IEEE ID: #45530
- References - El Houssine El Mazoudi. Modélisation, Algorithmes de Commande et. Capteurs Logiciels des Systèmes Dynamiques : Application en Gestion de Stock halieutique, Faculté des sciences et techniques Fes (2008). - El Houssine El Mazoudi , N. Elalami & M. Mrabti, Observer design for a fish population model. Revue Africaine de la Recherche en Informatique et Mathématiques Appliquées, ARIMA. Special issues, 2008, Vol. 8 pp. 1-17. - A. Ait Kaddour; El Houssine El Mazoudi; N. Elalami, Multimodel software sensor for a harvested fish population system, Int. J. of Modelling, Identification and Control, 2013 Vol.19. - Ait Kaddour A, Benjelloun K, Elalami N, El Houssine El Mazoudi K, Multimodèle robust observer for an uncertain fish population model, Mathematical biosciences, 2014 Vol. 256.
- Biography El Houssine El Mazoudi received his Master in automatic control from the faculty of science, University Cadi Ayyad Marrakech, Morocco. In April 2008, he obtained his Doctorate in automatic control and computing from the faculty of sciences and techniques, Fes, Morocco. Currently, he is a professor (HDR) at Cadi Ayad University, Morocco. His teachings include applied computing, linear algebra, calculus and mathematics for business. He was a dynamic member of the automatic control Group of the laboratory of Automatic Control and Industrial Computing LA2I, Department of Electrical Engineering, Mohammadia School of Engineering, Morocco. He is a member in the Laboratory of Energy, Environment and economic resources (GREER) University cadi ayyad Marrakech. He is also a member of the Laboratory of Systems Analysis, Information Processing and Integrated Management (LASTIMI), University Mohammed V Rabat. His research works concern essentially automatic control of non-linear systems for the management of natural resources and bio-environmental systems.
Worshop 1: Software sensors for the measurement of the biomass for some fisheries system, |
|---|
Description
In the last years, overfishing had a drastic impact on the marine resources. The heavy use of these resources means that key stakeholders must deal with rapid declines in some fish stocks, which are affecting national economies and local communities’ socio-economic well being, and even their food security. Therefore, fish stock management is a problem that is receiving much attention. Measurements of the biomass are mandatory to describe the evolution of biological system and to form the basis of scientific advice about the exploitation of renewable resources. The aim is to make a policy decision that guarantees a sustainable supply of the resource and also to achieve maximum socio-economic benefits. In fishery systems, it is often difficult or expensive to measure all the state variables characterising the evolution of a given population system. Indeed, using some hardware sensors (acoustic methods) to quantify the biomass of fisheries presents many drawbacks: they are expensive, not always accurate and not widely used yet. Therefore, the question arises whether from the observation of certain indicators of the considered system, the whole state of the population system can be recovered or at least estimated. For this purpose, we deal in this contribution with a model that describes the dynamics of a population divided in stage-classes (according to age, length or weight) and submitted to the fishing action. We show that a tool from non-linear control theory called ‘software sensor’ can be helpful to address the resource stock estimation in the field of renewable resource management. Software sensor (also called observer) is the association of a sensor (hardware), which allows online measurements of some process variables, with an estimation algorithm (software) in order to provide online estimates of the immeasurable variables, model parameters or to overcome measurement delays. Thus, the problem of software sensor design in fisheries is how to get an estimate for the state of the biomass from the knowledge of the system model, fishing effort and total caught. In this sense, I wil pressent the moste softwar sensors techniques used for management of fisheries system. |
Pr. El Houssine EL MAZOUDI |
| Automatic control of non-linear systems for the management of natural resources and bio-environmental systems. |
- References - Reference : Ronald L. Krutz and Russell Dean Vines, the CEH prep guide : the Comprehensive Guide to Certified Ethical Hacking, whiley publishing, 2007.
- Biography Hakim EL FADILI received a Ph.D. degree in image processing and machine intelligence from Faculty of Science, University Sidi Mohamed Ben Abdellah, Fez, Morocco in 2006. He is currently a professor of the Department of computer engineering, National School of Applied Sciences Fez Morocco. He worked for the Moroccan Ministry of Justice as project manager in the field of IT network management and software development from 2002 to 2010. He has published more than 30 papers in various journals and international conferences. He has serving as reviewer in repute journal like IEEE pattern recognition and machine intelligence (PAMI), journal of Journal of Information Processing Systems (JIPS), WSEAS and many international conferences. His current research is mainly focused on image processing, pattern recognition and machine intelligence, especially neural networks and genetic algorithms. In addition to those research fields, he teaches security algorithms and computer networks protocols since 2010.
Worshop 2: Ethical cyberattack against secured shell and apache service and related protection measures |
|---|
Description
Denial of Service (DoS) and Distributed Denial of Service, as defined in the ethical hacking certification (see ref.), is an Overwhelming of a system’s resources so that it is unable to provide the required services; in the distributed mode, messages to a target computer can be launched from large numbers of hosts where software has been planted to become active at a particular time or upon receiving a particular command. DoS attacks reduce or eliminate the availability of computing resources to authorized and legitimate users. The main goal of this workshop is the simulation of the DOS attack against the SSH and apache services and the decoding of the corresponding operating mode. Specifically, the syn flooding mecanism is depicted and a number of measures are shown which can be taken to reduce the chances of a successful DoS attack on an information system. |
Pr. Hakim EL FADILI |
- Only registered participants benefited from the workshops.
- The insriptions are free but the number of places is limited.
- Participation in the workshops will be crowned by nominative certificates of participation
- Please send an email as soon as possible to the corresponding email and wait for the final validation of your participation.