@article {11515935620160506, title = {Achieving QoS in Virtual MIMO systems: a satisfaction equilibrium analysis.}, journal = {EURASIP Journal on Wireless Communications \& Networking}, volume = {2016}, number = {1}, year = {2016}, pages = {1 - 13}, abstract = {This paper presents a game theoretic framework to analyze a cellular-WLAN heterogeneous network from a virtual multiple-input multiple-output (VMIMO) perspective. Namely, we restrict to the uplink case and consider a non-cooperative game where each user seeks to meet some quality of service (QoS). Moreover, mobile users are allowed to re-inject, through their WLAN interfaces, a part of their throughput in the induced game. Thus, the interaction among users defines a distributed VMIMO with a possibly throughput exchange. This mechanism will help all users to meet their respective QoS expressed by the perceived average throughput. The average throughput is considered to be the utility function used in this framework. Now, each mobile user experiences a certain throughput composed of two parts: (1) the throughput received from cellular subsystem and (2) the throughput received from WLAN subsystem. Naturally, we use the concept of satisfaction equilibrium to predict the behavior of the ne}, keywords = {Cellular/WLAN heterogeneous network, Equilibrium {\textendash} Research, Game theory, Game theory {\textendash} Research, MIMO systems {\textendash} Research, Quality of service, Quality of service {\textendash} Research, Satisfaction equilibrium, Virtual multiple input multiple output, Wireless LANs {\textendash} Research}, issn = {16871472}, url = {http://search.ebscohost.com/login.aspx?direct=true\&db=iih\&AN=115159356\&site=ehost-live}, author = {Bennani, Hassan and Sabir, Essaid and Kobbane, Abdellatif and Ben-Othman, Jalel and El-Koutbi, Mohamed} } @article { ISI:000375569000001, title = {Achieving QoS in Virtual MIMO systems: a satisfaction equilibrium analysis}, journal = {EURASIP JOURNAL ON WIRELESS COMMUNICATIONS AND NETWORKING}, year = {2016}, month = {MAY 6}, abstract = {This paper presents a game theoretic framework to analyze a cellular-WLAN heterogeneous network from a virtual multiple-input multiple-output (VMIMO) perspective. Namely, we restrict to the uplink case and consider a non-cooperative game where each user seeks to meet some quality of service (QoS). Moreover, mobile users are allowed to re-inject, through their WLAN interfaces, a part of their throughput in the induced game. Thus, the interaction among users defines a distributed VMIMO with a possibly throughput exchange. This mechanism will help all users to meet their respective QoS expressed by the perceived average throughput. The average throughput is considered to be the utility function used in this framework. Now, each mobile user experiences a certain throughput composed of two parts: (1) the throughput received from cellular subsystem and (2) the throughput received from WLAN subsystem. Naturally, we use the concept of satisfaction equilibrium to predict the behavior of the network. Indeed, we provided a sufficient condition for the existence of such an equilibrium. Next, we prove the uniqueness of the equilibrium and compute it explicitly. Afterward, we propose a fully distributed algorithm inspired from the well-known Banach-Picard learning algorithm. Our scheme has many good features facilitating its implementation and usability. Indeed, it accurately converges to the equilibrium (if exists), it is very fast, and it requires no external information. Simulation results validate the algorithm and show its robustness and illustrate numerically the proposed learning scheme for quality-of-service management in such a heterogeneous network.}, issn = {1687-1499}, doi = {10.1186/s13638-016-0612-6}, author = {Bennani, Hassan and Sabir, Essaid and Kobbane, Abdellatif and Ben-Othman, Jalel and El-Koutbi, Mohamed} } @article { ISI:000384105900002, title = {Coalitional game-based behavior analysis for spectrum access in cognitive radios}, journal = {WIRELESS COMMUNICATIONS \& MOBILE COMPUTING}, volume = {16}, number = {14}, year = {2016}, month = {OCT 10}, pages = {1910-1921}, abstract = {The core of cognitive radio paradigm is to introduce cognitive devices able to opportunistically access the licensed radio bands. The coexistence of licensed and unlicensed users prescribes an effective spectrum hole-detection and a non-interfering sharing of those frequencies. Collaborative resource allocation and spectrum information exchange are required but often costly in terms of energy and delay. In this paper, each secondary user (SU) can achieve spectrum sensing and data transmission through a coalitional game-based mechanism. SUs are called upon to report their sensing results to the elected coalition head, which properly decides on the channel state and the transmitter in each time slot according to a proposed algorithm. The goal of this paper is to provide a more holistic view on the spectrum and enhance the cognitive system performance through SUs behavior analysis. We formulate the problem as a coalitional game in partition form with non-transferable utility, and we investigate on the impact of both coalition formation and the combining reports costs. We discuss the Nash Equilibrium solution for our coalitional game and propose a distributed strategic learning algorithm to illustrate a concrete case of coalition formation and the SUs competitive and cooperative behaviors inter-coalitions and intra-coalitions. We show through simulations that cognitive network performances, the energy consumption and transmission delay, improve evidently with the proposed scheme. Copyright (c) 2016 John Wiley \& Sons, Ltd.}, issn = {1530-8669}, doi = {10.1002/wcm.2658}, author = {Belghiti, Imane Daha and Elmachkour, Mouna and Berrada, Ismail and Kobbane, Abdellatif and Ben-Othman, Jalel} } @conference { ISI:000386851600006, title = {A College Admissions Game for Content Caching in Heterogeneous Delay Tolerant Networks}, booktitle = {2016 23RD INTERNATIONAL CONFERENCE ON TELECOMMUNICATIONS (ICT)}, year = {2016}, note = {23rd International Conference on Telecommunications (ICT), Thessaloniki, GREECE, MAY 16-18, 2016}, abstract = {In recent years, Delay Tolerant Networks (DTNs) have been successfully presented as a possible extension of the Internet architecture in order to provide communication support to existing networks. However, these networks have a major issue which is the coordination among relays. In this paper, we propose a novel mechanism source-relay association approach for heterogeneous DTNs that exploits the information about the history and predictability of the relay nodes while also we focus on the source packet dissemination to a destination using tow-hop relaying scheme, considering network resource constraints: the relay buffer, the packet life time, and the energy consumption according to the mobile technologies. We formulate the problem as a college admissions game in which a number of colleges, i.e., data source seek to recruit a number of students, i.e., relays nodes. In this game, the data source and relays nodes rank one another based on preference functions that capture the data sources need to optimize their utilities which are functions of packet success rate and delay. We propose a novel distributed algorithm that leads to a stable matching among data sources and relays nodes. We show that the proposed approach can yields the better performance improvement of the traffic among the source and destination node.}, isbn = {978-1-5090-1990-8}, author = {Oualhaj, Omar Ait and Sabir, Essaid and Kobbane, Abdellatif and Ben-Othman, Jalel and El Koutbi, Mohammed} } @conference { ISI:000381755100026, title = {An Energy-Aware Clustering Approach Based on the K-Means Method forWireless Sensor Networks}, booktitle = {ADVANCES IN UBIQUITOUS NETWORKING}, series = {Lecture Notes in Electrical Engineering}, volume = {366}, year = {2016}, note = {International Symposium on Ubiquitous Networking (UNet), Casablanca, MOROCCO, SEP 08-10, 2015}, pages = {325-337}, abstract = {This paper describes a new approach to build energy aware clusters for Wireless Sensor Networks (WSN). The algorithm behind is based on the k-means method which is well known as a clustering technique and widely used in several fields of engineering and research. K-means clustering tends to find clusters of comparable spatial extent (density clustering). We try to enhance the clustering process by selecting nodes as clusters that are centric and have a high level of energy. This will give the same QoS results as given by the K-means approach with a reduction of energy consumption and a prolongation of the lifetime of the sensor network. For the simulation purposes, we have implemented our approach on the OLSR routing protocol which has been selected by our research team as a test bed routing protocol. We have compared our new approach (OLSR-Kmeans-Energy) with a previous work we developed and where we use a Max-Min heuristic (OLSR-MaxMin-Energy) to enhance QoS parameters and the lifetime of the WSN. Our new approach seems to give better results than the MaxMin approach.}, isbn = {978-981-287-990-5; 978-981-287-989-9}, issn = {1876-1100}, doi = {10.1007/978-981-287-990-5\_26}, author = {El Mezouary, Ridouane and Choukri, Ali and Kobbane, Abdellatif and El Koutbi, Mohammed}, editor = {Sabir, E and Medromi, H and Sadik, M} } @conference { ISI:000388603102099, title = {Exploiting Multi-homing in Hyper Dense LTE Small-Cells Deployments}, booktitle = {2016 IEEE WIRELESS COMMUNICATIONS AND NETWORKING CONFERENCE}, series = {IEEE Wireless Communications and Networking Conference}, year = {2016}, note = {IEEE Wireless Communications and Networking Conference (WCNC), Doha, QATAR, APR 03-07, 2016}, publisher = {IEEE; IEEE Commun Soc}, organization = {IEEE; IEEE Commun Soc}, abstract = {It is expected that in two-tier LTE heterogeneous networks, an extensive deployment of small cell networks (SCNs) will take place in the near future, especially in dense urban zones; hence a hyper density of SCNs randomly distributed within macro cell networks (MCNs) will emerge with many overlapping zones of neighboring SCNs. Therefore, the problems of interferences in co-channel deployment will be more complicated and then the overall throughput of downlink will substantially decrease. In order to mitigate the effect of interferences in a hyper density of SCNs scenarios, a solution based on a fully distributed algorithm for sharing time access to SCNs and multi-homing capabilities of macro cellular users is proposed to improve the overall data rate of downlink and at the same time to satisfy QoS throughput requirements of macro and home cellular users. Our tentative scheme will also reduce the signaling overhead due to the absence of coordination among small base stations (SBSs) and macro base station (MBS). Results validate our solution and show the improvement attained in a hyper density of SCNs within MCNs compared to open, closed and shared time access mechanisms based on single network selection.}, isbn = {978-1-4673-9814-5}, issn = {1525-3511}, author = {Walid, Abdellaziz and Sabir, Essaid and Kobbane, Abdellatif and Taleb, Tarik and El Koutbi, Mohammed} } @conference { ISI:000390993202059, title = {A Game Theoretic Approach for an Hybrid Overlay-Underlay Spectrum Access Mode}, booktitle = {2016 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC)}, series = {IEEE International Conference on Communications}, year = {2016}, note = {IEEE International Conference on Communications (ICC), Kuala Lumpur, MALAYSIA, MAY 22-27, 2016}, publisher = {IEEE}, organization = {IEEE}, abstract = {Cognitive radio is emerging as a promising technique to improve the utilization of the radio frequency spectrum in wireless networks. In this paper, we propose a hybrid CR (cognitive radio) system where underlay and overlay CR approaches are combined under SINR (Signal to Interference plus Noise Ratio) constraints. This new access type allows to optimize the spectrum sensing time with throughput improvement. The goal of this paper is to provide a new access mode in order to enhance the cognitive system performance while reducing the power spent for detecting the presence of the primary user and the spectrum holes. We consider the problem of spectrum sharing among primary (or {\textquoteleft}{\textquoteleft}licensed{{\textquoteright}{\textquoteright}}) users (PUs) and secondary (or {\textquoteleft}{\textquoteleft}unlicensed{{\textquoteright}{\textquoteright}}) users (SUs). In this scheme, the spectrum allocation problem is modeled as a non cooperative game, with each CR user acting as a player. Nash equilibrium is considered as the solution of this game.}, isbn = {978-1-4799-6664-6}, issn = {1550-3607}, author = {Gmira, Sara and Kobbane, Abdellatif and Sabir, Essaid and Ben-Othman, Jalel} } @article { ISI:000379694400006, title = {Group vertical handoff management in heterogeneous networks}, journal = {WIRELESS COMMUNICATIONS \& MOBILE COMPUTING}, volume = {16}, number = {10}, year = {2016}, month = {JUL}, pages = {1256-1270}, abstract = {Traditional vertical handover schemes postulate that vertical handovers (VHOs) of users come on an individual basis. This enables users to know previously the decision already made by other users, and then the choice will be accordingly made. However, in case of group mobility, almost all VHO decisions of all users, in a given group (e.g., passengers on board a bus or a train equipped with smart phones or laptops), will be made at the same time. This concept is called group vertical handover (GVHO). When all VHO decisions of a large number of users are made at the same time, the system performance may degrade and network congestion may occur. In this paper, we propose two fully decentralized algorithms for network access selection, and that is based on the concept of congestion game to resolve the problem of network congestion in group mobility scenarios. Two learning algorithms, dubbed Sastry Algorithm and Q-Learning Algorithm, are envisioned. Each one of these algorithms helps mobile users in a group to reach the nash equilibrium in a stochastic environment. The nash equilibrium represents a fair and efficient solution according to which each mobile user is connected to a single network and has no intention to change his decision to improve his throughput. This shall help resolve the problem of network congestion caused by GVHO. Simulation results validate the proposed algorithms and show their efficiency in achieving convergence, even at a slower pace. To achieve fast convergence, we also propose a heuristic method inspired from simulated annealing and incorporated in a hybrid learning algorithm to speed up convergence time and maintain efficient solutions. The simulation results also show the adaptability of our hybrid algorithm with decreasing step size-simulated annealing (DSS-SA) for high mobility group scenario. Copyright (c) 2015 John Wiley \& Sons, Ltd.}, issn = {1530-8669}, doi = {10.1002/wcm.2599}, author = {Walid, Abdellaziz and Kobbane, Abdellatif and Mabrouk, Abdelfettah and Sabir, Essaid and Taleb, Tarik and El Koutbi, Mohammed} } @conference { ISI:000391420400024, title = {Matching Game for Green Uplink in Hyper Dense LTE HeTNets}, booktitle = {2016 INTERNATIONAL CONFERENCE ON WIRELESS NETWORKS AND MOBILE COMMUNICATIONS (WINCOM)}, year = {2016}, note = {International Conference on Wireless Networks and Mobile Communications (WINCOM), Fez, MOROCCO, OCT 26-29, 2016}, pages = {P133-P139}, publisher = {Univ Sidi Mohamed Ben Abdellah; FST FES; MobiTic; IEEE; IEEE Commun Soc; FSDM; ENSIAS; FST Mohammedia; CLusMed; TICSM Res Pole; Master Tec; CNRST; EBSA Fez; Mobit Assoc}, organization = {Univ Sidi Mohamed Ben Abdellah; FST FES; MobiTic; IEEE; IEEE Commun Soc; FSDM; ENSIAS; FST Mohammedia; CLusMed; TICSM Res Pole; Master Tec; CNRST; EBSA Fez; Mobit Assoc}, abstract = {In this paper, we aim to improve the energy efficiency of cellular users located in hyper-dense co-channel deployments of LTE small cell Networks (SCNs), randomly distributed within LTE macro cell networks (MCNs). Avoiding the severe cross-tier interferences at the small base stations (SBSs) levels caused by the uplink transmissions between the macro indoor users (which are inside the SBS coverage area) and the macro base station (MBS), ensuring load balancing, and improving energy efficiency are critical technical challenges in hyper-dense co-channel LTE SCNs deployments. As a solution, we formulate our problem as a matching game, then we propose the deferred acceptance algorithm to compute the optimal stable matching consisting of assigning each macro indoor user to the most suitable SBS and vice versa. Simulation results validate our solution, and show how it can effectively improve the energy efficiency of cellular users in hyper-dense LTE HetNets compared to the default Max-SINR association scheme.}, isbn = {978-1-5090-3837-4}, author = {Amine, Mariame and Walid, Abdellaziz and Ait Oualhaj, Omar and Kobbane, Abdellatif}, editor = {ElKamili, M and Berrada, I and Badri, A and Ghennioui, H} } @conference { ISI:000387181100066, title = {New Greedy Forwarding Strategy for UWSNs Geographic Routing Protocols}, booktitle = {2016 INTERNATIONAL WIRELESS COMMUNICATIONS AND MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2016}, note = {12th International Wireless Communications \& Mobile Computing Conference (IWCMC), Paphos, CYPRUS, SEP 05-09, 2016}, pages = {388-393}, publisher = {IEEE; IEEE Cyprus Sect; Frederick Univ}, organization = {IEEE; IEEE Cyprus Sect; Frederick Univ}, abstract = {Recently Underwater wireless Sensor Networks (UWSNs) have been suggested as a powerful technology for many civilian and military applications, such that tactical surveillance. Geographic routing that uses the position information of nodes to route the packet toward a destination is preferable for UWSNs. In this paper, we propose a New Greedy Forwarding (NGF) strategy using splitting mechanism based on Chinese remainder theorem(CRT) for UWSNs. In the approach, source node reduced the number of bits transmitted using the proposed splitting mechanism based on CRT if there are more than two nodes participate in the forwarding of one packet. This strategy distribute the forwarding task between more nodes instead of selecting one node as next-hop, that reduce the energy consumption per node and maintain node communication for a long time. Thus resulting the increase of network life time and decrease the number of isolated/void nodes. We use topology control through depth adjustment to cope with the problem of isolated and void nodes appeared in geographic routing protocols. Simulation results shows that with the anycast greedy forwarding strategy the network life time is about 500 rounds whereas it is about 1000 rounds using the new greedy forwarding strategy, which means the new strategy increase the network life time and increase the network performance in energy saving.}, isbn = {978-1-5090-0304-4}, issn = {2376-6492}, author = {Jouhari, Mohammed and Ibrahimi, Khalil and Benattou, Mohammed and Kobbane, Abdellatif} } @conference { ISI:000389502600045, title = {SNA: Detecting Influencers over Social Networks}, booktitle = {Networked Systems, NETYS 2016}, series = {Lecture Notes in Computer Science}, volume = {9944}, year = {2016}, note = {4th International Conference on Networked Systems (NETYS), Marrakech, MOROCCO, MAY 18-20, 2016}, pages = {388}, isbn = {978-3-319-46140-3; 978-3-319-46139-7}, issn = {0302-9743}, author = {Aghmadi, Ali and Erradi, Mohammed and Kobbane, Abdellatif}, editor = {Abdulla, PA and DelporteGallet, C} } @conference { ISI:000387181100093, title = {Strategic Data Gathering in Wireless Sensor Networks}, booktitle = {2016 INTERNATIONAL WIRELESS COMMUNICATIONS AND MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2016}, note = {12th International Wireless Communications \& Mobile Computing Conference (IWCMC), Paphos, CYPRUS, SEP 05-09, 2016}, pages = {547-552}, publisher = {IEEE; IEEE Cyprus Sect; Frederick Univ}, organization = {IEEE; IEEE Cyprus Sect; Frederick Univ}, abstract = {Prolonging the network lifetime is a challenging problem in wireless sensor networks. Using additional mobile agents able to gather data from static sensor nodes reveals to be one of the convenient solutions in order to conserve static sensor nodes energy. In this paper, we focus on a conflictual situation between two Data Collectors (DCs) tending to gather maximum sensed data and deliver them to a sink node before a required deadline. A non-cooperative game is used to model this behavior and evaluate the performance of the gathering scheme when two DCs are competing with each other to gain more sensed data. Under this scheme, aggressive behavior is discouraged since each data gathering operation incurs sensor nodes energy decrease and data delivery delay increase.}, isbn = {978-1-5090-0304-4}, issn = {2376-6492}, author = {Brinis, Nour and Koulali, Mohamed-Amine and Saidane, Leila Azouz and Minet, Pascale and Kobbane, Abdellatif} } @conference { ISI:000381477900169, title = {A Coalitional-Game-Based Incentive Mechanism for Content Caching in Heterogeneous Delay Tolerant Networks}, booktitle = {2015 INTERNATIONAL WIRELESS COMMUNICATIONS \& MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2015}, note = {11th IEEE International Wireless Communications and Mobile Computing Conference (IEEE IWCMC), Dubrovnik, CROATIA, AUG 24-25, 2015}, pages = {987-992}, publisher = {IEEE; IEEE Croatia Sect; Univ Dubrovnik}, organization = {IEEE; IEEE Croatia Sect; Univ Dubrovnik}, abstract = {In recent years, Delay Tolerant Networks (DTNs) have successfully presented as a possible extension of the Internet architecture in order to provide communication support to existing networks. However, these networks have a major issue which is the coordination among relays. In this work, we study the cooperative transmission for DTNs using coalitional game theory. We design a new incentive mechanism for heterogeneous system to induce coordination among DTN relays. In particular, we focus on the source packet dissemination to a destination using tow-hop relaying scheme, considering networks resource constraints: the relay buffer, the packet life time, and the energy consumption according to the mobile technologies. Rational mobiles are organized into separate coalition structures to meet a trade off between the source reward and the energy conservation. We discus the Nash equilibria for our game and the stable strategy state in which no mobile can get a higher payoff through changing unilaterally its coalition. Then, we use the distributed imitative Boltzmann-Gibbs learning algorithm enabling relays to learn the Nash equilibrium strategy; grand coalition. The improvement of the global system performance is examined, and a comparison between different inter-node collaboration states is presented.}, isbn = {978-1-4799-5344-8}, issn = {2376-6492}, author = {Oualhaj, Omar Ait and Kobbane, Abdellatif and Elmachkour, Mouna and Sabir, Essaid and Ben-Othman, Jalel} } @article { ISI:000351605500008, title = {Data traffic-based analysis of delay and energy consumption in cognitive radio networks with and without resource reservation}, journal = {INTERNATIONAL JOURNAL OF COMMUNICATION SYSTEMS}, volume = {28}, number = {7}, year = {2015}, month = {MAY 10}, pages = {1316-1328}, abstract = {A new opportunistic cross-layer MAC protocol involving channel allocation and packet scheduling for cognitive radio networks is proposed. Cognitive radio allows secondary users (SUs) to exploit the available portions of the licensed spectrum bands without interfering with primary users. In particular, we consider a cognitive radio system, where SUs are equipped with two transceivers: a control transceiver and a software-defined radio transceiver. Data traffic characteristics of SUs are considered to ameliorate system performance. So, we propose a mechanism of resource reservation to improve QoS requirements that favors successful SUs to transmit data during x time slots without interfering with primary users. The key novelty of this paper is giving priority for SUs with important data traffic and which frequently solicits data channels to transmit for the remaining time of the ongoing time slot and for the next time slots directly after checking the channel availability. We develop a new analytical model to evaluate delay parameter for two scenarios with and without resource reservation and we then investigate the impact of those scenarios on the energy consumption. We show through simulations that cognitive radio performances increase noticeably with the proposed scheme. Copyright (c) 2014 John Wiley \& Sons, Ltd.}, issn = {1074-5351}, doi = {10.1002/dac.2764}, author = {Elmachkour, Mouna and Kobbane, Abdellatif and Sabir, Essaid and Ben-Othman, Jalel and El Koutbi, Mohammed} } @conference { ISI:000381477900056, title = {A Distributed Open-Close Access for Small-Cell Networks: A Random Matrix Game Analysis}, booktitle = {2015 INTERNATIONAL WIRELESS COMMUNICATIONS \& MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2015}, note = {11th IEEE International Wireless Communications and Mobile Computing Conference (IEEE IWCMC), Dubrovnik, CROATIA, AUG 24-25, 2015}, pages = {320-325}, publisher = {IEEE; IEEE Croatia Sect; Univ Dubrovnik}, organization = {IEEE; IEEE Croatia Sect; Univ Dubrovnik}, abstract = {Nowadays, Small-Cells are widely being deployed to assist and improve performance of mobile networks. Indeed, they are a promising solution to improve coverage and to offload data traffic in mobile networks. In this paper, we propose a signaling-less architecture of the heterogeneous network composed of one single Macro Base Station and a Single Small-Cell. First, we construct a game theoretic framework for channel-state independent interaction. We present many conditions for the existence of Pure Nash equilibrium. Next, and in order to capture the continuous change of the channel state, we build a random matrix game where the channel state is considered to be random (potentially ruled by some given distribution). A characterization of Nash equilibrium is provided in terms of pure strategies and mixed strategies. Convergence to Nash equilibrium is furthermore guaranteed using a variant of the well-known Combined fully distributed payoff and strategy learning. Our algorithm converges faster (only 10-20 iterations are required to converge to Nash equilibrium) and only need a limited amount of local information. This is quite promising since it says that our scheme is almost applicable for all environments (fast fading included).}, isbn = {978-1-4799-5344-8}, issn = {2376-6492}, author = {Ben Chekroun, Samia and Sabir, Essaid and Kobbane, Abdellatif and Tembine, Hamidou and Bouyakhf, El-Houssine and Ibrahimi, Khalil} } @article { ISI:000360910900010, title = {A ferry-assisted solution for forwarding function in Wireless Sensor Networks}, journal = {PERVASIVE AND MOBILE COMPUTING}, volume = {22}, number = {SI}, year = {2015}, month = {SEP}, pages = {126-135}, abstract = {For sure, Wireless Sensor Networks (WSNs) are becoming an ultimate part of next generation mobile networks. They are a master piece for Ubiquitous computing. Indeed, they sustain development of numerous paradigms/ technologies such as distributed ambient intelligence, context-awareness and future mobile networking (e.g., B4G and 5G). Battery life remains one of the crucial problems to handle. In this article we propose an infrastructure-based topology using mobile ferries (mobile micro-base stations). In real life, a ferry could be robot, bus, tram, train or any other engine scrutinizing periodically a given area. Yet, message ferries are moving along concentric annulus and may collect data generated by the static sensors (could be classic sensors, smart meters, wearable devices, etc.) randomly distributed on given area. Next, transmissions are performed in a ferry-to-ferry forwarding scheme till arriving at the sink. Considered ferries could sense themselves data and therefore behave as mobile sensors allowing better awareness on the area state {[}1-3]. Our scheme could also assist Machine-to-Machine communications to increase the network lifetime, with potentially some cognitive-radio capabilities and opportunistic detection and access. Our proposal can easily be integrated in a smart-city for better interaction and green communications. Next, we present a queueing model (queues with finite capacity) to handle the generated traffic and to analyze the behavior of mobile ferries. We provided a close-form expression for both end-to-end throughput and end-to-end delay. The main objective of this work is to improve the energy efficiency of the cognitive sensors by asking cognitive sensors to not care about forwarding data of each other except for urgent data, this latter point is out of the scope of the paper. These static sensors will only care about data sensing, which will reduce their individual energy consumption. (C) 2015 Elsevier B.V. All rights reserved.}, issn = {1574-1192}, doi = {10.1016/j.pmcj.2015.05.003}, author = {Oualhaj, Omar Ait and Kobbane, Abdellatif and Sabir, Essaid and Ben-Othman, Jalel and Erradi, Mohammed} } @conference { ISI:000381477900200, title = {On Improving Network Capacity for Downlink and Uplink of Two-Tier LTE-FDD Networks}, booktitle = {2015 INTERNATIONAL WIRELESS COMMUNICATIONS \& MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2015}, note = {11th IEEE International Wireless Communications and Mobile Computing Conference (IEEE IWCMC), Dubrovnik, CROATIA, AUG 24-25, 2015}, pages = {1168-1173}, publisher = {IEEE; IEEE Croatia Sect; Univ Dubrovnik}, organization = {IEEE; IEEE Croatia Sect; Univ Dubrovnik}, abstract = {A Long Term Evolution-Frequency Division Duplexing (LTE-FDD) small cell is one of the promising solutions for improving service quality and data rate in both the uplink and downlink of home users. Small cell (e.g., femtocell, picocell, microcell) is short range, low cost and low power base station installed by the indoor consumers. However, the avoidance of interferences is still an issue that needs to be addressed for successful deployment of small base stations (SBS) within existing macro cell networks mainly in co-channel deployment. Moreover, interferences are strongly dependent on the type of access control of small cells. Closed and open access are in conflict interests for macro users and home users in the uplink and downlink. To mitigate this conflict, we propose a fully distributed algorithm based on the shared time access and executed by LTE-FDD small cells, in order to reduce the effect of interferences, improve QoS of users, and maximize the overall capacity of downlink and uplink in two-tier LTE networks when small cells are deployed randomly. Simulation results validate our algorithm and show the improvement attained in offloading macro cell and satisfying QoS requirements of home users compared to the closed and open access mechanisms in both the uplink and downlink.}, isbn = {978-1-4799-5344-8}, issn = {2376-6492}, author = {Walid, Abdellaziz and Sabir, Essaid and Kobbane, Abdellatif and Taleb, Tarik and El Koutbi, Mohammed} } @conference { ISI:000380409500024, title = {Modelling Intelligent and Reliable Ferry Routes in Wireless Sensor Networks using Polling Systems Theory}, booktitle = {2015 10TH INTERNATIONAL CONFERENCE ON INTELLIGENT SYSTEMS: THEORIES AND APPLICATIONS (SITA)}, year = {2015}, note = {10th International Conference on Intelligent Systems - Theories and Applications (SITA), ENSIAS, Rabat, MOROCCO, OCT 20-21, 2015}, publisher = {IEEE}, organization = {IEEE}, abstract = {This paper proposes a new model for finding intelligent and reliable ferry routes using a continuous polling system to ensure a better transportation of messages between wireless nodes and the corresponding sink. We consider that the Wireless Sensor Network (WSN) is composed by wireless static sensor nodes and several mobile ferries that collect information from all the sensors in the network. We have used a pure birth process to model the reliability aspect of the nodes in the network. We have considered several cases: with one ferry and N ferries moving in the same area. We have studied the impact of nodes density and the faulty rate occurrence to find the best and reliable path for the mobile ferry to cover all the nodes of the WSN.}, isbn = {978-1-5090-0220-7}, author = {El Mezouary, Ridouane and Amine Koulali, Mohammed and Kobbane, Abdellatif and El Koutbi, Mohammed} } @conference { ISI:000380509200003, title = {A MTC Traffic Generation and QCI Priority-First Scheduling Algorithm over LTE}, booktitle = {2015 INTERNATIONAL CONFERENCE ON WIRELESS NETWORKS AND MOBILE COMMUNICATIONS (WINCOM)}, year = {2015}, note = {International conference on wireless networks and mobile communications, Marrakech, MOROCCO, OCT 20-23, 2015}, pages = {11-16}, abstract = {As (M2M) Machine-To-Machine, communication continues to grow rapidly, a full study on overload control approach to manage the data and signaling of H2H traffic from massive MTC devices is required. In this paper, a new M2M resource-scheduling algorithm for Long Term Evolution (LTE) is proposed. It provides Quality of Service (QoS) guarantee to Guaranteed Bit Rate (GBR) services, we set priorities for the critical M2M services to guarantee the transportation of GBR services, which have high QoS needs. Additionally, we simulate and compare different methods and offer further observations on the solution design.}, isbn = {978-1-4673-8224-3}, author = {Aghmadi, Ali and Bouksim, Iliass and Kobbane, Abdellatif and Taleb, Tarik} } @conference { ISI:000380509200017, title = {A New Optimal Hybrid Spectrum Access in Cognitive Radio: Overlay-Underlay Mode}, booktitle = {2015 INTERNATIONAL CONFERENCE ON WIRELESS NETWORKS AND MOBILE COMMUNICATIONS (WINCOM)}, year = {2015}, note = {International conference on wireless networks and mobile communications, Marrakech, MOROCCO, OCT 20-23, 2015}, pages = {92-98}, abstract = {In this paper, we propose a hybrid cognitive radio (CR) system where underlay and overlay CR approaches are combined under SIRN constraints. This new access type allows to optimize the spectrum sensing time with throughput improvement. Our proposed access type is based on a merger of these two modes depending on the number of secondary users (SU) in the Underlay Mode and on the access probabilities for these two modes. The number of all users in the Underlay access mode should not exceed a certain number of users. When a new SU arrives and if the number of SUs in Underlay mode is already equal to the predifined max number, the SU decides to switch to the Overlay mode to access the canal using this method. The SU states will be modeled with a Markov chain, the aim of this work is attempting to show that this new method allows to increase the throughput of the SU with energy optimization. The exact outage probability of secondary system is also derived for this model. Simulation results show that the performance, especiallay the throughput can be significantly increased by the proposed hybrid system.}, isbn = {978-1-4673-8224-3}, author = {Gmira, Sara and Kobbane, Abdellatif and Sabir, Essaid} } @conference { ISI:000380409500023, title = {A New Trust Model to secure Routing Protocols against DoS attacks in MANETs}, booktitle = {2015 10TH INTERNATIONAL CONFERENCE ON INTELLIGENT SYSTEMS: THEORIES AND APPLICATIONS (SITA)}, year = {2015}, note = {10th International Conference on Intelligent Systems - Theories and Applications (SITA), ENSIAS, Rabat, MOROCCO, OCT 20-21, 2015}, publisher = {IEEE}, organization = {IEEE}, abstract = {In mobile Ad hoc networks, data is transmitted in airspace between mobile entities without any centralized control. This environment offers many and very important services for mobile users. However, the level of security in this kind of network has not yet reached a significant level of maturity against the ferocious attacks. In this work, we present a new model to trust routing protocols communications in MANETs against DoS attacks. We have used the box plot theory to define accurately the threshold to detect a DoS attack and to reduce the number of false positives.}, isbn = {978-1-5090-0220-7}, author = {Echchaachoui, Adel and Kobbane, Abdellatif and Elkoutbi, Mohammed} } @conference { ISI:000382389300061, title = {A Signaling Game-based Mechanism to Meet Always Best Connected Service in VANETs}, booktitle = {2015 IEEE GLOBAL COMMUNICATIONS CONFERENCE (GLOBECOM)}, series = {IEEE Global Communications Conference}, year = {2015}, note = {IEEE Global Communications Conference (GLOBECOM), San Diego, CA, DEC 06-10, 2015}, publisher = {IEEE; QUALCOMM; Keysight Technologies; Huawei; Natl Instruments; Intel; InterDigital; LG Elect; IEEE Big Data; IEEE Stand Assoc; ViaSat; IEEE Commun Soc}, organization = {IEEE; QUALCOMM; Keysight Technologies; Huawei; Natl Instruments; Intel; InterDigital; LG Elect; IEEE Big Data; IEEE Stand Assoc; ViaSat; IEEE Commun Soc}, abstract = {In heterogeneous network environments, users need to have mechanisms in place to decide which network is the most suitable at each moment in time for every application that the user requires. Always Best Connected is considered as a special concept to allow users to get connected to Internet using the access technology that best suits their needs or profile at any point in time. Clearly, this concept provides multiple access simultaneously for mobile users moving in heterogeneous access network environment. In this paper, we introduce a signaling game approach to achieve an always best connected service in vehicular networks. Under the considered scenario, we consider two smart vehicles named player 1 and player 2 moving in a road network area equipped with heterogeneous access networks. We assume that player 1 (super player) only has complete information on the road network, whilst player 2 has not any information. Player 1 plays first and sends a signal to player 2 which can be accurate or distorted. Based on the received signal and his belief about that signal, player 2 chooses its own action: it computes its suitable path which provides it an always best connected service.}, isbn = {978-1-4799-5952-5}, issn = {2334-0983}, author = {Mabrouk, Abdelfettah and Kobbane, Abdellatif and Sabir, Essaid and Ben-Othman, Jalel and El Koutbi, Mohammed} } @conference { ISI:000361140000114, title = {A Congestion Game-based Routing Algorithm for Communicating VANETs}, booktitle = {2014 INTERNATIONAL WIRELESS COMMUNICATIONS AND MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2014}, note = {10th International Wireless Communications \& Mobile Computing Conference (IWCMC), Nicosia, CYPRUS, AUG 04-08, 2014}, pages = {672-677}, publisher = {IEEE; IEEE Cyprus Sect; Frederick Univ}, organization = {IEEE; IEEE Cyprus Sect; Frederick Univ}, abstract = {Vehicular Ad Hoc Network (VANET) is considered as a special application of Mobile Ad Hoc Networks (MANETs) in road traffic, which can autonomously organize networks without infrastructure. VANETs enable vehicles on the road to communicate with each other and with road infrastructure using wireless capabilities. In the last few years, extensive research has been performed to extend Internet connectivity to VANETs. Indeed, several routing protocols have been proposed to determine routes between vehicles and gateways. In this paper, we propose a routing algorithm which is based on the Congestion Game to resolve the problem of network congestion in VANET and to provide the optimal Internet access paths. The simulation results show that the proposed routing algorithm has better feasibility and effectiveness for communicating VANETs.}, isbn = {978-1-4799-0959-9}, issn = {2376-6492}, author = {Mabrouk, Abdelfettah and Senhadji, Mohamed and Kobbane, Abdellatif and Walid, Abdellaziz and Sabir, Essaid and Koutbi, Mohammed E. L.} } @article { ISI:000334054800007, title = {An energy aware algorithm for OLSR clustering}, journal = {ANNALS OF TELECOMMUNICATIONS-ANNALES DES TELECOMMUNICATIONS}, volume = {69}, number = {3-4}, year = {2014}, month = {APR}, pages = {201-207}, abstract = {One of the important aspects of a mobile ad hoc network (MANET) is the limitation of the amount of available energy and the network lifetime. The tremendous amount of using mobile nodes in wireless communication medium makes energy efficiency a fundamental requirement for MANETs. In this paper, we propose a novel energy aware clustering algorithm for the optimized link state routing (OLSR) routing protocol. This algorithm takes into account the node density and mobility and gives major improvements regarding the number of elected cluster heads. Our objective is to elect a reasonable number of cluster heads that will serve for hierarchical routing based on OLSR. The proposed algorithm aims to increase the network lifetime by considering the ad hoc residual energy while taking routing decisions. It also optimizes the delay of carried flows by adopting a selective forwarding approach based on a hierarchical routing model.}, issn = {0003-4347}, doi = {10.1007/s12243-013-0411-6}, author = {Loutfi, Ahmed and Elkoutbi, Mohammed and BenOthman, Jalel and Kobbane, Abdellatif} } @conference { ISI:000361140000144, title = {Ferry-based Architecture for Participatory sensing}, booktitle = {2014 INTERNATIONAL WIRELESS COMMUNICATIONS AND MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2014}, note = {10th International Wireless Communications \& Mobile Computing Conference (IWCMC), Nicosia, CYPRUS, AUG 04-08, 2014}, pages = {845-849}, publisher = {IEEE; IEEE Cyprus Sect; Frederick Univ}, organization = {IEEE; IEEE Cyprus Sect; Frederick Univ}, abstract = {The concept of Participatory Sensing is centered on individuals that collect data using their smart phones (or other dedicated devices) to track the evolution of their work/living places. The main objective is to use the gathered data in order to enhance the offered quality of life. To maximize people involvement in this process we propose a ferry based architecture to leverage the contributors from charges associated with accessing service providers infrastructure to forward collected data. Opportunistic contact with message ferries will be exploited to gather data that will be carried from ferry-to-ferry till it reaches a centralized processing and decision-taking authority. We provide a closed formula for the End-to-End throughput of the proposed gathering network architecture.}, isbn = {978-1-4799-0959-9}, issn = {2376-6492}, author = {Koulali, Sara and Sabir, Essaid and Kobbane, Abdellatif and Azizi, Mostafa} } @conference { ISI:000366666805090, title = {Green Opportunistic Access for Cognitive Radio Networks: A Minority Game Approach}, booktitle = {2014 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC)}, series = {IEEE International Conference on Communications}, year = {2014}, note = {IEEE International Conference on Communications (ICC), Sydney, AUSTRALIA, JUN 10-14, 2014}, pages = {5372-5377}, publisher = {IEEE}, organization = {IEEE}, abstract = {We investigate energy conservation and system performance of decentralized resource allocation scheme in cognitive radio networks thoroughly based on secondary users competitive behavior. Indeed, the contention on data channel unoccupied by licensed user leads to a single winner, but also involves a loss of energy of all nodes. In this paper, we apply minority game (MG) to the most important phase from the opportunistic spectrum access (OSA) process: the sensing phase. We attempt to carry out a cooperation in a non-cooperative environment with no information exchange. We study the Nash equilibrium solution for pure and fully mixed strategies, and we use distributed learning algorithms enabling cognitive users to learn the Nash equilibrium. Finally, we provide numerical results to validate the proposed approach. The resource allocation based on minority game approach improves secondary users battery life and the performance of the network.}, isbn = {978-1-4799-2003-7}, issn = {1550-3607}, author = {Elmachkour, Mouna and Daha, Imane and Sabir, Essaid and Kobbane, Abdellatif and Ben-Othman, Jalel}, editor = {Jamalipour, A and Deng, DJ} } @conference { ISI:000371484600074, title = {Green opportunistic access for CRN with selfish users using Coalitional game Approach in partition form}, booktitle = {2014 THIRD IEEE INTERNATIONAL COLLOQUIUM IN INFORMATION SCIENCE AND TECHNOLOGY (CIST{\textquoteright}14)}, series = {Colloquium in Information Science and Technology}, year = {2014}, note = {3rd IEEE International Colloquium on Information Science and Technology (CIST), Tetouan, MOROCCO, OCT 20-22, 2014}, pages = {425-429}, publisher = {IEEE; IEEE Comp Soc; IEEE Commun Soc; IEEE Morocco Sect; IEEE Morocco Comp \& Commun Joint Chapter; UAE IEEE Student Branch; Univ Abdelmalek Essaadi; ENSA Tetouan}, organization = {IEEE; IEEE Comp Soc; IEEE Commun Soc; IEEE Morocco Sect; IEEE Morocco Comp \& Commun Joint Chapter; UAE IEEE Student Branch; Univ Abdelmalek Essaadi; ENSA Tetouan}, abstract = {We study energy conservation and system performance of decentralized cognitive radio network with cognitive users. Every cognitive radio (CR) user needs to sense the channel to send data, if the channel is unoccupied by a licensed user only one winner transmits its data. Hence, all other users waste their energy in sensing the licensed bands and in negotiating the resource access without managing to transmit data packets. We formulate the sensing-energy tradeoff problem for distributed cognitive radio network as a coalition formation game. Our contribution is to apply the coalitional game design to the most important phases of cognitive radio network (CRN): sensing and data transmission. The concept of coalitional game may enforce the cooperative behavior of CR users in order to improve the system performance (energy and delay..). The network is modeled using a coalitional game in partition form with non transferable utility (NTU). After forming coalitions, no CR user in those coalitions aim to change its position. Indeed, the members of this coalition will cooperate both in sensing and access phases to improve system performance. The selfish behavior becomes evident when the cognitive users are constrained to send their data in a short delay and with a minimum of energy consumption. Our proposed algorithm explains how the selfish atittude of the cognitive user leds to join the coalition that increases its individual gain, and tacitly to improve the performance of the entire system.}, isbn = {978-1-4799-5979-2}, issn = {2327-185X}, author = {Belghiti, Imane Daha and Elmachkour, Mouna and Berrada, Ismail and Kobbane, Abdellatif}, editor = {ElMohajir, M and AlAchhab, M and Chahhou, M} } @article { ISI:000348218400023, title = {The Greening of Spectrum Sensing: A Minority Game-Based Mechanism Design}, journal = {IEEE COMMUNICATIONS MAGAZINE}, volume = {52}, number = {12}, year = {2014}, month = {DEC}, pages = {150-156}, abstract = {Cognitive radio technology allows the reuse of the underutilized frequency spectrum on an opportunistic and non-interfering basis by means of introducing, besides the legitimate primary users of the spectrum, a new kind of users called cognitive or secondary users. Thus, reliable spectrum sensing is critical to dynamically detect available licensed frequency bands and mitigate the primary signals, but it remains realistically difficult to carry out. In fact, although distributed collaborative sensing has turned out to be fruitful for the cognitive radio environment, its accuracy is often affected by the selfish and autonomous behavior of users. In this article, we model distributed spectrum sensing and channel allocation as a non-cooperative game, and apply the minority game to bring forth and study the cooperative behavior of users. The novelty brought by our study consists of alleviating the number of users contending for primary channels by giving them the opportunity to choose between the two, either sensing the channel or being inactive during the time slot. To address the trade-off faced by the SUs, we evaluate the performance of two secondary systems in a green communications context: energy consumption and transmission delay.}, issn = {0163-6804}, author = {Elmachkour, Mouna and Sabir, Essaid and Kobbane, Abdellatif and Ben-Othman, Jalel and El Koutbi, Mohammed} } @conference { ISI:000366666800017, title = {Optimal Buffer Management Policies in DTNs: A POMDP Approach}, booktitle = {2014 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC)}, series = {IEEE International Conference on Communications}, year = {2014}, note = {IEEE International Conference on Communications (ICC), Sydney, AUSTRALIA, JUN 10-14, 2014}, pages = {94-99}, publisher = {IEEE}, organization = {IEEE}, abstract = {Using Delay Tolerant Networks (DTNs) would facilitate the connection of devices and areas across the world that are under-served by current networks. The DTNs are based on the concept of store-carry-and-forward protocols. A node may store a message in its buffer and carry it for a short or a long period of time, until an appropriate forwarding opportunity arises. A critical challenge is to determine routes through the network without even having an end-to-end connection. In order to increase the probability of message delivery, a known approach is implemented using epidemic message replication. This combination of long-term storage and message replication imposes a high storage and bandwidth overhead. Thus, efficient scheduling and dropping policies are necessary to decide which messages should be discarded when nodes{\textquoteright} buffers operate close to their capacity. If a relay buffer is full and needs to store a new packet, it has to decide either to keep the current message or to drop it. This decision depends on the number of transmissions of the message in its buffer and the message which has just arrived. In this paper, a Partially Observed Markov Decision Process (POMDP) framework is proposed to solve the problem of buffer management in DTNs. This modeling technique predicts some properties of the optimal buffer management policy. In addition, numerical examples are presented to illustrate the findings.}, isbn = {978-1-4799-2003-7}, issn = {1550-3607}, author = {Rahmouni, Imane and El Kamili, Mohamed and El Fenni, Mohammed Raiss and Omari, Lahcen and Kobbane, Abdellatif}, editor = {Jamalipour, A and Deng, DJ} } @conference { ISI:000366666801147, title = {POMDP Game Framework for Service Providers Inciting Mobile Users}, booktitle = {2014 IEEE INTERNATIONAL CONFERENCE ON COMMUNICATIONS (ICC)}, series = {IEEE International Conference on Communications}, year = {2014}, note = {IEEE International Conference on Communications (ICC), Sydney, AUSTRALIA, JUN 10-14, 2014}, pages = {1742-1747}, publisher = {IEEE}, organization = {IEEE}, abstract = {The trend today is to access Internet through mobile devices, and people start using smartphones more than computers. This kind of services requires frequent updates through small messages from editors like in social networks. Although the use of such applications is subject to fees and consumes energy from limited batteries of smartphones. If a user activates his mobile device and has a useful contact opportunity with an access point, an update is received at the expense of monetary and energy costs. Thus, users face a tradeoff between such costs and their utilities. The goal of this paper is to show how a user can cope with such a tradeoff, by deriving a threshold policies. We consider the multi-user case, where each user try to maximize its reward based on a bonus given by the provider. We study the optimal policy in the Nash equilibrium. An optimal policy consists of deciding, based on the age of the last message received and the availability of access points whether to activate the mobile device or not. We model our problem using a POMDP with an average reward criterion. The accuracy of our model is illustrated through simulations.}, isbn = {978-1-4799-2003-7}, issn = {1550-3607}, author = {Raiss-el-Fenni, Mohammed and El-Kamili, Mohamed and Ben-Othman, Jalel and Kobbane, Abdellatif}, editor = {Jamalipour, A and Deng, DJ} } @conference { ISI:000380438500019, title = {Providing Always Best Connected Service in VANET with Complete and Partial Information}, booktitle = {3RD INTERNATIONAL CONFERENCE ON ADVANCED COMPUTER SCIENCE APPLICATIONS AND TECHNOLOGIES ACSAT 2014}, series = {International Conference on Advanced Computer Science Applications and Technologies}, year = {2014}, note = {3rd International Conference on Advanced Computer Science Applications and Technologies (ACSAT), Amman, JORDAN, DEC 29-30, 2014}, pages = {108-112}, publisher = {Design Sci Renaissance; Unitech; Philadelphia Univ; Patrons Peoamp; Ittihad Univ; Univ Siswa Bangsa Int}, organization = {Design Sci Renaissance; Unitech; Philadelphia Univ; Patrons Peoamp; Ittihad Univ; Univ Siswa Bangsa Int}, abstract = {Mobile communication has become the preferred choice of personal communication today. With the rapid proliferation of wireless network technologies, heterogeneous wireless network environments increase more and more. Such environments provide multiple access networks simultaneously for mobile users. Each mobile user wishes to get connected to Internet using the access technology that best suits his needs at any point in time. Always Best Connected is considered as a special concept for mobile users to select their suitable access networks. In this paper, we have presented two scenarios which are based on Always Best Connected concept to provide, for a smart vehicle moving in a road network installed with multiple access technologies, an always best connected service at any point in time. In the first scenario, we assume that the mobile user (vehicle) has complete information on the road network (all access technologies installed in the road network). Whilst the second scenario is the same as the first one except that the mobile user periodically receives a partial information on the road network (only the access technologies installed in the edges which are immediately accessible by mobile user). For both scenarios, we have proposed a graph model to characterize the observed mobility pattern. Also, two algorithms are proposed to find the optimal path that provides always best connected service for vehicles in both scenarios.}, isbn = {978-1-4799-1845-4}, issn = {2379-7738}, doi = {10.1109/ACSAT.2014.26}, author = {Mabrouk, Abdelfettah and Kobbane, Abdellatif and El Koutbi, Mohammed and Sabir, Essaid} } @conference { ISI:000361140000010, title = {A Tax-inspired Mechanism Design to Achieve QoS in VMIMO Systems : Give to Receive !}, booktitle = {2014 INTERNATIONAL WIRELESS COMMUNICATIONS AND MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2014}, note = {10th International Wireless Communications \& Mobile Computing Conference (IWCMC), Nicosia, CYPRUS, AUG 04-08, 2014}, pages = {56-62}, publisher = {IEEE; IEEE Cyprus Sect; Frederick Univ}, organization = {IEEE; IEEE Cyprus Sect; Frederick Univ}, abstract = {In this paper, we model a Virtual MIMO system using a game-theoretic approach. We are interested in the uplink, considering a non-coopertive game, where each user try to satisfy a quality of service. The uplink of a direct-sequence code division multiple access (DS-CDMA) data network is considered and a non-cooperative game is proposed in which users are allowed to choose their uplink receivers as well as to satisfy their quality of service. The utility function used in this framework is defined so that the throughput used by the user is divided into two components : the throughput received from cellular Network, and throughput received from Virtual MIMO System. In addition, this framework is used to study a constrained Nash equilibrium for the proposed game, and the impact of the interaction among users.}, isbn = {978-1-4799-0959-9}, issn = {2376-6492}, author = {Bennani, Hassan and Sabir, Essaid and Kobbane, Abdellatif and Walid, Abdellaziz and Ben-Othman, Jalel} } @conference { ISI:000351846000018, title = {A new Cross layer Architecture for Service Differentiation in Wireless Sensor Networks}, booktitle = {2013 IEEE MALAYSIA INTERNATIONAL CONFERENCE ON COMMUNICATIONS (MICC)}, year = {2013}, note = {IEEE 11th Malaysia International Conference on Communications (MICC), Kuala Lumpur, MALAYSIA, NOV 26-28, 2013}, pages = {92-97}, publisher = {IEEE}, organization = {IEEE}, abstract = {This paper describes a new cross-layer architecture that supports service differentiation in Wireless Sensor Networks (WSN). In WSNs, sensor nodes are supposed to communicate using a random access method. We propose a mathematical model that combines parameters form network and MAC layers. We aim to estimate and to enhance the throughput of multi-hop WSNs and the stability of the forwarding queues used for real-time and best-effort traffic. We suppose in this paper that we have one single sink in the WSN and we study the impact of the probability of transmitting (real-time and best-effort traffic), density of sensor and hop count on the end-to-end throughput.}, isbn = {978-1-4799-1532-3}, author = {Loutfi, Ahmed and Mohamed, Senhadji and Sabir, Essaid and Kobbane, Abdellatif and El Koutbi, Mohammed} } @conference { ISI:000312146500145, title = {Channel Allocation Strategies in Opportunistic-based Cognitive Networks}, booktitle = {2012 8TH INTERNATIONAL WIRELESS COMMUNICATIONS AND MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2012}, note = {8th IEEE International Wireless Communications and Mobile Computing Conference (IWCMC), Limassol, CYPRUS, AUG 27-31, 2012}, pages = {872-877}, publisher = {IEEE; IEEE Cyprus Sect; Frederick Univ}, organization = {IEEE; IEEE Cyprus Sect; Frederick Univ}, abstract = {The idea to allow unlicensed users to utilize licensed bands whenever it would not cause any interference is one of the fundaments of cognitive radio. In this paper we propose some allocation channel strategies to provide more QoS for unlicensed users. We assume that one channel is dedicated for unlicensed users that can eventually use licensed users channels if idle. The first allocation channel strategy reconsiders, in case of unavailable licensed users{\textquoteright}s channels, the request of unlicensed users to be processed by the dedicated channel. The second strategy doesn{\textquoteright}t reconsider it and simply reject it. QoS performances of the two patterns are evaluated and discussed using analytical models and simulations. For the first communication strategy, we based our model on the work of Habachi and Hayel which we enhance. We proceed to some corrections of mathematical and formulations errors. Analytical and simulation results show that the performances offered by the primary channels to secondary user are better than performances offered by the dedicated channel, however, the performance offered by the primary channels are negatively impacted by the cost of sensing.}, isbn = {978-1-4577-1379-8}, issn = {2376-6492}, author = {Belkasmi, Yassin and Kobbane, Abdellatif and El Koutbi, Mohammed and Ben-Othman, Jalel} } @article { ISI:000305225200001, title = {Dynamic power control for energy harvesting wireless multimedia sensor networks}, journal = {EURASIP JOURNAL ON WIRELESS COMMUNICATIONS AND NETWORKING}, year = {2012}, abstract = {Optimization of energy usage in wireless sensor networks (WSN) has been an active research field for the last decades and various approaches have been explored. In fact, A well designed energy consumption model is the foundation for developing and evaluating a power management scheme in network of energy constrained devices such as: WSN. We are interested in developing optimal centralized power control policies for energy harvesting wireless multimedia sensor networks (WMSN) equipped with photovoltaic cells. We propose a new complete information Markov decision process model to characterize sensor{\textquoteright}s battery discharge/recharge process and inspect the structural properties of optimal transmit policies.}, issn = {1687-1499}, doi = {10.1186/1687-1499-2012-158}, author = {Koulali, Mohammed-Amine and Kobbane, Abdellatif and El Koutbi, Mohammed and Tembine, Hamidou and Ben-Othman, Jalel} } @conference { ISI:000312146500012, title = {New Insights from a Delay Analysis for Cognitive Radio Networks with and without Reservation}, booktitle = {2012 8TH INTERNATIONAL WIRELESS COMMUNICATIONS AND MOBILE COMPUTING CONFERENCE (IWCMC)}, series = {International Wireless Communications and Mobile Computing Conference}, year = {2012}, note = {8th IEEE International Wireless Communications and Mobile Computing Conference (IWCMC), Limassol, CYPRUS, AUG 27-31, 2012}, pages = {65-70}, publisher = {IEEE; IEEE Cyprus Sect; Frederick Univ}, organization = {IEEE; IEEE Cyprus Sect; Frederick Univ}, abstract = {In wireless communication systems, the delay remains a crucial factor. In this work, we focus on the design of a new opportunistic cross-layer MAC protocol involving channels allocation and packet scheduling for cognitive networks in order to optimize system performance. Cognitive radio provides the opportunity for secondary users (unlicensed users) to use available portions of the licensed spectrum bands without interfering with primary users (licensed users). We consider that each secondary user is equipped with two transceivers. The role of the first transceiver is to obtain and exchange channels information on the control channel. The second transceiver is devoted to periodically detect and dynamically use the available data channels. The paper deals with channel allocation considering traffic characteristics of secondary users. So, we propose a mechanism of resource reservation to improve Quality of Service (QoS) requirements that favors successful secondary users to transmit data during x time slots without interfering with primary users. We develop a new analytical model, while taking into account the backoff mechanism. We analyze delay parameter for two scenarios with and without resource reservation. We show through simulations that our approach guarantees an optimal response delay.}, isbn = {978-1-4577-1379-8}, issn = {2376-6492}, author = {Elmachkour, Mouna and Kobbane, Abdellatif and Sabir, Essaid and El Koutbi, Mohammed} } @conference { ISI:000310353000009, title = {QDGRP : A Hybrid QoS Distributed Genetic Routing Protocol for Wireless Sensor Networks}, booktitle = {2012 INTERNATIONAL CONFERENCE ON MULTIMEDIA COMPUTING AND SYSTEMS (ICMCS)}, year = {2012}, note = {International Conference on Multimedia Computing and Systems (ICMCS), Tangiers, MOROCCO, MAY 10-12, 2012}, pages = {47-52}, publisher = {Morocco Sect MTT/AP Joint Chapter}, organization = {Morocco Sect MTT/AP Joint Chapter}, abstract = {Nature-inspired routing protocols have been subject to a great research activity. Their decentralized nature and low requirements make them highly suitable for Wireless Sensor Networks (WSN) where individual nodes operate without central control and without global overview of the network status to achieve global tasks. This paper proposes a hybrid QoS routing protocol for WSN based on a customized Distributed Genetic Algorithm (DGA) that accounts for delay and energy constraints. The proposed protocol (QDGRP) is compared to AODV w.r.t several performance metrics : end-to-end delay, throughput, packet delivery ratio and energy efficiency. The realized simulations show that QDGRP outperforms AODV and manages to achieve very good performances for various deployment scenarios.}, isbn = {978-1-4673-1520-3}, author = {Koulali, Mohammed-Amine and Kobbane, Abdellatif and El Koutbi, Mohammed and Azizi, Mostafa}, editor = {Essaaidi, M and Zaz, Y} } @article { ISI:000293491800013, title = {Dynamic robust power allocation games under channel uncertainty and time delays}, journal = {COMPUTER COMMUNICATIONS}, volume = {34}, number = {12}, year = {2011}, month = {AUG 2}, pages = {1529-1537}, abstract = {In this paper, we study dynamic robust power allocation strategies under the imperfectness of the channel state information at the transmitters. Considering unknown payoff functions at the transmitters, we propose an heterogeneous Delayed COmbined fully Distributed Payoff and Strategy Reinforcement Learning (Delayed-CODIPAS-RL) in which each transmitter learns its payoff function as well as its associated optimal strategies in the long-term. We show that equilibrium power allocations can be obtained using the multiplicative weighted imitative CODIPAS-RLs and Bush-Mosteller based CODIPAS-RL. We also show almost sure convergence to the set of global optima for specific scenarios. (C) 2011 Elsevier B.V. All rights reserved.}, issn = {0140-3664}, doi = {10.1016/j.comcom.2011.02.009}, author = {Tembine, Hamidou and Kobbane, Abdellatif and El koutbi, Mohamed} } @article {5099547320100301, title = {The Uplink Capacity Evaluation of Wireless Networks: Spectral Analysis Approach.}, journal = {Journal of Computing \& Information Technology}, volume = {18}, number = {1}, year = {2010}, pages = {1 - 17}, abstract = {In this paper we study the capacity of wireless cellular network, in particular the uplink of WCDMA system by using the two dimensional continuous-time Markov chain (CTMC) technique. Considering two types of calls: real-time (RT) calls characterized by a quasi fixed transmission rate, and best-effort (BE) calls which do not require strict demand but need some reliability conditions, we develop an approach based on the spectral analysis for evaluating the cell capacity. We explicitly obtain the simultaneous distribution of the number of RT connections and the number of BE connections in the steady-state. This analysis allows us to simplify the computation of the performance measures including expected delay and throughput of BE traffic. These performances are obtained explicitly in both cases (finite and infinite) of BE calls as function of system parameters like arrival rate of BE and RT calls, service rate of BE and RT calls. These results allow the operator to evaluate the cell capa}, keywords = {call admission control, Data transmission systems, Markov processes, Matrix-Geometric method, Mobile communication systems, spectral analysis approach, Spectrum analysis, Telecommunication systems, Wireless communication systems, wireless networks}, issn = {13301136}, url = {http://search.ebscohost.com/login.aspx?direct=true\&db=iih\&AN=50995473\&site=ehost-live}, author = {Kobbane, Abdellatif and El-Azouzi, Rachid and Ibrahimi, Khalil and Samanta, Sujit Kumar and Bouyakhf, El-Houssine} }