Protocol Use Effects on WSN Performance and Energy Efficiency. Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems. 2019; ():83-90.

Chicago/Turabian Style

Diego Queiroz; Ruan Gomes; Cesar Benavente-Peces; Iguatemi Fonseca; Marcelo Alencar. 2019. "Join Multiple Channels and IEEE 802.15.4e TSCH Protocol Use Effects on WSN Performance and Energy Efficiency." Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems , no. : 83-90.

Conference paper
Published: 01 January 2019 in Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems
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ACS Style

Nisrine Ibadah; Khalid Minaoui; Mohammed Rziza; Mohammed Oumsis; Cesar Benavente-Peces. Flaws Validation of Maze Mobility Model using Spatial-temporal Synthetic Mobility Metrics. Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems 2019, 106 -112.

AMA Style

Nisrine Ibadah, Khalid Minaoui, Mohammed Rziza, Mohammed Oumsis, Cesar Benavente-Peces. Flaws Validation of Maze Mobility Model using Spatial-temporal Synthetic Mobility Metrics. Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems. 2019; ():106-112.

Chicago/Turabian Style

Nisrine Ibadah; Khalid Minaoui; Mohammed Rziza; Mohammed Oumsis; Cesar Benavente-Peces. 2019. "Flaws Validation of Maze Mobility Model using Spatial-temporal Synthetic Mobility Metrics." Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems , no. : 106-112.

Journal article
Published: 01 January 2019 in Progress In Electromagnetics Research Letters
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ACS Style

Iván Herrero-Sebastián; Cesar Benavente-Peces. DUAL-BAND CIRCULAR POLARIZED SLOT ARRAY ANTENNA IN SUBSTRATE INTEGRATED WAVEGUIDE USING TWO PROPAGATION MODES FOR COMMUNICATION SATELLITES TRANSCEIVERS. Progress In Electromagnetics Research Letters 2019, 86, 137 -143.

AMA Style

Iván Herrero-Sebastián, Cesar Benavente-Peces. DUAL-BAND CIRCULAR POLARIZED SLOT ARRAY ANTENNA IN SUBSTRATE INTEGRATED WAVEGUIDE USING TWO PROPAGATION MODES FOR COMMUNICATION SATELLITES TRANSCEIVERS. Progress In Electromagnetics Research Letters. 2019; 86 ():137-143.

Chicago/Turabian Style

Iván Herrero-Sebastián; Cesar Benavente-Peces. 2019. "DUAL-BAND CIRCULAR POLARIZED SLOT ARRAY ANTENNA IN SUBSTRATE INTEGRATED WAVEGUIDE USING TWO PROPAGATION MODES FOR COMMUNICATION SATELLITES TRANSCEIVERS." Progress In Electromagnetics Research Letters 86, no. : 137-143.

Conference paper
Published: 01 January 2019 in Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems
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ACS Style

Olaf Grote; Andreas Ahrens; Cesar Benavente-Peces. Paradigm of Post-quantum Cryptography and Crypto-agility: Strategy Approach of Quantum-safe Techniques. Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems 2019, 91 -98.

AMA Style

Olaf Grote, Andreas Ahrens, Cesar Benavente-Peces. Paradigm of Post-quantum Cryptography and Crypto-agility: Strategy Approach of Quantum-safe Techniques. Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems. 2019; ():91-98.

Chicago/Turabian Style

Olaf Grote; Andreas Ahrens; Cesar Benavente-Peces. 2019. "Paradigm of Post-quantum Cryptography and Crypto-agility: Strategy Approach of Quantum-safe Techniques." Proceedings of the 9th International Conference on Pervasive and Embedded Computing and Communication Systems , no. : 91-98.

Journal article
Published: 16 December 2018 in Computers
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This paper analyzes the most relevant spatial-temporal stochastic properties of benchmark synthetic mobility models. Each pattern suffers from various mobility flaws, as will be shown by the models’ validation. A set of metrics is used to describe mobility features, such as the speed decay problem, the density wave phenomenon, the spatial node distribution, and the average neighbor percentage. These metrics have already been validated for the random waypoint mobility model (RWPMM), but they have not yet been verified for other mobility patterns that are most frequently used. For this reason, this investigation attempts to deeply validate those metrics for other mobility models, namely the Manhattan Grid mobility, the Reference Point Group mobility, the Nomadic Community mobility, the Self-Similar Least Action Walk, and SMOOTH models. Moreover, we propose a novel mobility metric named the “node neighbors range”. The relevance of this new metric is that it proves at once the set of outcomes of previous metrics. It offers a global view of the overall range of mobile neighbors during the experimental time. The current research aims to more rigorously understand mobility features in order to conduct a precise assessment of each mobility flaw, given that this fact further impacts the performance of the whole network. These validations aim to summarize several parameters into 18,126 different scenarios with an average of 486 validated files. An exhaustive analysis with details like those found in this paper leads to a good understanding of the accurate behaviors of mobility models by displaying the ability of every pattern to deal with certain topology changes, as well as to ensure network performances. Validation results confirm the effectiveness and robustness of our novel metric.

ACS Style

Nisrine Ibadah; Khalid Minaoui; Mohammed Rziza; Mohammed Oumsis; César Benavente-Peces. Deep Validation of Spatial Temporal Features of Synthetic Mobility Models. Computers 2018, 7, 71 .

AMA Style

Nisrine Ibadah, Khalid Minaoui, Mohammed Rziza, Mohammed Oumsis, César Benavente-Peces. Deep Validation of Spatial Temporal Features of Synthetic Mobility Models. Computers. 2018; 7 (4):71.

Chicago/Turabian Style

Nisrine Ibadah; Khalid Minaoui; Mohammed Rziza; Mohammed Oumsis; César Benavente-Peces. 2018. "Deep Validation of Spatial Temporal Features of Synthetic Mobility Models." Computers 7, no. 4: 71.

Journal article
Published: 09 August 2018 in Future Internet
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Mobility trace techniques makes possible drawing the behaviors of real-life movement which shape wireless networks mobility whereabouts. In our investigation, several trace mobility models have been collected after the devices’ deployment. The main issue of this classical procedure is that it produces uncompleted records due to several unpredictable problems occurring during the deployment phase. In this paper, we propose a new procedure aimed at collecting traces while deployment phase failures are avoided, which improves the reliability of data. The introduced procedure makes possible the complete generation of traces with a minimum amount of damage without the need to recover mobile devices or lose them, as it is the case in previous mobility traces techniques. Based on detecting and correcting all accidental issues in real time, the proposed trace scanning offers a set of relevant information about the vehicle status which was collected during seven months. Furthermore, the proposed procedure could be applied to generate vehicular traces. Likewise, it is suitable to record/generate human and animal traces. The research outcomes demonstrate the effectiveness and robustness of the smart collection algorithm based on the proposed trace mobility model.

ACS Style

Nisrine Ibadah; Khalid Minaoui; Mohammed Rziza; Mohammed Oumsis; César Benavente-Peces. Smart Collection of Real-Time Vehicular Mobility Traces. Future Internet 2018, 10, 78 .

AMA Style

Nisrine Ibadah, Khalid Minaoui, Mohammed Rziza, Mohammed Oumsis, César Benavente-Peces. Smart Collection of Real-Time Vehicular Mobility Traces. Future Internet. 2018; 10 (8):78.

Chicago/Turabian Style

Nisrine Ibadah; Khalid Minaoui; Mohammed Rziza; Mohammed Oumsis; César Benavente-Peces. 2018. "Smart Collection of Real-Time Vehicular Mobility Traces." Future Internet 10, no. 8: 78.

Conference paper
Published: 01 January 2018 in Proceedings of the 14th ACM International Symposium on QoS and Security for Wireless and Mobile Networks - Q2SWinet'18
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ACS Style

Diego V. Queiroz; Ruan D. Gomes; Cesar Benavente-Peces; Iguatemi E. Fonseca; Marcelo S. Alencar. Evaluation of Channels Blacklists in TSCH Networks with Star and Tree Topologies. Proceedings of the 14th ACM International Symposium on QoS and Security for Wireless and Mobile Networks - Q2SWinet'18 2018, 116 -123.

AMA Style

Diego V. Queiroz, Ruan D. Gomes, Cesar Benavente-Peces, Iguatemi E. Fonseca, Marcelo S. Alencar. Evaluation of Channels Blacklists in TSCH Networks with Star and Tree Topologies. Proceedings of the 14th ACM International Symposium on QoS and Security for Wireless and Mobile Networks - Q2SWinet'18. 2018; ():116-123.

Chicago/Turabian Style

Diego V. Queiroz; Ruan D. Gomes; Cesar Benavente-Peces; Iguatemi E. Fonseca; Marcelo S. Alencar. 2018. "Evaluation of Channels Blacklists in TSCH Networks with Star and Tree Topologies." Proceedings of the 14th ACM International Symposium on QoS and Security for Wireless and Mobile Networks - Q2SWinet'18 , no. : 116-123.

Conference paper
Published: 01 January 2018 in Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems
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Nowadays, cyber-risks are an important aspect on the business agenda in every company, but they are difficult to analyse. Cyber-insurance is considered as appropriate means to absorb financial losses caused by computer security breaches. Cyber security management in a company requires the inter-action of all corporate divisions. To ensure security of wide level at an enterprise, decision-makers must take the necessary measures to avert the dangers of cyber-attacks or, following an attack, take the right steps to manage a damage at the lowest possible level. Within the scope of insurability assessments, Risk Engineers must analyse these measures to perform a cyber insurance acceptance test.

ACS Style

David Nicolas Bartolini; César Benavente-Peces; Andreas Ahrens. Cyber Risk Assessment for Insurability Verification. Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems 2018, 93 -97.

AMA Style

David Nicolas Bartolini, César Benavente-Peces, Andreas Ahrens. Cyber Risk Assessment for Insurability Verification. Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems. 2018; ():93-97.

Chicago/Turabian Style

David Nicolas Bartolini; César Benavente-Peces; Andreas Ahrens. 2018. "Cyber Risk Assessment for Insurability Verification." Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems , no. : 93-97.

Conference paper
Published: 01 January 2018 in Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems
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ACS Style

David Nicolas Bartolini; César Benavente-Peces; Andreas Ahrens. Cyber Risk Assessment for Insurability Verification. Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems 2018, 1 .

AMA Style

David Nicolas Bartolini, César Benavente-Peces, Andreas Ahrens. Cyber Risk Assessment for Insurability Verification. Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems. 2018; ():1.

Chicago/Turabian Style

David Nicolas Bartolini; César Benavente-Peces; Andreas Ahrens. 2018. "Cyber Risk Assessment for Insurability Verification." Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems , no. : 1.

Journal article
Published: 01 November 2017 in Journal of Network and Computer Applications
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ACS Style

Diego V. Queiroz; Marcelo S. Alencar; Ruan Delgado Gomes; Iguatemi E. Fonseca; Cesar Benavente-Peces. Survey and systematic mapping of industrial Wireless Sensor Networks. Journal of Network and Computer Applications 2017, 97, 96 -125.

AMA Style

Diego V. Queiroz, Marcelo S. Alencar, Ruan Delgado Gomes, Iguatemi E. Fonseca, Cesar Benavente-Peces. Survey and systematic mapping of industrial Wireless Sensor Networks. Journal of Network and Computer Applications. 2017; 97 ():96-125.

Chicago/Turabian Style

Diego V. Queiroz; Marcelo S. Alencar; Ruan Delgado Gomes; Iguatemi E. Fonseca; Cesar Benavente-Peces. 2017. "Survey and systematic mapping of industrial Wireless Sensor Networks." Journal of Network and Computer Applications 97, no. : 96-125.

Conference paper
Published: 01 January 2017 in Proceedings of the 6th International Conference on Sensor Networks
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ACS Style

Diego V. Queiroz; Ruan D. Gomes; Cesar Benavente-Peces. Performance Evaluation of Default Active Message Layer (AM) and TKN15.4 Protocol Stack in TinyOS 2.1.2. Proceedings of the 6th International Conference on Sensor Networks 2017, 69 -79.

AMA Style

Diego V. Queiroz, Ruan D. Gomes, Cesar Benavente-Peces. Performance Evaluation of Default Active Message Layer (AM) and TKN15.4 Protocol Stack in TinyOS 2.1.2. Proceedings of the 6th International Conference on Sensor Networks. 2017; ():69-79.

Chicago/Turabian Style

Diego V. Queiroz; Ruan D. Gomes; Cesar Benavente-Peces. 2017. "Performance Evaluation of Default Active Message Layer (AM) and TKN15.4 Protocol Stack in TinyOS 2.1.2." Proceedings of the 6th International Conference on Sensor Networks , no. : 69-79.

Conference paper
Published: 01 January 2017 in Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems
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ACS Style

David Nicolas Bartolini; César Benavente-Peces; Andreas Ahrens. Risk Assessment and Verification of Insurability. Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems 2017, 105 -108.

AMA Style

David Nicolas Bartolini, César Benavente-Peces, Andreas Ahrens. Risk Assessment and Verification of Insurability. Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems. 2017; ():105-108.

Chicago/Turabian Style

David Nicolas Bartolini; César Benavente-Peces; Andreas Ahrens. 2017. "Risk Assessment and Verification of Insurability." Proceedings of the 8th International Joint Conference on Pervasive and Embedded Computing and Communication Systems , no. : 105-108.