A new approach to unravel metabolic regulations. Application to microalgae growth and lipid production under day/night cycles and nitrogen starvation

A new approach to unravel metabolic regulations. Application to microalgae growth and lipid production under day/night cycles and nitrogen starvation. BioSynSys 2015 : 1er colloque du GDR "Biologie de Synthèse et des Systèmes

Investigation of airborne particles by on-line single-particle mass spectrometry with novel ionization approaches

This work's objective was to develop new ionization methods to enable the detection of organic/inorganic pollutants from single airborne particles. For the first time, the universal laser desorption/ionization was successfully combined with the selective resonance-enhanced multiphoton ionization. This facilitates the analysis of the distribution of hazardous PAHs on single-particles and conventional methods of source apportionment according to particle size. Significant progress in the development of single-particle analysis, and the understanding of atmospheric particles could be achieved

Modeling Pitch Perception With an Active Auditory Model Extended by Octopus Cells

Pitch is an essential category for musical sensations. Models of pitch perception are vividly discussed up to date. Most of them rely on definitions of mathematical methods in the spectral or temporal domain. Our proposed pitch perception model is composed of an active auditory model extended by octopus cells. The active auditory model is the same as used in the Stimulation based on Auditory Modeling (SAM), a successful cochlear implant sound processing strategy extended here by modeling the functional behavior of the octopus cells in the ventral cochlear nucleus and by modeling their connections to the auditory nerve fibers (ANFs). The neurophysiological parameterization of the extended model is fully described in the time domain. The model is based on latency-phase en- and decoding as octopus cells are latency-phase rectifiers in their local receptive fields. Pitch is ubiquitously represented by cascaded firing sweeps of octopus cells. Based on the firing patterns of octopus cells, inter-spike interval histograms can be aggregated, in which the place of the global maximum is assumed to encode the pitch

Memristors

This Edited Volume Memristors - Circuits and Applications of Memristor Devices is a collection of reviewed and relevant research chapters, offering a comprehensive overview of recent developments in the field of Engineering. The book comprises single chapters authored by various researchers and edited by an expert active in the physical sciences, engineering, and technology research areas. All chapters are complete in itself but united under a common research study topic. This publication aims at providing a thorough overview of the latest research efforts by international authors on physical sciences, engineering, and technology,and open new possible research paths for further novel developments

Modeling and Simulation in Engineering

This book provides an open platform to establish and share knowledge developed by scholars, scientists, and engineers from all over the world, about various applications of the modeling and simulation in the design process of products, in various engineering fields. The book consists of 12 chapters arranged in two sections (3D Modeling and Virtual Prototyping), reflecting the multidimensionality of applications related to modeling and simulation. Some of the most recent modeling and simulation techniques, as well as some of the most accurate and sophisticated software in treating complex systems, are applied. All the original contributions in this book are jointed by the basic principle of a successful modeling and simulation process: as complex as necessary, and as simple as possible. The idea is to manipulate the simplifying assumptions in a way that reduces the complexity of the model (in order to make a real-time simulation), but without altering the precision of the results

Approche comportementale pour la validation et le test système des systèmes embarqués : Application aux dispositifs médicaux embarqués

A Biomedical research seeks good reasoning for solving medical problems, based on intensive work and great debate. It often deals with beliefs or theories that can be proven, disproven or often refined after observations or experiments. The problem is how to make tests without risks for patients, including variability and uncertainty on a number of parameters (patients, evolution of disease, treatments …). Nowadays, medical treatment uses more and more embedded devices such as sensors, actuators, and controllers. Treatment depends on the availability and well-functioning of complex electronic systems, comprising thousands of lines of codes. A mathematical representation of patient or device is presented by a number of variables which are defined to represent the inputs, the outputs and a set of equations describing the interaction of these variables. The objective of this research is to develop tools and methodologies for the development of embedded systems for medical fields. The goal is to be able to model and jointly simulate the medical device as well the human body, at least the part of the body involved in the medical device, to analyze the performance and quality of service (QoS) of the interaction of the device with the human body. To achieve this goal our study focused on several points described below. After starting by defining a prototype of a new global and flexible architecture of mathematical model of human body, which is able to contain required data, we begin by proposing a new global methodology for modeling and simulation human body and medical systems, in order to better understand the best way to model and simulate these systems and for detecting performance and the quality of services of all system components. We use two techniques that help to evaluate the calculated QoS value. The first one calculates an index of severity which indicates the severity of the case studied. The second one using a normalization function that represents the simulation as a point in order to construct a new error grid and use it to evaluate the accuracy of value measured by patients. Using Keil development tools designed for ARM processors, we have declared a new framework in the objective to create a new tester model for the glucose-insulin system, and to define the basic rules for the tester which has the ability to satisfy well-established medical decision criteria. The framework begins by simulating a mathematical model of the human body, and this model was developed to operate in the closed loop of the glucose insulin. Then, the model of artificial pancreas has been implemented to control the mathematical model of human body. Finally a new tester model was created in order to analyze the performance of all the components of the glucose-insulin system.. We have used the suitability of partially observable Markov decision processes to formalize the planning of clinical management.Les progrès des technologies de l'information et de la communication, des MEMS, des capteurs, actionneurs, etc. ont permis l’émergence de différents dispositifs biomédicaux. Ces nouveaux dispositifs, souvent embarqués, contribuent considérablement à l'amélioration du diagnostic et du traitement de certaines maladies, comme le diabète par exemple. Des dispositifs embarqués encore plus complexes sont en cours d’élaboration, leur mise en œuvre nécessite des années de recherche et beaucoup d’expérimentation. Le cœur artificiel, encore en phase de réalisation, est un exemple concret de ces systèmes complexes. La question de la fiabilité, du test de fonctionnement et de sureté de ces dispositifs reste problématique et difficile à résoudre. Plusieurs paramètres (patient, évolution de la maladie, alimentation, activité, traitement, etc.) sont en effet à prendre en compte et la conséquence d’une erreur de fonctionnement peut être catastrophique pour le patient. L'objectif de cette thèse est de développer des outils et des approches méthodologiques permettant la validation et le test au niveau système de ce type de dispositifs. Il s’agit précisément d’étudier la possibilité de modéliser et simuler d’une manière conjointe un dispositif médical ainsi que son interaction avec le corps humain, du moins la partie du corps humain concernée par le dispositif médical, afin de mesurer les performances et la qualité de services (QoS) du dispositif considéré. Pour atteindre cet objectif notre étude a porté sur plusieurs points. Nous avons d’abord mis en évidence une architecture simplifiée d’un modèle de corps humain permettant de représenter et de mieux comprendre les différents mécanismes du corps humain. Nous avons ensuite exploré un ensemble de métriques et une approche méthodologique générique permettant de qualifier la qualité de service d’un dispositif médical donné en interaction avec le corps humain. Afin de valider notre approche, nous l’avons appliquée à un dispositif destiné à la régulation du taux de sucre pour des patients atteints du diabète. La partie du corps humain concernée par cette pathologie à savoir le pancréas a été simulé par un modèle simplifié que nous avons implémenté sur un microcontrôleur. Le dispositif de régulation de l’insuline quant à lui a été simulé par un modèle informatique écrit en C. Afin de rendre les mesures de performances observées indépendantes d’un patient donné, nous avons étudiés différentes stratégies de tests sur différentes catégories de patients. Nous avons pour cette partie mis en œuvre un générateur de modèles capable de reproduire différents états physiologiques de patients diabétiques. L’analyse et l’exploitation des résultats observés peut aider les médecins à considérablement limités les essais cliniques sur des vrai patients et les focaliser uniquement sur les cas les plus pertinent

URI Undergraduate and Graduate Course Catalog 2022-2023

This is a downloadable PDF version of the University of Rhode Island course catalog.https://digitalcommons.uri.edu/course-catalogs/1074/thumbnail.jp

First Annual Workshop on Space Operations Automation and Robotics (SOAR 87)

Several topics relative to automation and robotics technology are discussed. Automation of checkout, ground support, and logistics; automated software development; man-machine interfaces; neural networks; systems engineering and distributed/parallel processing architectures; and artificial intelligence/expert systems are among the topics covered