Search

Your search keyword '"Vassal, P."' showing total 565 results
Start Over Author "Vassal, P."
565 results on '"Vassal, P."'

1. The Loewner framework for parametric systems: Taming the curse of dimensionality

Author

Antoulas, Athanasios C., Gosea, Ion Victor, and Poussot-Vassal, Charles

Subjects
Mathematics - Numerical Analysis, Electrical Engineering and Systems Science - Systems and Control, 93A15, 93A30, 93B11, 93B15, 93C05, 93C80
Abstract

The Loewner framework is an interpolatory approach designed for approximating linear and nonlinear systems. The goal here is to extend this framework to linear parametric systems with an arbitrary number n of parameters. One main innovation established here is the construction of data-based realizations for any number of parameters. Equally importantly, we show how to alleviate the computational burden, by avoiding the explicit construction of large-scale n-dimensional Loewner matrices of size $N \times N$. This reduces the complexity from $O(N^3)$ to about $O(N^{1.4})$, thus taming the curse of dimensionality and making the solution scalable to very large data sets. To achieve this, a new generalized multivariate rational function realization is defined. Then, we introduce the n-dimensional multivariate Loewner matrices and show that they can be computed by solving a coupled set of Sylvester equations. The null space of these Loewner matrices then allows the construction of the multivariate barycentric transfer function. The principal result of this work is to show how the null space of the n-dimensional Loewner matrix can be computed using a sequence of 1-dimensional Loewner matrices, leading to a drastic computational burden reduction. Finally, we suggest two algorithms (one direct and one iterative) to construct, directly from data, multivariate (or parametric) realizations ensuring (approximate) interpolation. Numerical examples highlight the effectiveness and scalability of the method., Comment: 32 pages, 4 figures

Published
2024

2. Structure-Preserving Discretization and Model Order Reduction of Boundary-Controlled 1D Port-Hamiltonian Systems

Author

Toledo-Zucco, Jesus-Pablo, Matignon, Denis, Poussot-Vassal, Charles, and Gorrec, Yann Le

Subjects
Mathematics - Numerical Analysis, Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper presents a systematic methodology for the discretization and reduction of a class of one-dimensional Partial Differential Equations (PDEs) with inputs and outputs collocated at the spatial boundaries. The class of system that we consider is known as Boundary-Controlled Port-Hamiltonian Systems (BC-PHSs) and covers a wide class of Hyperbolic PDEs with a large type of boundary inputs and outputs. This is, for instance, the case of waves and beams with Neumann, Dirichlet, or mixed boundary conditions. Based on a Partitioned Finite Element Method (PFEM), we develop a numerical scheme for the structure-preserving spatial discretization for the class of one-dimensional BC-PHSs. We show that if the initial PDE is passive (or impedance energy preserving), the discretized model also is. In addition and since the discretized model or Full Order Model (FOM) can be of large dimension, we recall the standard Loewner framework for the Model Order Reduction (MOR) using frequency domain interpolation. We recall the main steps to produce a Reduced Order Model (ROM) that approaches the FOM in a given range of frequencies. We summarize the steps to follow in order to obtain a ROM that preserves the passive structure as well. Finally, we provide a constructive way to build a projector that allows to recover the physical meaning of the state variables from the ROM to the FOM. We use the one-dimensional wave equation and the Timoshenko beam as examples to show the versatility of the proposed approach.

Published
2024

3. Scattering-Passive Structure-Preserving Finite Element Method for the Boundary Controlled Transport Equation with a Moving Mesh

Author

Toledo-Zucco, Jesus-Pablo, Matignon, Denis, and Poussot-Vassal, Charles

Subjects
Mathematics - Numerical Analysis, Electrical Engineering and Systems Science - Systems and Control
Abstract

A structure-preserving Finite Element Method (FEM) for the transport equation in one- and two-dimensional domains is presented. This Distributed Parameter System (DPS) has non-collocated boundary control and observation, and reveals a scattering-energy preserving structure. We show that the discretized model preserves the aforementioned structure from the original infinite-dimensional system. Moreover, we analyse the case of moving meshes for the one-dimensional case. The moving mesh requires less states than the fixed one to produce solutions with a comparable accuracy, and it can also reduce the overshoot and oscillations of Gibbs phenomenon produced when using the FEM. Numerical simulations are provided for the case of a one-dimensional transport equation with fixed and moving meshes.

Published
2024

4. Flow separation control design with experimental validation

Author

Arnoult, T., Acher, G., Nowinski, V., Vuillemin, P., Briat, C., Pernod, P., Ghouila-Houri, C., Talbi, A., Garnier, E., and Poussot-Vassal, C.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Flow control aims at modifying a natural flow state to reach an other flow state considered as advantageous. In this paper, active feedback flow separation control is investigated with two different closed-loop control strategies, involving a reference signal tracking architecture. Firstly, a data-driven control law, leading to a linear (integral) controller is employed. Secondly, a phenomenological/model-driven approach, leading to a non-linear positive (integral) control strategy is investigated. While the former benefits of a tuning simplicity, the latter prevents undesirable effects and formally guarantees closed-loop stability. Both control approaches were validated through wind tunnel experiments of flow separation over a movable NACA 4412 plain flap. These control laws were designed with respect to hot film measurements, performed over the flap for different deflection angles. Both control approaches proved efficient in avoiding flow separation. The main contribution of this work is to provide practitioners simple but yet efficient ways to design a flow separation controller. In addition, a complete validation campaign data-set is provided.

Published
2023

6. Data-driven port-Hamiltonian structured identification for non-strictly passive systems

Author

Poussot-Vassal, Charles, Matignon, Denis, Haine, Ghilslain, and Vuillemin, Pierre

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Dynamical Systems, Mathematics - Numerical Analysis
Abstract

In this work, we detail a procedure to construct a reduced order model on the basis of frequency-domain data, that preserves the non-strictly passive property and the port-Hamiltonian structure. The proposed scheme is based on Benner et al. (2020) contribution, which has been adapted (i) to handle non-strictly passive model, and (ii) to handle numerical issues observed when applying the Loewner framework on complex configurations. We validate the proposed scheme on a very complex two-dimensional wave equation, for which the discretized version preserves the port-Hamiltoninan form., Comment: Accepted at European Control Conference 2023

Published
2022

7. SIOPE and ESOP recommendations for extemporaneous compounding of oral liquid medicine formulations in paediatric oncology

Author

Marko Otsokolhich, Maxime Annereau, Tiene Bauters, Laszlo Horvath, Chahinez Nehal, Sherif Kamal, Gilles Vassal, and Svetlana Buraja

Subjects
Paediatric oncology, Pharmacy, Extemporaneous preparation, Compounding, Age appropriate medicine formulations, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Introduction: Scarcity of age appropriate formulations for orally administered medicines for paediatric malignancies is a critical and ongoing issue which necessitates urgent solutions. According to JARC Survey 27 % of oral medicines were never available in child-friendly formulations (Vassal et al., 2021 [2]). Pharmacists from the European Society of Oncology Pharmacy Global (ESOP) and the European Society for Pediatric Oncology (SIOPE) have collaborated to provide a document summarising literature data on this topic and a set of practical instructions on the preparation of extemporaneous oral liquid medicines. Material and methods: Literature review was conducted for the preparation of oral medicines for paediatric cancer, through Pubmed 2.0. A table was drawn up with necessary information for medicine preparation. We adapted the classification model of the molecule stability ranking of the International database of stability for injectable drugs, Stabilis® (Class A–C). Results: A total of 126 articles were selected and analysed. All commercially available marketed liquid oral medications used in paediatric cancer were overviewed using globally accessible drug databases and compiled in a table with appropriate indications. Based on the literature review, 28 formulations for 13 different active ingredients for chemotherapy and 35 formulations for 16 different active ingredients for supportive therapy were compiled. Conclusions: Development of child-appropriate formulations of anticancer medicines by the pharmaceutical industry should be incentivised towards marketing authorisation to enhance accessibility. The results of this study could help facilitate creation of European standards for extemporaneous preparation and persuade researchers in the field of paediatric oncology on the way forward.

Published
2024
Full Text
View/download PDF

8. AcSé-ESMART, a European precision cancer medicine proof-of-concept platform trial

Author

Geoerger, Birgit, Paoletti, Xavier, Bautista, Francisco, Gatz, Susanne A., Marshall, Lynley V., André, Nicolas, Berlanga, Pablo, Ducassou, Stephane, Pasqualini, Claudia, Casanova, Michela, Zwaan, C. Michel, Nysom, Karsten, Rubino, Jonathan, Goff, Delphine Vuillier-Le, Archambaud, Baptiste, Abbou, Samuel, Schleiermacher, Gudrun, Dufour, Christelle, Blanc, Patricia, Hoog-Labouret, Natalie, Buzyn, Agnes, and Vassal, Gilles

Published
2023
Full Text
View/download PDF

9. Constructive interpolation points selection in the Loewner framework

Author

Vuillemin, Pierre and Poussot-Vassal, Charles

Subjects
Mathematics - Numerical Analysis, Electrical Engineering and Systems Science - Systems and Control
Abstract

This note describes a constructive heuristic to select frequencies of interest within the context of reduced-order modelling by interpolation. The approach is described here through the Loewner framework. Numerical illustrations highlight the benefit it can bring to decrease the required number of interpolation points which is key when the data come from numerically expensive solvers.

Published
2021

10. Data-driven modeling and control of large-scale dynamical systems in the Loewner framework

Author

Gosea, Ion Victor, Poussot-Vassal, Charles, and Antoulas, Athanasios C.

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Numerical Analysis, Mathematics - Optimization and Control, 93C05, 93C10, 93C43, 93C35, 37N35
Abstract

In this contribution, we discuss the modeling and model reduction framework known as the Loewner framework. This is a data-driven approach, applicable to large-scale systems, which was originally developed for applications to linear time-invariant systems. In recent years, this method has been extended to a number of additional more complex scenarios, including linear parametric or nonlinear dynamical systems. We will provide here an overview of the latter two, together with time-domain extensions. Additionally, the application of the Loewner framework is illustrated by a collection of practical test cases. Firstly, for data-driven complexity reduction of the underlying model, and secondly, for dealing with control applications of complex systems (in particular, with feedback controller design)., Comment: 32 pages, 13 figures

Published
2021

11. Performance evaluation of gust load alleviation systems for flexible aircraft via optimal control

Author

Vuillemin, Pierre, Martin, David Quero, and Poussot-Vassal, Charles

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The dynamical response of an aircraft subject to gust perturbations is a key element in a preliminary design phase. In particular, the loads induced by gusts along the wing should not exceed some limit values and should even ideally be decreased. Active control is one lever to address this problem. However, evaluating the benefit that active control may bring considering some actuators characteristics or some delay in the loop is a difficult task, especially in the early design phase. This problem is addressed in this paper with an open-loop optimal control framework and more specifically with a direct transcription method resulting in a linear optimisation problem. The approach is illustrated on a realistic aeroelastic aircraft model built with a coupled fluid-structure solver which order is reduced to decrease the number of optimisation variables.

Published
2021

12. SPIRAL2 Cryomodules Models: a Gateway to Process Control and Machine Learning

Author

Vassal, Adrien, Ghribi, Adnan, Millet, François, Bonne, François, Bonnay, Patrick, and Bernaudin, Pierre-Emmanuel

Subjects
Physics - Accelerator Physics
Abstract

From simple physical systems to full production lines, numerical models could be used to minimize downtime and to optimize performances. In this article, the system of interest is the SPIRAL2 (Syst\`eme de Production d'Ions RAdioactifs en Ligne de 2e g\'en\'eration) particles accelerator cryogenic system. This paper illustrates three totally different applications based on a SPIRAL2 cryostat model: optimal controller synthesis, virtual sensor synthesis and anomaly detection. The tow firsts applications have been deployed on the system. Experimental results are used to illustrate the benefits of such applications., Comment: 11 pages, 8 figures

Published
2021

13. First full cool down of the SPIRAL 2 superconducting LINAC

Author

Ghribi, Adnan, Aburas, Muhammad, Baumont, Yoann, Bernaudin, Pierre-Emmanuel, Bonneau, Stéphane, Duteil, Guillaume, Ferdinand, Robin, Lechartier, Michel, Leyge, Jean-François, Lescalié, Guillaume, Thivel, Yann, Trudel, Arnaud, Valentin, Laurent, and Vassal, Adrien

Subjects
Physics - Accelerator Physics, Physics - Fluid Dynamics
Abstract

SPIRAL 2 is a high intensity heavy ions beams accelerator project that has been going on for more than 10 years now. Countless efforts in different disciplines made it what it is today. One of the most important steps after the set up of the different equipments has been the very first full cool down of the superconducting cavities in an accelerator operation type configuration. While this has been a major achievement for the SPIRAL 2 teams, it also hi-lighted new challenges and constraints that would have to be addressed in order to have a high availability rate of the beam from the cryogenics side. This paper retraces this particular episode.

Published
2021
Full Text
View/download PDF

14. Cryogenic thermo-acoustic oscillations highlight and study in the SPIRAL2 superconducting LINAC

Author

Ghribi, Adnan, Aburas, Muhammad, Baumont, Yoann, Bernaudin, Pierre-Emmanuel, Bonneau, Stéphane, Leyge, Jean-François, Thermeau, Jean-Pierre, Thivel, Yann, Valentin, Laurent, and Vassal, Adrien

Subjects
Physics - Accelerator Physics, Physics - Fluid Dynamics, Physics - Instrumentation and Detectors
Abstract

Cryogenic thermoacoustic oscillations is an area of interest of several studies. For superconducting accelerators, it is an unwanted phenomena that we usually want to get rid off. The SPIRAL2 superconducting accelerator had distributed Taconis all over its cryostats. This paper spans the different steps from their first detection to their damping with a highlight on the methods and the instrumentation that has been used. The presented study also sets the ground for a real life experimental investigation of thermo-ascoustics in complex geometries such as superconducting LINACs. With modern Big data analysis and simulation tools, it also sets the ground for the developments of new data linked codes that fit these complex situations.

Published
2021

15. Polyaniline-Based Flexible Sensor for pH Monitoring in Oxidizing Environments

Author

Liam Bignall, Claire Magnenet, Catheline Ramsamy, Sophie Lakard, Simon Vassal, and Boris Lakard

Subjects
flexible sensors, pH sensors, polyaniline, surfactants, electrochemistry, Biochemistry, QD415-436
Abstract

Measuring pH in oxidizing solutions is a crucial issue in areas such as aquaculture, water treatment, industrial chemistry, and environmental analysis. For this purpose, a low-cost potentiometric flexible sensor using a polymer film as a pH-sensitive material has been developed in this study. The sensor consists in a polyaniline film electrodeposited from a sulfuric acid solution on a gold electrode previously deposited on a flexible polyimide substrate. The resulting polyaniline-based pH sensors showed an interesting performance detection in aqueous solution, leading to sensitive (73.4 mV per unit pH) and reproducible (standard deviation of 1.75) responses over the entire pH range from 3 to 8. On the contrary, they were inoperative in the presence of oxidizing hypochlorite ions. Thus, other polyaniline films were electrodeposited in the presence of cetyltrimethylammonium bromide or Tritonx100 surfactant in an attempt to improve the sensing performance of the pH sensors in oxidizing solutions. The pH sensors based on polyaniline and Tritonx100 surfactant were then found to be sensitive (62.3 mV per unit pH) and reproducible (standard deviation of 1.52) in aqueous solutions containing hypochlorite ions. All polyaniline films were also characterized by profilometry and electronic microscopy to correlate the physicochemical features with the performance of the sensors.

Published
2024
Full Text
View/download PDF

16. Interpolatory Methods for Generic BizJet Gust Load Alleviation Function

Author

Poussot-Vassal, Charles, Vuillemin, Pierre, Cantinaud, Olivier, and Sève, Florian

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Dynamical Systems, Mathematics - Optimization and Control
Abstract

The paper's main contribution concerns the use of interpolatory methods to solve end to end industrial control problems involving complex linear dynamical systems. More in details, contributions show how the rational data and function interpolation framework is a pivotal tool (i) to construct (frequency-limited) reduced order dynamical models appropriate for model-based control design and (ii) to accurately discretise controllers in view of on-board computer-limited implementation. These contributions are illustrated along the paper through the design of an active feedback gust load alleviation function, applied on an industrial generic business jet aircraft use-case. The closed-loop validation and performances evaluation are assessed through the use of an industrial dedicated simulator and considering certification objectives. Although application is centred on aircraft applications, the method is not restrictive and can be extended to any linear dynamical systems., Comment: 23 pages, 9 figures, submitted to journal

Published
2020
Full Text
View/download PDF

17. Mixed interpolatory and inference non-intrusive reduced order modeling with application to pollutants dispersion

Author

Poussot-Vassal, Charles, Sabatier, Tiphaine, Sarrat, Claire, and Vuillemin, Pierre

Subjects
Mathematics - Dynamical Systems, Computer Science - Computational Engineering, Finance, and Science, Electrical Engineering and Systems Science - Systems and Control, 41A20, 68U07, 68U35, 76F20, 93A15, 93B15, 93B30, 93C23, 93C80, 93C95
Abstract

On the basis of input-output time-domain data collected from a complex simulator, this paper proposes a constructive methodology to infer a reduced-order linear, bilinear or quadratic time invariant dynamical model reproducing the underlying phenomena. The approach is essentially based on linear dynamical systems and approximation theory. More specifically, it sequentially involves the interpolatory Pencil and Loewner framework, known to be both very versatile and scalable to large-scale data sets, and a linear least square problem involving the raw data and reduced internal variables. With respect to intrusive methods, no prior knowledge on the operator is needed. In addition, compared to the traditional non-intrusive operator inference ones, the proposed approach alleviates the need of measuring the original full-order model internal variables. It is thus applicable to a wider application range than standard intrusive and non-intrusive methods. The rationale is successfully applied on a large eddy simulation of a pollutants dispersion case over an airport area involving multi-scale and multi-physics dynamical phenomena. Despite the simplicity of the resulting low complexity model, the proposed approach shows satisfactory results to predict the pollutants plume pattern while being significantly faster to simulate., Comment: 25 pages, 10 figures, submitted to journal

Published
2020

18. Interpolation-based irrational model control design and stability analysis

Author

Poussot-Vassal, Charles, Kergus, Pauline, and Vuillemin, Pierre

Subjects
Mathematics - Optimization and Control, Mathematics - Dynamical Systems
Abstract

The versatility of data-driven approximation by interpolatory methods, originally settled for model approximation purpose, is illustrated in the context of linear controller design and stability analysis of irrational models. To this aim, following an academic driving example described by a linear partial differential equation, it is shown how the Loewner-based interpolation may be an essential ingredient for control design and stability analysis. More specifically, the interpolatory framework is first used to approximate the irrational model by a rational one that can be used for model-based control, and secondly, it is used for direct data-driven control design, showing equivalent results. Finally, this interpolation framework is employed for estimating the stability of the interconnection of the irrational model with a rational controller., Comment: Book chapter, 17 pages, 11 figures

Published
2020

19. Interpolatory-based data-driven pulsed fluidic actuator control design and experimental validation

Author

Poussot-Vassal, Charles, Kergus, Pauline, Kerhervé, Franck, Sipp, Denis, and Cordier, Laurent

Subjects
Physics - Fluid Dynamics, Electrical Engineering and Systems Science - Systems and Control, Mathematics - Optimization and Control
Abstract

Pulsed fluidic actuators play a central role in the fluid flow experimental control strategy to achieve better performances of aeronautic devices. In this paper, we demonstrate, through an experimental test bench, how the interpolatory-based Loewner Data-Driven Control (L-DDC) framework is an appropriate tool for accurately controlling the outflow velocity of this family of actuators. L-DDC combines the concept of ideal controller with the Loewner framework in a single data-driven rationale, appropriate to experimental users. The contributions of the paper are, first, to emphasise the simplicity and versatility of such a data-driven rationale in a constrained experimental setup, and second, to solve some practical fluid engineers concerns by detailing the complete workflow and key ingredients for successfully implementing a pulsed fluidic actuator controller from the data acquisition to the control implementation and validation stages., Comment: 20 pages, 7 figures

Published
2020
Full Text
View/download PDF

21. Comparative Analysis of Lumbar Disc Herniation Treatment Outcomes: Conventional vs. Endoscopic Techniques in a Prospective Multicenter Study

Author

G. Lonjon, A. Perez, Y. Sabah, N. Pellet, A. Dhenin, F.X. Ferracci, J. Lebhar, R. Gauthé, M. Campana, S. Ghailane, J.E. Castelain, M. Dupuy, M. Vassal, A. Delmotte, A. Perrin, N. Lonjon, J. Cristini, P. Marinho, V. Gilard, V. Challier, T. Chevillotte, P. Hannequin, A. Gennari, R. Pietton, J. Delambre, S. Queinnec, G. Guerin, J. Meyblum, and A. Darnis

Subjects
Neurology. Diseases of the nervous system, RC346-429
Published
2024
Full Text
View/download PDF

22. On Loewner data-driven control for infinite-dimensional systems

Author

Gosea, Ion Victor, Poussot-Vassal, Charles, and Antoulas, Athanasios C.

Subjects
Mathematics - Optimization and Control, Electrical Engineering and Systems Science - Systems and Control, 93C05, 93C57, 93D25
Abstract

In this paper, we address extensions of the Loewner Data-Driven Control (L-DDC) methodology. First, this approach is extended by incorporating two alternative approximation methods known as Adaptive-Antoulas-Anderson (AAA) and Vector Fitting (VF). These algorithms also include least squares fitting which provides additional flexibility and enables possible adjustments for control tuning. Secondly, the standard model reference data-driven setting is extended to handle noise affecting the data and uncertainty in the closed-loop objective function. These proposed adaptations yield a more robust data-driven control design., Comment: 9 pages, 4 figures

Published
2020

23. Optimal Modal Truncation

Author

Vuillemin, Pierre, Maillard, Adrien, and Poussot-Vassal, Charles

Subjects
Mathematics - Optimization and Control, Mathematics - Dynamical Systems
Abstract

This paper revisits the modal truncation from an optimisation point of view. In particular, the concept of dominant poles is formulated with respect to different systems norms as the solution of the associated optimal modal truncation problem. The latter is reformulated as an equivalent convex integer or mixed-integer program. Numerical examples highlight the concept and optimisation approach.

Published
2020

24. Yet another introduction to linear dynamical systems control: From identification and approximation to digital control

Author

Poussot-Vassal, Charles and Vuillemin, Pierre

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

This report aims at presenting (yet) a(nother) methodology to design and implement a linear controller for linear dynamical systems on practical applications. The specificity of this report is that authors try to cover (obviously in a non exhaustive way) a wide range of control engineering fields. Indeed, the main purpose is to give a quick overview of standard control engineer approaches to non familiar readers. More specifically, using a simple toy example, we discuss the main steps control engineers usually follow. Namely, (i) the excitation signals construction, (ii) the (continuous-time) linear model construction and approximation, (iii) the (continuous-time) control design, and finally, (iv) its time-domain discretisation and control signal modulation in view of practical implementation. This report is clearly user-oriented and thus focuses on practical aspects (using Matlab code) rather than on theoretical ones, let to the reader's curiosity with few but relevant references., Comment: 27 pages, 21 figures, code material

Published
2020

25. Second generation of portable gamma camera based on Caliste CdTe hybrid technology

Author

MAIER, Daniel, BLONDEL, Claire, DELISLE, Cyrille, LIMOUSIN, Olivier, MARTIGNAC, Jerome, MEURIS, Aline, VISTICOT, Francois, DANIEL, Geoffrey, BAUSSON, Pierre-Anne, GEVIN, Olivier, AMOYAL, Guillaume, CARREL, Frederick, SCHOEPFF, Vincent, MAHE, Charly, SOUFFLET, Fabrice, and VASSAL, Marie-Cecile

Subjects
Physics - Instrumentation and Detectors, Physics - Medical Physics
Abstract

In the framework of a national funded program for nuclear safety, a first prototype of portable gamma camera was built and tested. It integrates a Caliste-HD CdTe-hybrid detector designed for space X-ray astronomy coupled with a new system-on-chip based acquisition system (FPGA and ARM microprocessor) and thermo-electrical coolers for a use at room temperature. The complete gamma part of the camera fits in a volume of 15 x 15 x 40 cm^3 for a mass lower than 1 kg and a power consumption lower than 10 W. Localization and spectro-identification of radionuclides in a contaminated scene were demonstrated during several test campaigns. A new generation of system is under development taking into account feedback experience from in-situ measurements and integrating a new generation of sensor cost-optimized by industrial applications called Caliste-O. Caliste-O holds a 16 x 16 pixel detector of 14 x 14 mm^2 and 2 mm thick with 8 full-custom front-end IDeF-X HD ASICs. Two prototypes were fabricated and tested. The paper will present the results of in-situ measurements with the first gamma camera, the spectroscopic performance of Caliste-O and the design of the second generation of gamma camera which aims for real time imaging and spectro-identification., Comment: 6 pages, 7 figures

Published
2020
Full Text
View/download PDF

26. Solutions for optimal care and research for children and adolescents with extremely rare cancers developed within the Joint Action for Rare Cancers (JARC)

Author

Jelena Roganovic, Ewa Bien, Andrea Ferrari, Gilles Vassal, Annalisa Trama, Paolo G. Casali, Annita Kienesberger, Gianni Bisogno, Calogero Virgone, Tal Ben Ami, Yves Reguerre, Jan Godzinski, Nuno Jorge Farinha, Luca Bergamaschi, Dominik T. Schneider, Daniel Orbach, and Ines B. Brecht

Subjects
Pediatric/adolescent oncology, Very rare tumors, JARC, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Very rare cancers in children and adolescents pose a unique challenge for optimal care and research. Due to their rarity and diversity, there is a lack of standardized treatments and limited data to guide clinical decision-making. This paper aims to provide solutions for addressing these challenges through a multidisciplinary approach involving clinicians, researchers, and patient advocates. In recent years, members of the European Cooperative Study Group for Paediatric Rare Tumors (EXPeRT) and members of the European Society of Pediatric Oncology (SIOPE) clinical council worked within the EU Joint Action on Rare Cancers (JARC) and the Paed Can European Reference Network (ERN) on solutions to improve the care and research in the field. This includes a better classification, more financial resources, higher awareness and support by stakeholders, an international database, as well as harmonized diagnostic and therapeutic guidelines. Further research projects in the field of molecular biology, a better collaboration between medical oncologists and pediatricians, and a general strategy to facilitate access to modern therapies are urgently needed.

Published
2023
Full Text
View/download PDF

27. Changing incentives to ACCELERATE drug development for paediatric cancer

Author

Teresa deRojas, Pamela Kearns, Patricia Blanc, Jeffrey Skolnik, Elizabeth Fox, Leona Knox, Raphael Rousseau, François Doz, Nick Bird, Andrew J. Pearson, and Gilles Vassal

Subjects
drug development, incentives, paediatric oncology, paediatric regulation, supplementary protection certificate, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background More effective incentives are needed to motivate paediatric oncology drug development, uncoupling it from dependency on adult drug development. Although the current European and North‐American legislations aim to promote drug development for paediatrics and rare diseases, children and adolescents with cancer have not benefited as expected from these initiatives and cancer remains the first cause of death by disease in children older than one. Drug development for childhood cancer remains dependent on adult cancer indications and their potential market. The balance between the investment needed to execute a Paediatric Investigation Plan (PIP) in Europe and an initial Paediatric Study Plan (iPSP) in the US, coupled with the potential financial reward has not been sufficiently attractive to incite the pharmaceutical industry to develop drugs for rare indications such as childhood cancer. Methods We propose changes in the timing and nature of the rewards within the European Paediatric Medicine Regulation (PMR) and Regulation on Orphan Medicinal Products (both currently under review), which would drive earlier initiation of paediatric oncology studies and provide incentives for drug development specifically for childhood indications. Results We suggest modifying the PMR to ensure mechanism‐of‐action driven mandatory PIP and reorganization of incentives to a stepwise and incremental approach. Interim and final deliverables should be defined within a PIP or iPSP, each attracting a reward on completion. A crucial change would be the introduction of the interim deliverable requiring production of paediatric data that inform the go/no‐go decisions on whether to take a drug forward to paediatric efficacy trials. Conclusion Additionally, to address the critical gap in the current framework where there is a complete lack of incentives to promote paediatric‐specific cancer drug development, we propose the introduction of early rewards in the Orphan Regulation, with a variant on the US‐Creating Hope Act and its priority review vouchers.

Published
2023
Full Text
View/download PDF

28. Clinical, methodology, and patient/carer expert advice in pediatric drug development by conect4children

Author

Katharine Cheng, Fenna Mahler, Irja Lutsar, Begonya Nafria Escalera, Stefanie Breitenstein, Gilles Vassal, Joana Claverol, Nuria Noel Palacio, Ron Portman, Gavin Pope, Martijn Bakker, Tessa van derGeest, Mark A. Turner, Saskia N. deWildt, and c4c Expert Group Leads

Subjects
Therapeutics. Pharmacology, RM1-950, Public aspects of medicine, RA1-1270
Abstract

Abstract Many medicines are used “off‐label” in children outside the terms of the license. Feasible pediatric clinical trials are a challenge to design. Conect4children (c4c) is an Innovative Medicines Initiative project to set up a pan‐European pediatric clinical trial network aiming to facilitate the development of new medicines for children. To optimize pediatric trial development by promoting innovative trial design, c4c set up a European multidisciplinary advice service, including the voice of young patients and families, tailored to industry and academia. A network of experts was established to provide multidisciplinary advice to trial sponsors. Experts were selected to join clinical and innovative methodology expert groups. A patient and public involvement (PPI) database, to include the expert opinion of patients and parents/carers was formed. A stepwise process was developed: (1) sponsors contact c4c, (2) scoping interview takes place, (3) ad hoc advice group formed, (5) advice meeting held, and (6) advice report provided. Feedback on the process was collected. Twenty‐four clinical and innovative methodology expert groups (>400 experts) and a PPI database of 135 registrants were established. As of September 30, 2022, 36 advice requests were received, with 25 requests completed. Clinical and methodology experts and PPI representatives participated in several advice requests. Sponsors appreciated the advice quality and the multidisciplinary experts from different countries, including experts not known before. Experts and PPI participants were generally satisfied with the process. The c4c project has shown successful proof of concept for a service that presents a new framework to plan innovative and feasible pediatric trials.

Published
2023
Full Text
View/download PDF

30. Towards optimal use of antithrombotic therapy of people with cancer at the end of life: A research protocol for the development and implementation of the SERENITY shared decision support tool

Author

Goedegebuur, J., Abbel, D., Accassat, S., Achterberg, W.P., Akbari, A., Arfuch, V.M., Baddeley, E., Bax, J.J., Becker, D., Bergmeijer, B., Bertoletti, L., Blom, J.W., Calvetti, A., Cannegieter, S.C., Castro, L., Chavannes, N.H., Coma-Auli, N., Couffignal, C., Edwards, A., Edwards, M., Enggaard, H., Font, C., Gava, A., Geersing, G.J., Geijteman, E.C.T., Greenley, S., Gregory, C., Gussekloo, J., Hoffmann, I., Højen, A.A., van den Hout, W.B., Huisman, M.V., Jacobsen, S., Jagosh, J., Johnson, M.J., Jørgensen, L., Juffermans, C.C.M., Kempers, E.K., Konstantinides, S., Kroder, A.F., Kruip, M.J.H.A., Lafaie, L., Langendoen, J.W., Larsen, T.B., Lifford, K., van der Linden, Y.M., Mahé, I., Maiorana, L., Maraveyas, A., Martens, E.S.L., Mayeur, D., van Mens, T.E., Mohr, K., Mooijaart, S.P., Murtagh, F.E.M., Nelson, A., Nielsen, P.B., Ording, A.G., Ørskov, M., Pearson, M., Poenou, G., Portielje, J.E.A., Raczkiewicz, D., Rasmussen, K., Trinks-Roerdink, E., Schippers, I., Seddon, K., Sexton, K., Sivell, S., Skjøth, F., Søgaard, M., Szmit, S., Trompet, S., Vassal, P., Visser, C., van Vliet, L.M., Wilson, E., Klok, F.A., and Noble, S.I.R.

Published
2023
Full Text
View/download PDF

31. Technical note: Hybrid Loewner Data Driven Control

Author

Vuillemin, Pierre, Kergus, Pauline, and Poussot-Vassal, Charles

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Dynamical Systems
Abstract

This note describes how the Loewner framework can be exploited to create a discrete-time control-law from frequency-data of a continuous-time plant so that their hybrid interconnection matches a given continuous-time reference model up to the Nyquist frequency. The resulting Hybrid Loewner Data Driven Control scheme is illustrated on two numerical examples.

Published
2019

32. Discretisation of continuous-time linear dynamical model with the Loewner interpolation framework

Author

Vuillemin, Pierre and Poussot-Vassal, Charles

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

An interpolation method for discretising continuous-time Linear Time Invariant (LTI) models is proposed in this paper. It consists first in using the Loewner interpolation framework on a specific set of frequency data and secondly to project the resulting model onto a stable subspace. The order of the discretised model may be chosen larger than the initial one thus allowing for trading complexity for accuracy if needed. Numerical examples highlight the efficiency of the method at preserving a satisfactory matching both in magnitude and phase in comparison to standard discretisation methods like ZOH or Tustin.

Published
2019

33. Data-driven reference model selection and application to L-DDC design

Author

Kergus, Pauline, Olivi, Martine, Poussot-Vassal, Charles, and Demourant, Fabrice

Subjects
Computer Science - Systems and Control
Abstract

The choice of a reference model in data-driven control techniques is a critical step. Indeed, it should represent the desired closed-loop performances and be achievable by the plant at the same time. In this paper, we propose a method to build such a reference model, both reproducible by the system and having a desired behaviour. It is applicable to Linear Time-Invariant (LTI) monovariable systems and relies on the estimation of the plant's instabilities through a data-driven stability analysis technique. The L-DDC (Loewner Data Driven Control) algorithm is used to illustrate the impact of the choice of the reference model on the control design process. Finally, the proposed choice of specifications allows to use a controller validation technique based on the small-gain theorem.

Published
2019

34. Longitudinal characterization of primary osteosarcoma and derived subcutaneous and orthotopic relapsed patient-derived xenograft models

Author

Maria Eugenia Marques da Costa, Robin Droit, Pierre Khneisser, Anne Gomez-Brouchet, Tiphaine Adam-de-Beaumais, Marie Nolla, Nicolas Signolles, Jacob Torrejon, Bérangère Lombard, Damarys Loew, Olivier Ayrault, Jean-Yves Scoazec, Birgit Geoerger, Gilles Vassal, Antonin Marchais, and Nathalie Gaspar

Subjects
osteosarcoma, patient-derived xenograft, bone, omics, RNAseq, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Osteosarcoma is a rare bone cancer in adolescents and young adults with a dismal prognosis because of metastatic disease and chemoresistance. Despite multiple clinical trials, no improvement in outcome has occurred in decades. There is an urgent need to better understand resistant and metastatic disease and to generate in vivo models from relapsed tumors. We developed eight new patient-derived xenograft (PDX) subcutaneous and orthotopic/paratibial models derived from patients with recurrent osteosarcoma and compared the genetic and transcriptomic landscapes of the disease progression at diagnosis and relapse with the matching PDX. Whole exome sequencing showed that driver and copy-number alterations are conserved from diagnosis to relapse, with the emergence of somatic alterations of genes mostly involved in DNA repair, cell cycle checkpoints, and chromosome organization. All PDX patients conserve most of the genetic alterations identified at relapse. At the transcriptomic level, tumor cells maintain their ossification, chondrocytic, and trans-differentiation programs during progression and implantation in PDX models, as identified at the radiological and histological levels. A more complex phenotype, like the interaction with immune cells and osteoclasts or cancer testis antigen expression, seemed conserved and was hardly identifiable by histology. Despite NSG mouse immunodeficiency, four of the PDX models partially reconstructed the vascular and immune-microenvironment observed in patients, among which the macrophagic TREM2/TYROBP axis expression, recently linked to immunosuppression. Our multimodal analysis of osteosarcoma progression and PDX models is a valuable resource to understand resistance and metastatic spread mechanisms, as well as for the exploration of novel therapeutic strategies for advanced osteosarcoma.

Published
2023
Full Text
View/download PDF

35. Isolated posterior stabilization in type B and C thoracolumbar fractures associated with ankylosing spine disorders: A single center experience with clinical and radiological outcomes

Author

Sulpis Benoit, Neri Thomas, Klasan Antonio, Castel Xavier, Vassal François, and Tetard Marie Charlotte

Subjects
ankylosing spine disorders, percutaneous, posterior stabilization, thoraco-lumbar fracture, Orthopedic surgery, RD701-811
Abstract

Introduction: Fractures in ankylosing spine disorders (ASD) are associated with high complication and mortality rates. During the posterior stabilization of these fractures, reduction is often partial, resulting in the persistence of a significant anterior diastasis. Our objective was to evaluate the safety and efficiency of isolated posterior stabilization in elderly ASD patients, without direct reduction of the anterior diastasis, in terms of clinical and radiological outcomes, complications, and mortality. Methods: This retrospective study included 46 patients, mean age 79.3 years, with ASD, who underwent isolated posterior stabilization, open or percutaneous, for thoracolumbar fractures. The average follow-up was 21.7 months, with a minimum follow-up of 6 months. Autonomy (Parker score) and radiological results (lordotic angulation) were analyzed pre-and post-operatively. Results: Autonomy was maintained at the last follow-up, with no significant difference in Parker’s score. The consolidation rate was 94.6%. No implant failure was recorded. Despite the absence of an anterior procedure, lordotic angulation was significantly reduced by 2.6° at 6 months (p = 0.02). The rate of surgical complications following open surgeries was 10.9% (n = 5), of which 6.5% were infections. No surgical complications were reported in percutaneous surgeries. The rate of medical complications was 67.4% (n = 31), with a rate of 88.2% in the open surgery group, compared to 55.2% in the percutaneous surgery group. An open approach was associated with a five-fold higher risk of complications (p = 0.049). Nine patients died during follow-up (19.6%). Conclusions: Isolated posterior stabilization in the treatment of thoracolumbar spine fractures in elderly ASD patients is a safe technique promoting autonomy preservation, and high radiological bony healing with acceptable complication and mortality rates. The persistent anterior gap is partially reduced when the spine is loaded and does not seem to require an anterior procedure, thus decreasing complications. Percutaneous surgery should be the technique of choice to reduce surgical complications.

Published
2024
Full Text
View/download PDF

36. Note on the exact delay stability margin computation of hybrid dynamical systems

Author

Bellet, V., Poussot-Vassal, C., Pagetti, C., and Loquen, T.

Subjects
Computer Science - Systems and Control
Abstract

Traditionally, the delay margin of a looped system is computed by considering both the controller and system representations that evolve in the same space (e.g. either continuous or discrete-time). However, as in practice the system is continuous and the controller is mostly embedded in a computer, the looped - controller / system pair - model is hybrid. As a consequence, the computed delay margin might vary with respect to the continuous (or discrete one). This paper proposes a novel approach to compute the exact delay margin of hybrid systems, and more specifically, when a discrete-time controller is looped with a continuous-time system. The main interest is then to provide the practitioners with a way to select the appropriate discretization technique for maximizing the delay margin and to be able to exactly evaluate the delay margin before implementation on target. The main idea is to approximate the discrete-time controller with an equivalent continuous-time one (often with higher order) and to exploit the classical continuous-time frequency-based analysis strategies., Comment: 17 pages, 4 figures, submitted to the European Control Conference 2019

Published
2018

37. Rationale and design of ON-TRK: a novel prospective non-interventional study in patients with TRK fusion cancer treated with larotrectinib

Author

James C. H. Yang, Marcia S. Brose, Gilberto Castro, Edward S. Kim, Ulrik N. Lassen, Serge Leyvraz, Alberto Pappo, Fernando López-Ríos, John A. Reeves, Marc Fellous, Frédérique Penault-Llorca, Erin R. Rudzinski, Ghazaleh Tabatabai, Gilles Vassal, Alexander Drilon, and Jonathan Trent

Subjects
Larotrectinib, NTRK gene fusions, TRK fusion, Non-interventional study, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Tropomyosin receptor kinase (TRK) fusion proteins resulting from neurotrophic tyrosine receptor kinase (NTRK) gene fusions are rare primary oncogenic drivers in a wide array of tumors. Larotrectinib is a first-in-class, highly selective, central nervous system-active TRK inhibitor approved by the US Food and Drug Administration (FDA), European Medicines Agency (EMA), and over 40 countries for the treatment of TRK fusion solid tumors in adult and pediatric patients. Due to the rarity of TRK fusion cancer, larotrectinib was granted accelerated approval based on a relatively small number of patients enrolled in three early phase trials. ON-TRK aims to evaluate the safety profile of larotrectinib in a broader population and over extended time periods. Methods ON-TRK is a prospective, non-interventional, open-label, multicenter, multi-cohort, post-approval study in adult and pediatric patients with locally advanced or metastatic TRK fusion cancer treated with larotrectinib that will describe the safety and effectiveness of larotrectinib in real-world practice conditions. Adult patients will be grouped by tumor type and followed for at least 2 years. Patients

Published
2022
Full Text
View/download PDF

41. Structured linear fractional parametric controller design with $\mathcal{H}_\infty$ performances

Author

Poussot-Vassal, C.

Subjects
Computer Science - Systems and Control, Mathematics - Dynamical Systems
Abstract

This paper proposes an simple but yet effective approach to structured parametric controller design in a linear fractional form. The main contribution consists in using structured $\mathcal{H}_\infty$ oriented optimization tools in an original manner to either (i) construct a parametric controller or (ii) a family of controllers with varying performances. Practical and numerical issues are also discussed to provide readers and practitioners a simple way to deploy the proposed process. The overall approach is illustrated through two numerical academical (but still complex) examples illustrating two applications: first, a parametric controller design adapted to a parameter dependent model of a clamped beam and, second, a controller with parameter dependent performance applied on a building model., Comment: Submitted to IEEE CDC 2017

Published
2017

42. Intercontinental collaboration in clinical trials for children and adolescents with cancer—A systematic review by ACCELERATE

Author

Teresa deRojas, Andrew J. Pearson, Nicole Scobie, Leona Knox, Darshan Wariabharaj, Pamela Kearns, Gilles Vassal, and Gregory Reaman

Subjects
adolescent cancer, childhood cancer, clinical research, clinical trials, drug development, international collaboration, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background Since pediatric cancer drug development is a global enterprise, we sought to provide an overview of the landscape of intercontinental clinical trials in pediatric oncology opened over the last decade. Methods ClinicalTrials.gov was systematically searched to identify all clinical therapeutic trials which opened between 2010 and 2020 and recruited pediatric patients (

Published
2021
Full Text
View/download PDF

43. Which injured patients with moderate fibrinogen deficit need fibrinogen supplementation?

Author

Jean-Stephane David, Aline Lambert, Xavier-Jean Taverna, Pascal Incagnoli, Marie-Odile Geay-Baillat, Olivia Vassal, Arnaud Friggeri, and Kenji Inaba

Subjects
ROTEM, Fibrinogen, Trauma, Coagulopathy, Shock, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9
Abstract

Abstract Background In severely injured patients, fibrinogen supplementation is recommended when fibrinogenemia is 1, hemoglobin level 5 mEq L−1. Data are expressed as count (%), median [IQR]. Results 1076 patients were included in the study and 266 (27%) had MFD-C, among them, 122/266 (46%) received fibrinogen. Patients with MFD-C who received fibrinogen were more severely injured (ISS: 27 [19–36] vs. 24 [17–29]) and had more impaired vital signs (base deficit: 5.4 [3.6–7.8] vs. 3.8 [2.0–6.0]). Linear regression analysis found a positive correlation between fibrinogen level and FIBTEM-A5 (r: 0.805). For a fibrinogen level 1, a hemoglobin level 5.0 mEq L−1 received fibrinogen. The relative risk [95% CI] for fibrinogen administration (SI > 1) were 1.39 [1.06–1.82] for MFD-C, and 2.17 [1.48–3.19] for MFD-A5. Results were not modified after adjustment on the ISS. Conclusions We have shown in this study an association between shock parameters and fibrinogen administration. Further studies are needed to determine how these parameters may be used to guide fibrinogen administration in trauma patients with MFD.

Published
2021
Full Text
View/download PDF

45. SPIRAL2 Cryomodule Models: A Gateway to Process Control and Machine Learning

Author

Adrien Vassal, Adnan Ghribi, François Millet, François Bonne, Patrick Bonnay, and Pierre-Emmanuel Bernaudin

Subjects
machine learning, cryogenics, modeling, accelerators, thermodynamics, control, Physics, QC1-999
Abstract

From simple physical systems to full production lines, numerical models could be used to minimize downtime and to optimize performances. In this article, the system of interest is the SPIRAL2 heavy ion accelerator cryogenic system. This article illustrates three different applications based on a SPIRAL2 cryostat model: optimal controller synthesis, virtual sensor synthesis, and anomaly detection. The two first applications have been deployed on the system. Experimental results are used to illustrate the benefits of such applications. The third application is a case study based on data generated from a thermodynamic twin model.

Published
2022
Full Text
View/download PDF

46. An observed, prospective field study to evaluate the performance and acceptance of a blood-based HIV self-test in Canada

Author

Richard A. Galli, Jason M. Lo Hog Tian, Michelle Sumner-Williams, Kristin McBain, Emal Stanizai, Wangari Tharao, Muna Aden, Heather Jamieson, Mark Da Silva, Anne-Fanny Vassal, Lorie Guilbault, Laurie Ireland, Kim Witges, Alexandra King, Kehinde Ametepee, Nathan J. Lachowsky, Nitika Pant Pai, Tony Mazzulli, and Sean B. Rourke

Subjects
HIV, Blood-based self-test, Accuracy, Usability, Acceptance, Public aspects of medicine, RA1-1270
Abstract

Abstract Background Self testing for HIV is a targeted intervention with the potential to increase the access, uptake and frequency of HIV testing and more effectively reach the undiagnosed, especially in priority populations. The objectives of this study were to (1) evaluate the INSTI HIV self-test performance compared with laboratory reference testing, (2) document if intended users can perform the steps to use the HIV self-test device, and (3) document if intended users can successfully interpret contrived positive, negative, and invalid results. Study was intended to be submitted to Health Canada for review for regulatory approval purposes. Methods The study used a cross-sectional design and recruited consenting adults who were representative of intended users of HIV self-testing from four community sites across Ontario, Québec, and Manitoba between August 2019 and March 2020. The results of the observed HIV self-test were compared with results of the Abbott Architect HIV Ag/Ab Combo test. Usability outcomes for critical (e.g., lancing finger, blood droplet into bottle, shaking bottle four times) and noncritical self-test procedure steps were also determined. Results Overall, 77% (n = 522) of participants were between 18 and 45 years of age, 61% (n = 410) were male, 71% (n = 480) had some college or more education, and 45% (n = 307) were employed; identity for race and ethnicity: Caucasian (44%; n = 296), African, Caribbean or Black (17%; n = 113), Indigenous [First Nations, Métis or Inuit] (14%; n = 95), Asian (16%; n = 106), Latin American (7%; n = 46). Primary performance analysis on 678 completed HIV self-tests revealed a positive percent agreement of 100% (5/5, 95% CI: 43.6–97.0%) and a negative percent agreement of 99.5% (614/617, 95% CI: 98.6–99.8%) with the comparator method. The overall percent agreement of results interpretation between participant and observer was 93.5% (n = 633). For the 708 participants who took part in the usability study, the average success rate for steps determined to be “critical” for successful completion of the test was 92.4%. 97% (n = 670) of participants found the instructions easy to follow, and 95% (n = 655) of participants indicated that they would use the test again. Of the 404 participants who interpreted the strong positive, weak positive, negative, and invalid contrived results, successful interpretation ranged from 90.6% (for weak positive, n = 366) to 99.3% (for negative, n = 401). Conclusions The addition of a regulatory-approved self-test into the Canadian HIV testing landscape could significantly increase HIV testing rates. Having a blood-based HIV self-test approved in Canada can offer an accurate, acceptable, and simple alternative to facility-based HIV testing, particularly when impacted by Coronavirus pandemic restrictions.

Published
2021
Full Text
View/download PDF

49. Effectiveness of a nurse-led telephone follow-up in the therapeutic management of patients receiving oral antineoplastic agents: a randomized, multicenter controlled trial (ETICCO study)

Author

Bouleftour, Wafa, Muron, Thierry, Guillot, Aline, Tinquaut, Fabien, Rivoirard, Romain, Jacquin, Jean-Philippe, Saban-Roche, Léa, Boussoualim, Karima, Tavernier, Emmanuelle, Augeul-Meunier, Karine, Collard, Olivier, Mery, Benoite, Pupier, Sidonie, Oriol, Mathieu, Bourmaud, Aurélie, Fournel, Pierre, and Vassal, C.

Published
2021
Full Text
View/download PDF

50. Optimal $\mathcal{H}_{2}$ model approximation based on multiple input/output delays systems

Author

Duff, Igor Pontes, Poussot-Vassal, Charles, and Seren, Cédric

Subjects
Computer Science - Systems and Control, Mathematics - Dynamical Systems, Mathematics - Numerical Analysis
Abstract

In this paper, the $\mathcal{H}_{2}$ optimal approximation of a $n_{y}\times{n_{u}}$ transfer function $\mathbf{G}(s)$ by a finite dimensional system $\hat{\mathbf{H}}_{d}(s)$ including input/output delays, is addressed. The underlying $\mathcal{H}_{2}$ optimality conditions of the approximation problem are firstly derived and established in the case of a poles/residues decomposition. These latter form an extension of the tangential interpolatory conditions, presented in~\cite{gugercin2008h_2,dooren2007} for the delay-free case, which is the main contribution of this paper. Secondly, a two stage algorithm is proposed in order to practically obtain such an approximation., Comment: 14 pages, 3 figures, submitted to Automatica Journal

Published
2015

Catalog

Books, media, physical & digital resources
See catalog results