An Optimum Electrons Number Generated in Microwaves Plasma Gas Discharge

The objective of this study is the estimation of plasma density and the parameters that control this density in a metallic circular geometric waveguide by using microwave plasma gas discharge for plasma generation. Propagation in unlimited plasma with and without collision has been shortly treated to uncover the collision effect and the cutoff frequency. In limited plasma, in a circular waveguide, we show some waves modes that can propagate in this geometric structure.  Electrons number is the main objective as it constitutes the rate of reactive species for any material treatment.  Its variation with wave sources and with the dielectric constant of the tube medium has been treated. In conclusion the design of any microwave plasma gas discharge, will be based on these parameters that are essential for guiding electromagnetic waves in a circular geometric structure for an optimum electromagnetic energy transport and as a result for an optimum reactive species rate for use in our daily life need.

Analytical Evaluation of Unfairness Problem in Wireless LANs

The number of users using wireless Local Area Network is increasing exponentially and their behavior is changing day after day. Nowadays, users of wireless LAN are using huge amount of bandwidth because of the explosive growth of some services and applications such as video sharing. This situation imposes massive pressure on the wireless LAN performance especially in term of fairness among wireless stations. The limited resources are not distributed fairly in saturated conditions. The most important resource is the access point buffer space. This importance is a result of access point being the bottleneck between two different types of networks. These two types are wired network with relatively huge bandwidth and wireless network with much smaller bandwidth. Also the unfairness problem is keep getting worse because of the greedy nature Transmission Control Protocol (TCP). In this paper, we conduct a comprehensive study on wireless LAN dynamics and proposed a new mathematical model that describes the performance and effects of its behavior. We validate the proposed model by using the simulation technique. The proposed model was able to produce very good approximation in most of the cases. It also gave us a great insight into the effective variables in the wireless LAN behavior and what are the dimensions of the unfairness problem.Comment: Journal of Telecommunications,Volume 1, Issue 1, pp105-112, February 201

An overview of neural networks use in anomaly intrusion detection systems

With the increasing number of computers being connected to the Internet, security of an information system has never been more urgent. Because no system can be absolutely secure, the timely and accurate detection of intrusions is necessary. This is the reason of an entire area of research, called Intrusion Detection Systems (IDS). Anomaly systems detect intrusions by searching for an abnormal system activity. But the main problem of anomaly detection IDS is that; it is very difficult to build, because of the difficulty in defining what is normal and what is abnormal. Neural network with its ability of learning has become one of the most promising techniques to solve this problem. This paper presents an overview of neural networks and their use in building anomaly intrusion systems

Monitoring biological rhythms through the dynamic model identification of an oyster population

International audienceThe measurements of valve activity in a population of bivalves under natural environmental conditions (16 oysters in the Bay of Arcachon, France) are used for a physiological model identification. A nonlinear auto-regressive exogenous (NARX) model is designed and tested. The method to design the model has two parts. 1) Structure of the model: The model takes into account the influence of environmental conditions using measurements of the sunlight intensity, the moonlight, tide levels, precipitation and water salinity levels. A possible influence of the internal circadian/circatidal clocks is also analyzed. 2) Least square calculation of the model parameters. Through this study, it is demonstrated that the developed dynamical model of the oyster valve movement can be used for estimating normal physiological rhythms of permanently immersed oysters and can be considered for detecting perturbations of these rhythms due to changes in the water quality, i.e. for ecological monitoring

A Fault Detection Method for Automatic Detection of Spawning in Oysters

Using measurements of valve activity (i.e., the distance between the two valves) in populations of bivalves under natural environmental conditions (16 oysters in the Bay of Arcachon, France, in 2007, 2013, and 2014), an algorithm for an automatic detection of the spawning period of oysters is proposed in this brief. Spawning observations are important in aquaculture and biological studies, and until now, such a detection is done through visual analysis by an expert. The algorithm is based on the fault detection approach and it works through the estimation of velocity of valve movement activity, which can be obtained by calculating the time derivative of the valve distance. A summarized description of the methods used for the derivative estimation is provided, followed by the associated signal processing and decision-making algorithm to determine spawning from the velocity signal. A protection from false spawning detection is also considered by analyzing the simultaneity in spawning. Through this study, it is shown that spawning in a population of oysters living in their natural habitat (i.e., in the sea) can be automatically detected without any human expertise, saving time and resources. The fault detection method presented in this brief can also be used to detect complex oscillatory behavior which is of interest to control engineering community.<br/

From Sensing to Predictions and Database Technique: A Review of TV White Space Information Acquisition in Cognitive Radio Networks

Strategies to acquire white space information is the single most significant functionality in cognitive radio networks (CRNs) and as such, it has gone some evolution to enhance information accuracy. The evolution trends are spectrum sensing, prediction algorithm and recently, geo‐location database technique. Previously, spectrum sensing was the main technique for detecting the presence/absence of a primary user (PU) signal in a given radio frequency (RF) spectrum. However, this expectation could not materialized as a result of numerous technical challenges ranging from hardware imperfections to RF signal impairments. To convey the evolutionary trends in the development of white space information, we present a survey of the contemporary advancements in PU detection with emphasis on the practical deployment of CRNs i.e. Television white space (TVWS) networks. It is found that geo‐location database is the most reliable technique to acquire TVWS information although, it is financially driven. Finally, using financially driven database model, this study compared the data‐rate and spectral efficiency of FCC and Ofcom TV channelization. It was discovered that Ofcom TV channelization outperforms FCC TV channelization as a result of having higher spectrum bandwidth. We proposed the adoption of an allinclusive TVWS information acquisition model as the future research direction for TVWS information acquisition techniques

From Sensing to Predictions and Database Technique: A Review of TV White Space Information Acquisition in Cognitive Radio Networks

Strategies to acquire white space information is the single most significant functionality in cognitive radio networks (CRNs) and as such, it has gone some evolution to enhance information accuracy. The evolution trends are spectrum sensing, prediction algorithm and recently, geo-location database technique. Previously, spectrum sensing was the main technique for detecting the presence/absence of a primary user (PU) signal in a given radio frequency (RF) spectrum. However, this expectation could not materialized as a result of numerous technical challenges ranging from hardware imperfections to RF signal impairments. To convey the evolutionary trends in the development of white space information, we present a survey of the contemporary advancements in PU detection with emphasis on the practical deployment of CRNs i.e. Television white space (TVWS) networks. It is found that geo-location database is the most reliable technique to acquire TVWS information although, it is financially driven. Finally, using financially driven database model, this study compared the data-rate and spectral efficiency of FCC and Ofcom TV channelization. It was discovered that Ofcom TV channelization outperforms FCC TV channelization as a result of having higher spectrum bandwidth. We proposed the adoption of an all-inclusive TVWS information acquisition model as the future research direction for TVWS information acquisition techniques

From sensing to predictions and database technique: a review of TV white space information acquisition in cognitive radio networks

Strategies to acquire white space information is the single most significant functionality in cognitive radio networks (CRNs) and as such, it has gone some evolution to enhance information accuracy. The evolution trends are spectrum sensing, prediction algorithm and recently, geo-location database technique. Previously, spectrum sensing was the main technique for detecting the presence/absence of a primary user (PU) signal in a given radio frequency (RF) spectrum. However, this expectation could not materialized as a result of numerous technical challenges ranging from hardware imperfections to RF signal impairments. To convey the evolutionary trends in the development of white space information, we present a survey of the contemporary advancements in PU detection with emphasis on the practical deployment of CRNs i.e. Television white space (TVWS) networks. It is found that geo-location database is the most reliable technique to acquire TVWS information although, it is financially driven. Finally, using financially driven database model, this study compared the data-rate and spectral efficiency of FCC and Ofcom TV channelization. It was discovered that Ofcom TV channelization outperforms FCC TV channelization as a result of having higher spectrum bandwidth. We proposed the adoption of an all-inclusive TVWS information acquisition model as the future research direction for TVWS information acquisition techniques

Autopsie d’une membrane d’osmose inverse usagée prélevée dans le Parc National du Banc d’Arguin (PNBA) en Mauritanie : cas d’étude de Teichitt

L’objectif de ce travail est d’étudier l’état de vieillissement d’une membrane d’osmose inverse (OI) usagée prélevée en Mauritanie sur une unité de dessalement installée par la coopération canarienne à Teichitt dans le parc national du banc d’Arguin et de lui appliquer une démarche d’autopsie. L’usure de la membrane est caractérisée par une augmentation significative de la perméabilité hydraulique (25 % d’augmentation) et une diminution de la rétention en sels (10 % à 30 % de diminution). Un modèle de transfert de matière de type diffusion-convection permet de montrer l’augmentation du caractère convectif du transfert, lorsque la pression transmembranaire augmente et en particulier au-delà de 15 bars. Ainsi, l’usure de la membrane d’OI induit son rapprochement vers un transfert de matière combiné de solubilisation-diffusion/convection, typique d’une opération de nanofiltration (NF). L’analyse topographique par AFM de la surface de la membrane usagée en comparaison de la membrane neuve laisse apparaître des « cavités » à plusieurs endroits de la surface usagée traduisant la dégradation physique de celle-ci. De plus, la rugosité de surface de la membrane usagée avec 74 nm est apparue supérieure à celle de la membrane neuve avec 54 nm, ce qui nous informe de la présence de matières colmatantes, dont la nature reste encore à déterminer. Par contre, l’étude de la dégradation chimique des membranes usagées et neuves par la détermination de leur point isoélectrique (PIE) à partir d’une mesure de potentiel d’écoulement transmembranaire ne montre pas de modifications significatives de ce paramètre (PIE = 2,5), preuve de la non-dégradation chimique interne de la membrane. Enfin, les résultats d’une étude statistique préliminaire sont présentés. Celle-ci consiste à évaluer l’hétérogénéité de l’usure en matière de perméabilité hydraulique et de rétention d’une solution de NaCl 0,1 M à 15 bars et 19 °C, pour six coupons différents pris sur les trois feuilles de membranes constituant le module d’osmose inverse usagé. Une tendance se dégage, elle montre en particulier que l’usure est hétérogène, non seulement au sein d’une même feuille de membrane, mais aussi au sein des différentes membranes constituant le module. En résumé, il est observé pour la première fois qu’une vieille membrane d’OI employée pendant deux années pour le dessalement d’eau de mer, dans les conditions d’utilisation sahariennes en Mauritanie (sans pré-traitements), acquiert une microporosité qui lui confère les propriétés d’une membrane de nanofiltration.Currently used reverse osmosis (RO) membranes from desalination units are burned at the end of their life as membranes for seawater desalination. In the future, a possible alternative would be to reuse the old RO membranes as nanofiltration (NF), ultrafiltration (UF) or microfiltration (MF) membranes, i.e. for wastewater treatments, but before reuse, the level of RO membrane degradation must be evaluated by autopsy studies.Our goal in the present study was to demonstrate for the first time that a used RO membrane could be used for nanofiltration. The used RO membrane was purchased from a desalination bench scale unit based in the town of Teichitt (in north-west Nouakchott, Mauritania). Membrane autopsy studies showed an increase in its hydraulic permeability (25%) and a concurrent decrease in its salt rejection behaviour (10% to 30%). We also studied the modification of mass transfer before and after ageing, and demonstrated the onset of a convective component in the mass transfer of salts and an increase in membrane hydraulic permeability. Furthermore, the determination of the isoelectric point (IEP) of the membrane, using streaming potential measurements across the membranes, showed no change in IEP, with a value of 2.5 ± 0.2 . A preliminary study, based on a statistical evaluation of membrane degradation from hydraulic permeability and salt rejection experiments, showed heterogeneous wear of the membrane (most important in the centre). Finally, we observed for the first time that after two years of use for desalination, a used RO membrane had acquired a microporosity that corresponded to the properties of a new NF membrane