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X-WR-CALNAME:Namur Institute For Complex Systems
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X-WR-CALDESC:Events for Namur Institute For Complex Systems
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DTSTART:20180325T010000
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BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20201217T130000
DTEND;TZID=Europe/Paris:20201217T140000
DTSTAMP:20260416T013352
CREATED:20201119T091226Z
LAST-MODIFIED:20210101T154101Z
UID:855-1608210000-1608213600@www.naxys.be
SUMMARY:Jean Teyssandier (Université de Namur)
DESCRIPTION:Title: An overview of astrophysical disc dynamics \nAstrophysical discs appear at all scales in the Universe\, from rings around planets to galactic discs. Despite the differences in scales and building blocks\, they all share similar underlying physical processes. In this talk I will review some of these processes and explain the origin of certain features\, such as the spiral arms of galaxies\, the fine structures in the rings of Saturn\, or the recent observations of gaseous discs where planetary systems are born. \nLink to the teams group “naXys Seminars” (unamur members) here \nLink to the seminar here
URL:https://www.naxys.be/event/jean-teyssandier-universite-de-namur/
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20201203T130000
DTEND;TZID=Europe/Paris:20201203T130000
DTSTAMP:20260416T013352
CREATED:20201119T091057Z
LAST-MODIFIED:20210101T154035Z
UID:853-1607000400-1607000400@www.naxys.be
SUMMARY:Greta Malaspina (University of Novi Sad\, Serbia)
DESCRIPTION:Title: A modified Levenberg-Maquardt method for large scale network adjustment \nWe present a numerical optimization approach for the solution of large scale Network Adjustment Problems that arise in localization problems such as GPS positioning\, surveying and large scale Wireless Sensors Networks localization. We consider a modification of Levenberg Marquardt method that attempts to deal with the non-convex nature of the objective function and the large number of variables.\nAt each iteration of the classical method the search direction is computed by solving a linear system of equations\, which is an expensive procedure when the number of unknowns in the problem that we consider is large\, and represents the major obstacle to the solution of realistic\, large scale\, problems. We develop a scheme for the decomposition of the linear system\, which consist in computing an approximation of the Levenberg Marquardt direction by solving a number of independent linear systems of smaller size\, and we propose a correction strategy of the right sides that improves the quality of the approximated direction while retaining separability of the linear systems. The convergence analysis of the resulting method is studied under standard regularity assumptions of the objective function. Moreover\, the algorithm we propose is tested on realistic adjustment problems and compared with Levenberg Marquardt in terms of both accuracy and computational cost. \nLink to the teams group “naXys Seminars” (unamur members) here \nLink to the seminar here
URL:https://www.naxys.be/event/greta-malaspina-university-of-novi-sad-serbia/
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20201119T130000
DTEND;TZID=Europe/Paris:20201119T140000
DTSTAMP:20260416T013352
CREATED:20201028T170753Z
LAST-MODIFIED:20210101T154020Z
UID:822-1605790800-1605794400@www.naxys.be
SUMMARY:Benedetta Franceschiello (University of Lausanne\, Switzerland)
DESCRIPTION:Title: MIME – Magnetic resonance Imaging of the Moving Eye \nAbstract: Vision is arguably the most important of our senses and it relies on the synchronous functioning of the eyes and the brain. These organs are highly interdependent: pathologies of the eyes can impact brain functionality [1]\, and brain impairments affect how the visual information is encoded at the eye-level [2]\, [3]. While nowadays ophthalmic biomedical devices are able to extract high-resolution anatomical measurements and behavioral measurements of the eyes\, no technology is able to perform anatomical assessments of the eye while it moves\, yet eye-movements are a behavioral readout encompassing valuable biomarkers in brain disorders [4]\, [5]. Magnetic Resonance Imaging (MRI) is a particularly promising non-invasive and versatile technique because it provides measurements related both to the tissue/organ structure and to the regional neural activity. However\, the image artefacts arising from eye motion prevent the applicability of MR techniques to eye imaging\, therefore impeding the investigation of the interplay between anatomical structures and their motion.\nIn this talk I will present our patented structural MRI protocol [6]\, [7] that allows dynamic acquisitions of the eye while it moves during quasi-naturalistic vision. To test the efficacy of this method\, eye-movements and eye-axial lengths – as extracted from the MR images – were compared with eye-tracker measurements and optical biometry\, respectively. This new non-invasive technology can estimate the rotation axes from the MR images with up to 97% accuracy with respect to the eye-tracker hardware. The high-resolution MRI scans of the human eye (1 mm3) – acquired during natural movement – permit to quantify the optical axial length with an accuracy having the same order of magnitude of the one obtained with ocular biometry. Finally\, I will discuss the possible applications of this technique and the new frontiers it opens both in the field of ophthalmic MRI and vision neuroscience. \n[1] Zheng\, D. D. et al. Longitudinal Associations Between Visual Impairment and Cognitive Functioning. JAMA Ophthalmol. 136\, 989 (2018).\n[2] Ciuffreda\, K. J. et al. Occurrence of oculomotor dysfunctions in acquired brain injury: A retrospective analysis. Optom. – J. Am. Optom. Assoc. 78\, 155–161 (2007).\n[3] DeBuc\, D. C. et al. Seeing the Brain Through the Eye: What Is Next for Neuroimaging and Neurology Applications. in OCT and Imaging in Central Nervous System Diseases 55–82 (Springer International Publishing\, 2020). doi: 10.1007/978-3-030-26269-3_5\n[4] MacAskill\, M. R. & Anderson\, T. J. Eye movements in neurodegenerative diseases. Curr. Opin. Neurol. 29\, 61–68 (2016).\n[5] Anderson\, T. J. & MacAskill\, M. R. Eye movements in patients with neurodegenerative disorders. Nat. Rev. Neurol. 9\, 74–85 (2013).\n[6] Franceschiello\, B. et al. 3-Dimensional magnetic resonance imaging of the freely moving human eye. Prog. Neurobiol. 101885 (2020). doi:10.1016/j.pneurobio.2020.101885\n[7] Franceschiello\, B. et al. WO2020178397 – Magnetic Resonance Imaging Methods and device. (2020). Available at: https://patentscope.wipo.int/search/en/detail.jsf?docId=WO2020178397&tab=PCTBIBLIO. \nBenedetta Franceschiello \nLaboratory for Investigative Neurophysiology\,\nOphthalmology Department\, Fondation Asile des aveugles\, Lausanne\, Switzerland\nRadiology Department\, University Hospital Center and University of Lausanne\, Switzerland \nLink to the teams group “naXys Seminars” (unamur members) here \nLink to the seminar here
URL:https://www.naxys.be/event/benedetta-franceschiello-the-laboratory-for-investigative-neurophysiology-university-hospital-center-jules-gonin-eye-hospital-university-of-lausanne-switzerland/
LOCATION:Online Event
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20201113T140000
DTEND;TZID=Europe/Paris:20201113T160000
DTSTAMP:20260416T013352
CREATED:20201101T210032Z
LAST-MODIFIED:20201101T210032Z
UID:838-1605276000-1605283200@www.naxys.be
SUMMARY:Delivering your presentation remotely by Principiae
DESCRIPTION:Abstract: When circumstances oblige you to deliver your presentation remotely from your office\, your home\, or even a hotel room\, you face additional challenges\, technological and otherwise. This remote lecture discusses and demonstrates the necessary adaptations to your tools\, your environment\, and your delivery so as to focus the attention of the audience\, minimize distractions\, and get your message across optimally. \nSpeaker: An engineer (UCLouvain) and PhD in applied physics (Stanford)\, Jean-luc Doumont is acclaimed worldwide for his no-nonsense approach\, his highly applicable\, often life-changing recommendations on a wide range of topics\, and Trees\, maps\, and theorems\, his book about “effective communication for rational minds.” For additional information\, visit www.principiae.be. \nRegistration\nRegistration is free but mandatory through the following web form. \nPhD students will receive a certificate with ECTS mention for their doctoral training.
URL:https://www.naxys.be/event/delivering-your-presentation-remotely-by-principiae/
LOCATION:Online Event
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20201105T130000
DTEND;TZID=Europe/Paris:20201105T140000
DTSTAMP:20260416T013352
CREATED:20201028T170526Z
LAST-MODIFIED:20210101T153958Z
UID:819-1604581200-1604584800@www.naxys.be
SUMMARY:Joseph O'Brien (MACSI\, University of Limerick\, Ireland)
DESCRIPTION:Title: Branching Processes and their Application to Popularity Dynamics \nAbstract: Arising from a desire to understand the likelihood of a family name becoming extinct\, branching processes have a rich history and have been shown to be applicable to a wide range of domains. The simplest description of these processes is the case where a parent has a random number of children during their lifetime who themselves proceed to have a similarly distributed number of children. In this talk I demonstrate how the processes may be used to describe social spreading phenomena whereby the parents are now online pieces of information (tweets\, online threads\, …) while their children correspond to interactions with these pieces (retweets\, comments\,…) and as such may represent social contagion dynamics. Two specific examples will be considered in detail\, the first being a mathematical model of online spreading across multiple social media platforms and the effect said network structure has upon the dynamics [2]. Second\, I will demonstrate how a branching process approach can allow a unified understanding of the well-studied Hawkes process (which has itself been shown to accurately describe social spreading features [3]) and may in fact allow one to make predictions regarding future dynamics of such processes [4]. \n[1] K. B. Athreya and P. E. Ney\, Branching Processes (Springer Science + Business Media\, New York\, 2013). \n[2] J. D. O’Brien\, I. K. Dassios\, and J. P. Gleeson. Spreading of memes on multiplex networks. New Journal of Physics\, 21(2):025001\, 2019. \n[3] A. N. Medvedev\, R. Lambiotte\, and J.-C. Delvenne. The anatomy of Reddit: An overview of academic research. In Dynamics on and of Complex Networks\, pages 183–204. Springer\, 2017. \n[4] J. D. O’Brien\, A. Aleta\, Y. Moreno\, and J. P. Gleeson. Quantifying uncertainty in a predictive model for popularity dynamics. Physical Review E\, 101(6):62311\, 2020. \n  \nLink to the teams group “naXys Seminars” (unamur members) here \nLink to the seminar here \nFor any problem with the links\, write to riccardo.muolo@unamur.be
URL:https://www.naxys.be/event/joey-obrien-macsi-university-of-limerick-ireland/
LOCATION:Online Event
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200514T140000
DTEND;TZID=Europe/Paris:20200514T160000
DTSTAMP:20260416T013352
CREATED:20200115T160308Z
LAST-MODIFIED:20200611T182040Z
UID:725-1589464800-1589472000@www.naxys.be
SUMMARY:Principiae - POSTPONED
DESCRIPTION:
URL:https://www.naxys.be/event/principiae/
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200430T130000
DTEND;TZID=Europe/Paris:20200430T140000
DTSTAMP:20260416T013352
CREATED:20200213T081023Z
LAST-MODIFIED:20200420T082023Z
UID:750-1588251600-1588255200@www.naxys.be
SUMMARY:Carlos Ordas (Université Laval\, Canada) - POSTPONED
DESCRIPTION:
URL:https://www.naxys.be/event/carlos-ordas-universite-laval-canada/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200423T130000
DTEND;TZID=Europe/Paris:20200423T140000
DTSTAMP:20260416T013352
CREATED:20191206T161755Z
LAST-MODIFIED:20200420T080758Z
UID:637-1587646800-1587650400@www.naxys.be
SUMMARY:Philippe Naveau (LSCE\, Saclay) - POSTPONED
DESCRIPTION:
URL:https://www.naxys.be/event/philippe-naveau-lsce-saclay/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200402T130000
DTEND;TZID=Europe/Paris:20200402T140000
DTSTAMP:20260416T013352
CREATED:20200211T153103Z
LAST-MODIFIED:20200316T165843Z
UID:748-1585832400-1585836000@www.naxys.be
SUMMARY:Keven Bluteau (UGhent & HEC Montréal) - POSTPONED
DESCRIPTION:Title: The Concern in Climate Change News: A Driver of Flight-to-Green Investment Episodes? \nAbstract: Climate change can have a negative economic\, social\, and environmental impact. Investors can help in fighting climate change is buying “Green” firms and selling “Brown” firms. Several studies\, however\, indicate that green assets underperform brown assets\, therefore incurring a cost for being a green investor. The recent asset pricing model of Pastor et al. (2020)\, however\, suggests that green assets can outperform brown assets when concern about climate change is unusually large among investors. We empirically study this result by deriving climate change concerns indices using news articles from highly read US newspapers. We evaluate if a high value of climate change concern is associated with a higher abnormal return of a green minus brown portfolio from the S&P 500 universe between 2003 to 2017. Overall\, our results indicate that high (low) climate change concern implies higher (lower) abnormal returns in a green minus brown portfolio. Furthermore\, we demonstrate that not all topics surrounding the climate change discussion in the media drive concern among investors.
URL:https://www.naxys.be/event/keven-bluteau/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200326T130000
DTEND;TZID=Europe/Paris:20200326T140000
DTSTAMP:20260416T013352
CREATED:20200316T165112Z
LAST-MODIFIED:20200316T165248Z
UID:779-1585227600-1585231200@www.naxys.be
SUMMARY:Justin Buhendwa Nyenyezi (ISP-Bukavu\, DRC) - POSTPONED
DESCRIPTION:Title: A Low-rank tensor based preconditioner for accelerating deformable 3D medical image registration \nAbstract: Modeled as a variational problem\, the deformable 3D image registration problem needs to solve a sequence of linear systems during the optimization process. Although these linear systems are sparse and structured\, they are very large and ill conditioned. This leads to low convergence rate of the algorithms used to solve the problem or to inaccurate solutions. \nSince it is observed that much of the time is spent in the solution of these linear systems\, there is a need to provide efficient system solvers. Let N be the number of voxels in the image. Algorithms with linear complexity O(N ) based on fast Discrete Cosine Transforms or additive spliting operator are yet available. However\, this linear complexity may be far too large for large 3D medical images. In our current study\, we examine the contribution of a specific Low-rank preconditioner in a tensor-train format. We argue that\, this preconditioner offers the most compromise between complexity and precision\, since it allows to replace this linear\ncomplexity by a logarithmic complexity O(log N ). \nFor this purpose\, we first propose to use a compressed representation of data with a given accuracy ε using tensor train format. Then\, within this tensor train format\, we propose this low-rank preconditioner build with spectral information to speedup and stabilize the system solver. A benchmark of some registration algorithms on a large set of 3D medical images and different from their linear system solvers is provided. The benchmark relies on the perfomance profile based on the earlier decrease of the function value.
URL:https://www.naxys.be/event/justin-buhendwa-nyenyezi-isp-bukavu-drc-postponed/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200312T130000
DTEND;TZID=Europe/Paris:20200312T140000
DTSTAMP:20260416T013352
CREATED:20200316T165354Z
LAST-MODIFIED:20200316T165501Z
UID:784-1584018000-1584021600@www.naxys.be
SUMMARY:Jérôme Daquin (UNamur)
DESCRIPTION:Title: Aspects of the secular dynamics of terrestrial orbits \nAbstract: The threat raised by space debris has vivified long-term studies of terrestrial orbits. To apprehend the motion on long time scales\, the Astrodynamics community has translated\, deployed and adapted many tools coming from Dynamical System theory and Celestial Mechanics: from the construction of effective averaged models more amenable to analytical and/or numerical investigations to the construction of resonant normal forms\, including modern dynamical chaos indicator to visualise the template of the phase-space.  Those efforts contributed to foster the `passive debris removal ideology’\, where natural perturbations are ‘surfed’ rather than `counteracted’. In this talk\, I will review and discuss some aspects of the long-term dynamics of terrestrial orbits\, especially in the range of medium altitude. I will then present recent results obtained by the author and collaborators on the 2g+h lunisolar resonance where a (normally hyperbolic) manifold structure has been identified.
URL:https://www.naxys.be/event/jerome-daquin-unamur/
LOCATION:E22
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200219T163000
DTEND;TZID=Europe/Paris:20200219T183000
DTSTAMP:20260416T013352
CREATED:20200115T164028Z
LAST-MODIFIED:20200115T164028Z
UID:743-1582129800-1582137000@www.naxys.be
SUMMARY:2020 international FRANCQUI Chair – Spatially extended systems
DESCRIPTION:Guest lecturer: Pr. Duccio Fanelli
URL:https://www.naxys.be/event/2020-international-francqui-chair-spatially-extended-systems/
LOCATION:E25
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200218T163000
DTEND;TZID=Europe/Paris:20200218T183000
DTSTAMP:20260416T013352
CREATED:20200115T163918Z
LAST-MODIFIED:20200115T163918Z
UID:741-1582043400-1582050600@www.naxys.be
SUMMARY:2020 international FRANCQUI Chair – Impact of the noise
DESCRIPTION:Guest lecturer: Pr. Duccio Fanelli
URL:https://www.naxys.be/event/2020-international-francqui-chair-impact-of-the-noise/
LOCATION:E25
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200218T130000
DTEND;TZID=Europe/Paris:20200218T140000
DTSTAMP:20260416T013352
CREATED:20200115T160849Z
LAST-MODIFIED:20200115T162943Z
UID:730-1582030800-1582034400@www.naxys.be
SUMMARY:Giovanni Reina (University of Sheffield\, UK)
DESCRIPTION:Title: Collective Decision Making: From Bees to Robots via Multiscale Modelling \nAbstract: I will give an overview of my studies on collective decision making in distributed systems of the last seven years. Such systems\, found in biology\, sociology\, and engineering\, are composed of a large number of interacting individuals that coordinate in order to reach a consensus. The main phases of the collective decision making process consist of identifying the available options\, estimating their quality\, and selecting the best option or any of them. I will present the main results of my research in understanding and designing each of these phases. Collective systems are inherently difficult to analyse as the stochastic nonlinear interactions between individuals can give rise to complex emergent dynamics. Therefore\, I employ a collection of advanced techniques\, commonly defined as multiscale modelling. Relying on a set of methods\, rather than a single one\, gives the benefit of having complementary techniques addressing one another’s limitations. In fact\, through multiscale modelling\, it is possible to analyse the systems at various levels of complexity and detail\, from macroscopic group-level dynamics to microscopic individual-level behaviour\, and from noise-free deterministic models to stochastic spatial descriptions. I finally shed a light on the recently developed opensource software for automated multiscale modelling.
URL:https://www.naxys.be/event/andreagiovanni-reina-university-of-sheffield-uk/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200217T110000
DTEND;TZID=Europe/Paris:20200217T120000
DTSTAMP:20260416T013352
CREATED:20200213T112550Z
LAST-MODIFIED:20200213T112853Z
UID:752-1581937200-1581940800@www.naxys.be
SUMMARY:William Polycarpe (IMCCE\, France)
DESCRIPTION:Title: Iapetus\, the key to the whole system ? \nAbstract : Iapetus possesses all the attributes and characteristics of the whole system of Saturn. It is mysterious and very complex. In my doctoral study I have been runing numerical and semi-analytical simulations of a past mean motion resonance between Titan and Iapetus. The goal was to expose the consequences of a fast tidal migration for Titan and find an explanation for the eccentricity and the inclination of Iapetus’ orbit. The outcomes of simulations depend on the rate of migration and\, consequently\, there are constraints on the quality factor of Saturn at Titan’s frequency. The resonance allows Iapetus to pass from a circular orbit to an eccentric orbit and from its local Laplace plane to a tilted orbit. A few simulations show consistency in the orbital elements of Iapetus today. \nA long semi-analytic expansion was performed to run fast simulations but alternative approaches can be taken. Inverting the order of Taylor and\, eventually Fourier\, expansions of the direct part of the disturbing function yields a series which is more suited to the resonance with Titan and the inclined orbit of Iapetus. More work is waiting to be done and the goal would be to obtain a universal formalism for the expansion. \nThe migration of Titan is becoming a reality today and\, here again\, further studies need to be carried out concerning\, for example\, the rotation of Iapetus.
URL:https://www.naxys.be/event/william-polycarpe-imcce-france/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200206T163000
DTEND;TZID=Europe/Paris:20200206T183000
DTSTAMP:20260416T013352
CREATED:20200115T163412Z
LAST-MODIFIED:20200115T163546Z
UID:737-1581006600-1581013800@www.naxys.be
SUMMARY:2020 international FRANCQUI Chair - Master equation
DESCRIPTION:Guest lecturer: Pr. Duccio Fanelli
URL:https://www.naxys.be/event/737/
LOCATION:E25
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200205T163000
DTEND;TZID=Europe/Paris:20200205T183000
DTSTAMP:20260416T013352
CREATED:20200115T163218Z
LAST-MODIFIED:20200115T163431Z
UID:734-1580920200-1580927400@www.naxys.be
SUMMARY:2020 international FRANCQUI Chair - Stochastic processes
DESCRIPTION:Guest lecturer: Pr. Duccio Fanelli
URL:https://www.naxys.be/event/2020-international-francqui-chair-stochastic-processes/
LOCATION:E25
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200204T170000
DTEND;TZID=Europe/Paris:20200204T180000
DTSTAMP:20260416T013352
CREATED:20200107T224805Z
LAST-MODIFIED:20200115T161057Z
UID:719-1580835600-1580839200@www.naxys.be
SUMMARY:INAUGURAL FRANCQUI CHAIR LECTURE. Complex systems: physics beyond physics
DESCRIPTION:Guest lecturer: Pr. Duccio Fanelli \nMacroscopic order from microscopic disorder:\nfrom endogenous noise to topology driven instability\nMore info: https://www.unamur.be/sciences/mathematique/chairfrancqui2020
URL:https://www.naxys.be/event/inaugural-francqui-chair-lecture-complex-systems-physics-beyond-physics/
LOCATION:E13\, 8 Rempart de la Vierge\, Namur\, Belgium
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20200204T130000
DTEND;TZID=Europe/Paris:20200204T160000
DTSTAMP:20260416T013352
CREATED:20200116T101924Z
LAST-MODIFIED:20200116T101957Z
UID:746-1580821200-1580832000@www.naxys.be
SUMMARY:EDT FNRS Doctoral School
DESCRIPTION:
URL:https://www.naxys.be/event/edt-fnrs-doctoral-school/
LOCATION:E25
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20191205T130000
DTEND;TZID=Europe/Paris:20191205T140000
DTSTAMP:20260416T013352
CREATED:20191018T080749Z
LAST-MODIFIED:20191118T103740Z
UID:633-1575550800-1575554400@www.naxys.be
SUMMARY:Yoshihiko Susuki (Osaka Prefecture University)
DESCRIPTION:Title: Koopman resolvent and Laplace-domain analysis of nonlinear autonomous dynamical systems \nAbstract: The motivation of the research is to establish a Laplace-domain theory that provides principles and methodology to analyze and synthesize systems with nonlinear dynamics. A class of composition operators defined for nonlinear dynamical systems\, called the Koopman operator\, plays a central role in this study. In my talk\, based on the characterization of such systems via spectral properties of the Koopman operator in literature\, I will consider the resolvent of the Koopman operator\, called Koopman resolvent\, for continuous-time autonomous dynamical systems\, and will discuss its expansion formulae for systems with three types of nonlinear dynamics: on-attractor evolution possibly exhibiting aperiodicity and off-attractor evolutions to stable equilibrium point and limit cycle. The Koopman resolvent is utilized for structural analysis of the systems such as location of modes (poles)\, which mirror the classic approach to linear autonomous systems. A computational aspect of the Laplace-domain representation will be also discussed with emphasis on non-stationary Koopman modes. The contents of my talk are joint work with Professor Alexandre Mauroy (University of Namur) and Professor Igor Mezic (University of California\, Santa Barbara).
URL:https://www.naxys.be/event/yoshihiko-susuki-osaka-prefecture-university/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20191121T130000
DTEND;TZID=Europe/Paris:20191121T140000
DTSTAMP:20260416T013352
CREATED:20190919T102622Z
LAST-MODIFIED:20191018T080842Z
UID:600-1574341200-1574344800@www.naxys.be
SUMMARY:Elias Fernández (VUB)
DESCRIPTION:Title: Uncertain times promote polarisation and reciprocation in a public goods game with risky commons \nAbstract: Anthropogenic climate change\, public health measures or even group hunting\, are some of the many collective endeavors characterized by uncertain\, long-term and non-linear returns. We operationalize these scenarios in a collective-risk dilemma\, where players can invest into a public good over a number of rounds\, and will only observe their payoff when the game ends. The risk of crossing a dangerous threshold is able to transform a traditional public goods game\, where players incur in the well-known tragedy of commons\, into a coordination game\, where success depends on surpassing a coordination barrier. Behavioral experiments indicate that\, when the risk of collective loss is high\, slightly more than half of the experimental groups are able to coordinate and avoid the dangerous threshold. However\, uncertainties over environmental variables\, such as the placement of the threshold\, revert the game back into a prisoner’s dilemma\, decreasing group success. Here we show experimentally the effect of uncertainty about the number of rounds the game will take\, i.e.\, how much time the players have to avoid the consequences of surpassing a dangerous threshold. Surprisingly\, our results indicate that\, for low levels of this timing uncertainty\, not only collective success does not decrease significantly\, but we observe a behavioral shift. Contrarily to what happens when there is no uncertainty\, participants invest earlier and in a more polarized manner. Also\, a behavioural analysis of the experimental data reveals that\, under timing uncertainty\, participants of successful groups tend to reciprocate in a similar fashion to the group analogous of the Tit-for-Tat strategy\, where players only increase their investments if the group does the same. Such a result indicate that certain behavioral ecosystems are more successful than others in achieving the equilibrium that is socially optimum.
URL:https://www.naxys.be/event/600/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20191024T100000
DTEND;TZID=Europe/Paris:20191024T170000
DTSTAMP:20260416T013352
CREATED:20190911T091840Z
LAST-MODIFIED:20191011T105033Z
UID:598-1571911200-1571936400@www.naxys.be
SUMMARY:naXys Research Day 2019
DESCRIPTION:Annual naXys Research Day 2019 \nWho are we? What are our specificities? \nOctober 24th 2019\nSalle Lucien Wargnies\, 41B rue du Belvédère\, 5000 Namur (Salzinnes) \nProgram\nWelcome & Introduction: 10h00-10h30: Pr. Anne-Sophie Libert \nMorning session: Interactions between Institutes of Complex Systems \n Invited speakers:  \n\n 	10h30-11h15: Pr. Diaz-Guilera\, Complex Systems of Barcelona UBICS\n 	11h15-12h00: Pr. Paul Bourgine\, Complex Systems Institute of Paris IDF\n\nLunch: 12h00-13h00  \nAfternoon session: Our research in naXys \nContributed Talk of Pole ECO: 13h00-13h30: Pr. Jean-Yves Gnabo\nContributed Talk of Pole BIO: 13h30-14h00: Pr. Frederik De Laender \nFlash-talks (3 minutes each): 14h00-15h00 \nCoffee Break: 15h00-15h30 \nContributed Talk of Pole SPACE: 15h30-16h00: Pr. Anne Lemaître\nContributed Talk of Pole ROBUST: 16h00-16h30: Julien Petit\nContributed Talk of Pole OPTI: 16h30-17h00: Dr. Yves Caudano \nConclusions \nRegistration\nRegistration is free but mandatory\, before Wednesday\, October 15th\, through the following web form. \nWe strongly encourage submissions of flash talks for all PhD students to present their research in 3 slides\, 3 minutes. PhD students will receive certificate with ECTS mention for their participation and/or presentation.
URL:https://www.naxys.be/event/naxys-research-day/
LOCATION:Salle Lucien Wargnies\, 41B rue du Belvédère\, 5000 Namur (Salzinnes)\, Belgium
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20191017T130000
DTEND;TZID=Europe/Paris:20191017T140000
DTSTAMP:20260416T013352
CREATED:20190911T091448Z
LAST-MODIFIED:20190930T063853Z
UID:593-1571317200-1571320800@www.naxys.be
SUMMARY:Riccardo Muolo (UNamur)
DESCRIPTION:Title: Effects of Non-normality on Turing Instability \nAbstract: Turing mechanism describes the emergence of spatial patterns in a reaction-diffusion system of two or more species: when certain conditions are matched\, a perturbation starting from a homogeneous stable state guides the system towards a nonhomogeneous one\, the celebrated Turing patterns\, following a diffusion-driven instability [1]. The classical linear stability analysis that describes such phenomenon is based on the spectra of involved the operators. However\, such analysis may fail when the involved linear operators are non-normal\, due to a transient growth [2]. Such effect is even stronger when the system is studied on a non-normal network\, i.e.\, a network whose adjacency matrix is non-normal [3]. In a recently published work [4] we have made use of such theoretical background to extend the original theory by obtaining non-normality patterns when Turing contitions are not satisfied.\nIn this seminar I will go through the main steps of this itinerary\, from classical Turing Instability to patterns of non-normality. Firstly\, I will present qualitatively the idea of Turing\, then\, after having introduced the notion of network\, I will talk about processes of diffusion on discrete support\, I will explain a recent extention of Turing Theory on symmetric network [5] and how an asymmetric topology can affect the mechanism of pattern formation [6]. Before moving to the last part\, I will introduce the concept of non-normality and its effects on the dynamics [7]. Finally\, I will present our extension of Turing Theory on non-normal networks [4] and discuss some open problems and possible future developments. \nReferences\n[1] Turing\, A.M.\, 1952. The chemical basis of morphogenesis. Phil. Trans. R. Soc. B 237\, 37–72;\n[2] Trefethen\, L.N.\, Embree\, M.\, 2005. Spectra and Pseudospectra: The Behavior of Nonnormal Matrices and Operators. Princeton University Press\, Princeton\, NJ;\n[3] Asllani\, M.\, Lambiotte\, R.\, Carletti\, T.\, 2018. Structure and dynamics of non-normal networks\, Sci. Adv. 4\, 1–8. Eaau9403;\n[4] Muolo\, R.\, Asllani\, M.\, Fanelli\, D.\, Maini\, P.K.\, Carletti\, T.\, 2019. Patterns of non-normality in networked systems. Journal of Theoretical Biology 480 81–91;\n[5] Nakao\, H.\, Mikhailov\, A.S.\, 2010. Turing patterns in network-organized activator-inhibitor systems. Nat. Phys. 6\, 544;\n[6] Asllani\, M.\, Challenger\, J.D.\, Pavone\, F.S.\, Sacconi\, L.\, Fanelli\, D.\, 2014. The theory of pattern formation on directed networks. Nat. Comm. 5\, 4517;\n[7] Asllani\, M.\, Carletti\, T.\, 2018. Topological resilience in non-normal networked systems. Phys. Rev. E 97\, 042302.
URL:https://www.naxys.be/event/riccardo-muolo/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20191003T130000
DTEND;TZID=Europe/Paris:20191003T140000
DTSTAMP:20260416T013352
CREATED:20190911T090549Z
LAST-MODIFIED:20190930T063836Z
UID:589-1570107600-1570111200@www.naxys.be
SUMMARY:Anthony Hastir (UNamur)
DESCRIPTION:Title: On stability and control of nonlinear infinite-dimensional systems \nAbstract: We consider nonlinear dynamical systems whose state evolves in an infinite-dimensional space\, typically a Hilbert space. Stability properties of an equilibrium of such systems can be deduced by looking at a Gâteaux/Fréchet linearization of the nonlinear dynamics around that equilibrium. From « Al Jamal\, R.\, Morris\, K.\, 2018\, Linearized stability of partial differential equations with application to stabilization of the Kuramoto-Sivashinsky equation\, SIAM Journal on Control and Optimization 56 (1)\, 120–147 »\, it is known that\, if the Gâteaux/Fréchet linearization generates an exponentially stable C 0 -semigroup that is Fréchet differentiable at the equilibrium\, the nonlinear dynamics will generate a locally exponentially stable C 0 – semigroup of nonlinear operators. However\, checking the Fréchet differentiability of nonlinear operators is really challenging when they are unbounded. This observation leads us to propose a weakenend definition of Fréchet differentiability by considering different norms. This allows more flexibility in the manipulation of norm inequalities\, providing Fréchet differentiability conditions that can be verified more easily. Under some appropriate assumptions\, we show how to get Fréchet differentiability of the nonlinear semigroup in a weaker sense in order to establish appropriate local exponential stability of the nonlinear system.\nWe show also that every linear and bounded perturbation added to the nonlinear dynamics preserves the Fréchet differentiability property of the nonlinear C 0 -semigroup generated by these perturbed dynamics. For instance\, this property is of primary importance when the system is controlled by means of a feedback law. Indeed\, it implies that every stabilizing feedback for the linearized dynamics will locally exponentially stabilize the nonlinear dynamics around an equilibrium. This allows to design a stabilizing controller on a linearized model instead of a nonlinear one.\nOur results are applied to a nonisothermal axial dispersion tubular reactor model for which we consider distributed LQ-optimal regulation of the temperature.
URL:https://www.naxys.be/event/anthony-hastir-unamur/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20190919T130000
DTEND;TZID=Europe/Paris:20190919T140000
DTSTAMP:20260416T013352
CREATED:20190905T080838Z
LAST-MODIFIED:20190911T090243Z
UID:587-1568898000-1568901600@www.naxys.be
SUMMARY:Hamza Bennani (University Paris Nanterre)
DESCRIPTION:Titre: Does a Sentiment Shock Help to Predict Monetary Policy: Evidence from the ECB \nAbstract: This paper aims to assess whether sentiment shock is helpful in predicting ECB monetary policy decisions. We use a bag-of-words approach and several dictionar- ies on ECB’s President introductory statements to derive a measure of sentiment. Next\, we orthogonalize the sentiment measure on a set of macroeconomic and finan- cial variables to compute sentiment shock. Finally\, we test whether sentiment shock is useful to predict ECB monetary policy decisions. We find that sentiment shock is significantly and positively related to future ECB policy decisions\, even when controlling for future economic conditions and market expectations about mone- tary policy. Further extensions show that the predictive power of sentiment shock is robust to (i) the scoring method chosen to compute sentiment\, (ii) alternative expectations about monetary policy and (iii) the macroeconomic forecasts used in the monetary policy Taylor rule. However\, we find that the predictive power of sentiment shock is sensitive to the dictionaries used to compute the measure of sentiment. These findings highlight an additional channel by which ECB communication improves monetary policy predictability.
URL:https://www.naxys.be/event/hamza-bennani-university-paris-nanterre/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20190905T140000
DTEND;TZID=Europe/Paris:20190905T180000
DTSTAMP:20260416T013352
CREATED:20190905T075842Z
LAST-MODIFIED:20190905T075950Z
UID:583-1567692000-1567706400@www.naxys.be
SUMMARY:Workshop Dynamical processes on networks
DESCRIPTION:14h00-15h00: Hiroya Nakao\, Tokyo Institute of Technology (Japan) \nCollective oscillations and synchronization in networks of coupled dynamical elements \n15h00-15h40: Duccio Fanelli\, Università di Firenze (Italy) \nTuring-like patterns from purely reactive systems \n15h40-16h20: Julien Petit\, UNamur \nDiffusion-based processes: from graphs to graphons \n16h20-16h50: Coffee break \n16h50-17h40: Alexandre Mauroy\, UNamur \nOperator theoretic methods for network identification \n17h40-18h20: Malbor Asllani\, MACSI University of Limerick (Ireland) \nEmergence of non-normality in real life networked systems
URL:https://www.naxys.be/event/workshop-dynamical-processes-on-networks/
LOCATION:E22
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20190523T130000
DTEND;TZID=Europe/Paris:20190523T140000
DTSTAMP:20260416T013352
CREATED:20190212T115441Z
LAST-MODIFIED:20190426T055429Z
UID:542-1558616400-1558620000@www.naxys.be
SUMMARY:Pauline Thémans (UNamur)
DESCRIPTION:Title: Pharmacokinetic modeling and strategies for drug dosing recommendation: application to meropenem \nAbstract: Pharmacokinetics (PK) studies the link between the dose and the drug exposure in patients. Thanks to mathematical modeling\, clinical pharmacology is an interesting and promising field of application of control and system theory. We focus on time-dependent antibiotic given by constant intravenous (IV) infusion at regular dosing interval. Meropenem is used as a particular case for which numerical results are reported. \nWe report on the study of two kinds of models: a population pharmacokinetic (popPK) model (empirical approach\, mixed effects modeling) and a physiologically-based pharmacokinetic (PBPK) model (mechanistic approach\, human physiology and drug’s properties considerations). We will describe the results of internal and external validations that were performed. Both models are described by linear time-invariant state-space models. They are shown to be nonnegative and stable\, as expected. \nFrom these models\, the aim is to provide guidelines (decision-making aid) for drug dosing in patients based on relevant patient’s characteristics (covariates) and on other practical conditions (target exposure for efficacy\, dosing interval\, time of infusion\, etc.). The studied approaches are based on open-loop methods. (1) A standard input-output analysis yields the analytical expression of the output trajectories and the asymptotic response. A formula is then derived to compute the dose needed to maintain the (steady) concentration trajectory above a given lower bound. (2) We also describe an optimal control approach on the discrete-time model (minimum principle). \n 
URL:https://www.naxys.be/event/pauline-themans-unamur/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20190516T130000
DTEND;TZID=Europe/Paris:20190516T140000
DTSTAMP:20260416T013352
CREATED:20190313T092254Z
LAST-MODIFIED:20190509T205830Z
UID:564-1558011600-1558015200@www.naxys.be
SUMMARY:Maxime Lucas (Lancaster University\, UK & University of Florence\, Italy)
DESCRIPTION:Title: Network synchronisation with time-varying parameters\n \nAbstract: Many systems in nature\, especially living systems\, can be modelled as a collection of interacting oscillators. Such systems can exhibit a plethora of behaviours\, amongst which synchronisation\, a state of maximal coherence\, is of crucial importance. Indeed\, the synchronisation of the beat of heart cells is as necessary as the synchronisation of neurons can be a bad pre-seizure sign. So far\, ensembles of oscillators have been studied mostly as closed systems so that all parameters such as coupling or frequencies are constant. Very often\, however\, living systems are open and under the non-negligible influence of their environment\, which is in general varying with time. This in turn influence internal parameters of the systems: the frequency of our heartbeat is far from constant\, for example. Here\, we include time-variability in our mode\, and see the effect it has on the dynamics and its stability.\n\nHere\, we will see how time-variability can benefit or reduce stability in two scenarios: a temporal network (time-varying topology)\, and a network driven by an external oscillator with a time-varying frequency. We will discuss how\, in the first case\, synchronization is negatively affected\, but that the region of synchronization is enlarged in the second case. Moreover\, we will discuss the importance of looking into the dynamics of such systems at both short and long timescales. Time-varying features in models of living systems can bring us closer to realistic models\, and allow us to reveal richer dynamics resulting from it.
URL:https://www.naxys.be/event/maxime-lucas-marseille/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20190507T130000
DTEND;TZID=Europe/Paris:20190507T140000
DTSTAMP:20260416T013352
CREATED:20190220T180356Z
LAST-MODIFIED:20190425T133242Z
UID:557-1557234000-1557237600@www.naxys.be
SUMMARY:Debmalya Das (Harish-Chandra Research Institute\, Allahabad\, India)
DESCRIPTION:Title: The Quantum Chesire Cat: some new aspects and possibilities \nAbstract: Quantum Chesire Cat is a counterintuitive phenomenon that provides a new window into the nature of the quantum systems in relation to multiple degrees of freedom associated with a single physical entity. Under suitable pre and postselections\, a photon (the cat) can be decoupled from its circular polarization (its grin). In this talk\, we will explore whether the grin without the cat can be teleported to a distant location. This will be a totally disembodied teleportation protocol. Based on the original Quantum Chesire Cat setup\, we design a protocol where the circular polarization is successfully teleported between two spatially separated parties even though the photon is not physically present with them. The process raises questions in our understanding about properties of quantum system. We further demonstrate this by swapping the grins of two Quantum Chesire Cats. We also briefly discuss about a few interesting new aspects of the original Quantum Chesire Cat protocol.
URL:https://www.naxys.be/event/debmalya-das-harish-chandra-research-institute-allahabad-india/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
BEGIN:VEVENT
DTSTART;TZID=Europe/Paris:20190502T130000
DTEND;TZID=Europe/Paris:20190502T140000
DTSTAMP:20260416T013352
CREATED:20190306T132149Z
LAST-MODIFIED:20190425T133454Z
UID:562-1556802000-1556805600@www.naxys.be
SUMMARY:Nathanaël Kasoro Mulenda (University of Kinshasa\, DRC)
DESCRIPTION:Title: PercoMCV: A hybrid approach of community detection in social networks \nAbstract: Knowledge extraction in social networks is a needful tool as it touches every aspect of our lives such as politic\, socio-economic\, scientific\, etc. Community detection is one of the objectives of this specific tool used for knowledge extraction in social networks. \nMany algorithms of knowledge extraction from social networks have been developed these last years. However\, many of them are not constant\, effective and accurate when facing these social networks with many edges. \nIn this paper\, we propose a new approach of community detection in social networks with many links between communities. The proposed approach has two steps. In the first step\, the algorithm attempts to determine all communities that the clique percolation algorithm may find. In the second step\, the algorithm computes the Eigenvector Centrality method on the output of the first step in order to measure the influence of network nodes and reduce the rate of the unclassified nodes. \nTo assess this new approach\, we test it on different types of networks. Relevant communities that have been detected testifies effectiveness and performance of the approach over other community detection algorithms. \n  \n 
URL:https://www.naxys.be/event/nathanael-kasoro-mulenda-university-of-kinshasa/
LOCATION:E25
CATEGORIES:NAXYS Seminar
END:VEVENT
END:VCALENDAR