Letteratura scientifica selezionata sul tema "Approche ascendante (bottom-Up)"
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Articoli di riviste sul tema "Approche ascendante (bottom-Up)":
Cloutier, L. Martin, Sandrine Cueille e Gilles Recasens. "Mise à l’épreuve de la cartographie des concepts comme méthode intégrative d’identification et d’analyse d’un écosystème entrepreneurial". Revue internationale P.M.E. 27, n. 3-4 (15 gennaio 2015): 15–49. http://dx.doi.org/10.7202/1028039ar.
Sogodogo, Abdoul. "Médiation algérienne dans les conflits maliens". Études internationales 53, n. 1 (26 luglio 2022): 97–120. http://dx.doi.org/10.7202/1090710ar.
Garba, Issa, Zakari Seybou Abdourahamane, Abdou Amadou Sanoussi e Illa Salifou. "Optimisation de l'Evaluation de la Biomasse Fourragère en Zone Sahélienne Grâce à l’Utilisation de la Méthode de Régression Linéaire Multiple en Conjonction Avec la Stratification". European Scientific Journal, ESJ 19, n. 33 (30 novembre 2023): 52. http://dx.doi.org/10.19044/esj.2023.v19n33p52.
Heydon, Kenneth. "Plurilateral Agreements and Global Trade Governance: A Lesson from the OECD". Journal of World Trade 48, Issue 5 (1 ottobre 2014): 1039–55. http://dx.doi.org/10.54648/trad2014036.
Zhang, Zheng, e Nazia Bano. "Multiple Cultures, Multiple Literacies, and Collective Agencies: Chinese and Pakistani Immigrants’ Perceptions of Family Literacy Support". Comparative and International Education 39, n. 3 (1 dicembre 2010). http://dx.doi.org/10.5206/cie-eci.v39i3.9164.
McNamara, Michael J., Sara J. Cumming e Jessica Pulis. "Innovations from the Margins: Creating Inclusive and Equitable Academic-Community Research Collaborations". Canadian journal of nonprofit and social economy research 9, n. 2 (6 febbraio 2019). http://dx.doi.org/10.22230/cjnser.2018v9n2a279.
Tesi sul tema "Approche ascendante (bottom-Up)":
Pijeat, Joffrey. "Anthracenylporphyrin based building blocks for the bottom-up fabrication of nitrogen-doped graphene nanostructures". Thesis, Université Paris-Saclay (ComUE), 2019. http://www.theses.fr/2019SACLS346/document.
The synthesis of graphene via bottom-up approach is a hot topic of research that aims to control the electronic and optical properties of this material by the fabrication of atomically precised nanostructures. Moreover, the control of dopant in graphene is of great interest to modulate the properties of the material. In this context, the contribution of porphyrins with a controlled content of nitrogen is attractive in this context. Because of structural similarities with graphene quantum dots (GQDs), π-extented porphyrins can be regarded as nitrogen-doped GQD with promising NIR properties. Porphyrins are convenient building blocks for the synthesis on surface of nanoarchitectures of graphene called nitrogen-doped Graphene Nanoribbons (GNRs) and Graphene NanoMeshes (GNMs). This thesis aims to develop the synthesis of symmetrical and robust porphyrins with anthracenes and to use them as precursors for the fabrication of nanostructures. The first part of this thesis is dedicated to the organic synthesis of variety of anthracenylporphyrins and the study of their assemblies on surface in a chamber of a Scanning Tunneling Microscope. The second part is dedicated to the study of formation of π-extended porphyrins via a method of flash pyrolysis able to thermally activate dehydrogenative coupling reactions between Polycyclic Aromatic Hydrocarbons (PAHs) and porphyrins. The last part is dedicated to the post synthetic modification of a tetrabromoanthracenylporphyrin with additional PAHs via Suzuki-Miyaura coupling and the characterization of the optical properties of the resulting porphyrins
Botton, Julien. "Nanolithographie par sonde locale catalytique : une approche bottom-up pour la nanostructuration de surfaces organominérales". Electronic Thesis or Diss., Aix-Marseille, 2015. http://www.theses.fr/2015AIXM4389.
In regard to the constant quest for miniaturization, the field of nanosciences has known a tremendous expansion over the last decade. More precisely, lithographic technologies - key processes for the semi-conductor industry – allow to access to functional nanomaterials. Despite recent technological developments, the synthesis of nanostructures with a sub-100 nm resolution remains a major challenge for the scientific community.Due to the growing interest in the design of new nanolithographic methods, our group has focused its efforts on the development of a chemical approach, named catalytic scanning probe lithography (cSPL). Unifying the robustness of organometallic catalysis and the flexibility offered by scanning probe microscopy, our strategy allows the nanostructuration of organomineral surfaces in a soft controlled manner by the formation of covalent bonds. This innovative approach represents the first example of the immobilization of an homogeneous catalyst on the edge of an atomic force microscope (AFM) tip, in order to spatially control a chemical reaction: the localized epoxidation reaction of terminal alkenes. Those epoxides were then used as anchoring sites, in the nanostructuration of silicon wafers with a broad range of nucleophiles. Moreover, the different physico-chemical parameters influencing the reaction were optimized, allowing us to reach lateral resolutions down to 40 nm and opening new perspectives in the field of 3D-nanostructuration of organic materials
Botton, Julien. "Nanolithographie par sonde locale catalytique : une approche bottom-up pour la nanostructuration de surfaces organominérales". Thesis, Aix-Marseille, 2015. http://www.theses.fr/2015AIXM4389.
In regard to the constant quest for miniaturization, the field of nanosciences has known a tremendous expansion over the last decade. More precisely, lithographic technologies - key processes for the semi-conductor industry – allow to access to functional nanomaterials. Despite recent technological developments, the synthesis of nanostructures with a sub-100 nm resolution remains a major challenge for the scientific community.Due to the growing interest in the design of new nanolithographic methods, our group has focused its efforts on the development of a chemical approach, named catalytic scanning probe lithography (cSPL). Unifying the robustness of organometallic catalysis and the flexibility offered by scanning probe microscopy, our strategy allows the nanostructuration of organomineral surfaces in a soft controlled manner by the formation of covalent bonds. This innovative approach represents the first example of the immobilization of an homogeneous catalyst on the edge of an atomic force microscope (AFM) tip, in order to spatially control a chemical reaction: the localized epoxidation reaction of terminal alkenes. Those epoxides were then used as anchoring sites, in the nanostructuration of silicon wafers with a broad range of nucleophiles. Moreover, the different physico-chemical parameters influencing the reaction were optimized, allowing us to reach lateral resolutions down to 40 nm and opening new perspectives in the field of 3D-nanostructuration of organic materials
Carloganu, Sinziana. "Evaluation de produits d'effacement sur un ensemble de consommateurs par modélisation bottom-up d'un parc de logements". Thesis, Paris Sciences et Lettres (ComUE), 2016. http://www.theses.fr/2016PSLEM064.
This thesis aims at evaluating load curtailments packages over a set of electricity users, each being defined by the triolet {building, system, household}. We define a load curtailment package by the quantification of the load curve's deformation due to the emission of a control signal (direct control or price incentive).Two dimensions were considered through this work: first the study of the different variables' influence using experimental data, and secondly the construction of a global model which can effectively reproduce the diversity observed on experimental load curves.In order to analyse a sample {building, system, household}, the dispersion of the different caracteristics of the building (envelope, exposure,...) were carefully studied, as well as the possible links between the household (lifestyle, choice of household equipments,...) and the systems (technical caracteristics) especially for the electrical heaters and HVAC systems.We work to reconcile data from different sources (statistical data, data from research on urban building caracterization, on households' habits,...) and we are able to give a first evaluation of load curtailment products over the electrical heating usage in urban environment through numerical simulations of a few thousand housings. The bottom-up approach used accounts for the technical diversity, as well as the functional and behavioral diversity of the studied electrical usage
Janzakova, Kamila. "Développement de dendrites polymères organiques en 3D comme dispositif neuromorphique". Electronic Thesis or Diss., Université de Lille (2022-....), 2023. http://www.theses.fr/2023ULILN017.
Neuromorphic technologies is a promising direction for development of more advanced and energy-efficient computing. They aim to replicate attractive brain features such as high computational efficiency at low power consumption on a software and hardware level. At the moment, brain-inspired software implementations (such as ANN and SNN) have already shown their successful application for different types of tasks (image and speech recognition). However, to benefit more from the brain-like algorithms, one may combine them with appropriate hardware that would also rely on brain-like architecture and processes and thus complement them. Neuromorphic engineering has already shown the utilization of solid-state electronics (CMOS circuits, memristor) for the development of brain-inspired devices. Nevertheless, these implementations are fabricated through top-down methods. In contrast, brain computing relies on bottom-up processes such as interconnectivity between cells and the formation of neural communication pathways.In the light of mentioned above, this work reports on the development of programmable 3D organic neuromorphic devices, which, unlike most current neuromorphic technologies, can be created in a bottom-up manner. This allows bringing neuromorphic technologies closer to the level of brain programming, where necessary neural paths are established only on the need.First, we found out that PEDOT:PSS based 3D interconnections can be formed by means of AC-bipolar electropolymerization and that they are capable of mimicking the growth of neural cells. By tuning individually the parameters of the waveform (peak amplitude voltage -VP, frequency - f, duty cycle - dc and offset voltage - Voff), a wide range of dendrite-like structures was observed with various branching degrees, volumes, surface areas, asymmetry of formation, and even growth dynamics.Next, it was discovered that dendritic morphologies obtained at various frequencies are conductive. Moreover, each structure exhibits an individual conductance value that can be interpreted as synaptic weight. More importantly, the ability of dendrites to function as OECT was revealed. Different dendrites exhibited different performances as OECT. Further, the ability of PEDOT:PSS dendrites to change their conductivity in response to gate voltage was used to mimic brain memory functions (short-term plasticity -STP and long-term plasticity -LTP). STP responses varied depending on the dendritic structure. Moreover, emulation of LTP was demonstrated not only by means of an Ag/AgCl gate wire but as well by means of a self-developed polymer dendritic gate.Finally, structural plasticity was demonstrated through dendritic growth, where the weight of the final connection is governed according to Hebbian learning rules (spike-timing-dependent plasticity - STDP and spike-rate-dependent plasticity - SRDP). Using both approaches, a variety of dendritic topologies with programmable conductance states (i.e., synaptic weight) and various dynamics of growth have been observed. Eventually, using the same dendritic structural plasticity, more complex brain features such as associative learning and classification tasks were emulated.Additionally, future perspectives of such technologies based on self-propagating polymer dendritic objects were discussed
Queiros, Quentin. "Mechanisms underlying the bottom-up control of sardine populations in the Gulf of Lions : insights from experiments and modeling". Thesis, Montpellier, 2019. http://www.theses.fr/2019MONTG073.
The Gulf of Lions has faced a sharp drop in the catches of its two main small pelagic exploited species, the sardine Sardina pilchardus and the anchovy Engraulis encrasicolus since the mid-2000s, despite both population abundances remaining high. This situation has been due to a severe decrease in individual body condition and size as a result of both lower growth and the disappearance of the oldest and largest individuals. While overfishing, predation or disease outbreaks have been refuted to explain this situation, one major hypothesis remained to be investigated. A potential shift in sardine and anchovy diet towards smaller planktonic prey indeed suggested bottom-up control as the main driver of these populations in the Gulf of Lions. The first aim of this thesis was to investigate whether bottom-up processes could explain the changes in sardine growth and condition through changes in both food size and/or quantity and to understand the behavioral and physiological mechanisms involved in this control. The second objective of this PhD thesis was to identify the potential underlying drivers leading to adult overmortality. To do so, we combined an experimental approach on wild sardines maintained in captivity with a modeling approach. Experimentations showed that body condition, growth and storage lipids were significantly impacted by both food size and quantity. Thus, sardines fed on small particles needed to consume twice as much as those feeding on large particles to achieve the same condition and growth. Such results seemed to be linked to higher energy expenditures of sardines while filtering small prey compared to particulate feeding on large prey (sardines being able to shift between two feeding modes according to the prey size). Moreover, our results suggested several adaptations to cope with small food and caloric restriction. The study of the gill raker apparatus involved in the filtration of small prey suggested an increase of the filtration capacity for a given length between 2007-2009 and 2016. Then, sardines fed on small particles exhibited higher mitochondria efficiency and abundance suggesting energy-saving adaptation. Finally, sardines accustomed to feed on small pellets showed lower activity to limit energy expenditure. Nevertheless, all these strategies might incur other costs or may not be enough to compensate the high energy demands of filtration on small prey, as growth and condition remained lower for sardines filtering small prey in all our experiments. Further, sardines fed on large pellets exhibited higher spawning frequency than sardines fed with the same quantity of small ones. The low egg production of these sardines might be explained by a too high body condition of these individuals to observe a change in energy trade-off towards reproduction. For the same reasons, small particle meals did not seem to impact their immunity and stress, leucocyte and cortisol concentrations being similar whatever the feeding treatment. Furthermore, to investigate the hypothesis of adult overmortality, we first studied whether individual could die from starvation and low body reserves. The survival probability sharply decreased when the body condition index became lower than 0.75 and the threshold of 0.72 was identified as the entry in phase III of fasting. While the proportion of sardines reaching such thresholds in the wild remains low, it still increased two-fold in the recent period, reaching about 10% in winter months. A DEB model parameterized using a combination of in-situ and experimental data suggested a lower survival probability for larger fish. Individuals larger than 14 cm, i.e. older than 2-3 years, had a lower than 50 % probability to survive 1 month after the reproduction period. In conclusion, these previous results comforted the two hypotheses of a bottom-up control and an overmortality of adult sardines after reproduction to explain the dynamic and demographic truncation of the sardine population
Pousthomis, Marc. "De la synthèse chimique de nanoparticules aux matériaux magnétiques nano-structurés : une approche pour des aimants permanents sans terre rare". Thesis, Toulouse, INSA, 2016. http://www.theses.fr/2016ISAT0012/document.
The production of nano-structured permanent magnets is a promising alternative to rare earth magnets, which induced geopolitical and environmental issues. In order to elaborate such materials, we followed a bottom-up approach based on chemical methods. A first objective consisted in synthesizing hard magnetic nanoparticles (NPs) as building blocks for nano-structured magnets. The properties of cobalt nanorods (Co NRs) synthesized by the polyol process have been systematically studied. Coercive fields could be raised from 3 to 7 kOe by decreasing the diameter and improving the structural aspect ratio. Micro-magnetic simulations showed that a magnetization reversal following a nucleation and domain-wall propagation process could explain the experimental results. Bi-metallic FePt and tri-metallic FePtX (X = Ag, Cu, Sn, Sb) exhibiting the FCC structure were synthesized following two routes based on the reduction of an organometallic Fe precursor or of metallic acetylacetonates. Annealing at high temperatures (650°C for FePt, 400°C for FePtX) allowed the phase transition FCC L10 to occur, leading to high coercive fields (>12 kOe). A multi-steps process, involving the protection of FePt NPs with an MgO shell and an annealing at 850°C, was optimized to produce L10 FePt NPs with a mean size of 10 nm and a coercivity up to 27 kOe. In the second part of our study, we worked on assemblies of NPs with different magnetic anisotropies. Two systems were studied : FCC FePt+BCC FeCo, L10 FePt+HCP Co NRs. In both cases, the contact between the two types of NPs was favored by the presence of a bi-functional ligand followed by an annealing step. Concerning the FePt+FeCo system, the high temperature annealing (650°C), required to get the L10 FePt phase, led to the inter-diffusion of the phases and to the dissolution of the BCC FeCo phase. For the FePt+Co system, a spring magnet behavior has been clearly evidenced, the two phases being efficiently coupled The inter-diffusion of the phases was limited thanks to the fairly low annealing temperature (400°C). A coercive field of 10 kOe was measured for a Pt content as low as 25%at., eventhough the Co NRs anisotropic morphology was lost
Cottet, Jonathan. "Development of microsystems for the controlled formation of cell aggregates by dielectrophoresis". Thesis, Lyon, 2018. http://www.theses.fr/2018LYSEC033/document.
Cell aggregates are an intermediary model between single cells and cell tissues used in many applications such as tissue engineering and in vitro drug screening. The creation of cells aggregates of controlled size and properties requires the development of new bottom-up strategies. The work developed in this manuscript aims at presenting the development of microsystems for the electric force-driven controlled formation of cell aggregates under flow conditions. This approach is based on dielectrophoresis, a phenomenon that causes induced motion on dielectric particles placed in a non-uniform electric field. A computational tool, MyDEP, was first developed in order to predict the behavior of cells in a specific medium. It allows to study the dielectric response of particles and cells as a function of frequency. The software also includes a database gathering cell dielectric models available in the literature to help experienced users as well as neophytes to understand the dielectrophoretic behavior of particles and cells and to choose parameters such as electric conductivity of the medium and frequency before performing laboratory experiments. Different designs for cell trapping are proposed and simulated in 2D with FEM using COMSOL Multiphysics. Their fabrication implied the development of a reproducible method for μm precision alignment of microchannels in a polymer called polydimethylsiloxane (PDMS) with coplanar titanium/platinum electrodes deposited on glass, using a conventional mask aligner. It is based on the use of a silicon mold in combination with a Poly(methyl methacrylate) (PMMA) sarcophagus for precise control of the parallelism between top and bottom surfaces of molded PDMS. The trapping design based on coplanar electrodes was successfully tested experimentally on human embryonic kidney cells (HEK) with an automated setup. It proves its capability to create aggregates of a controlled number of cells with DEP. The cell aggregates proved to be stable (no disruption) after only 5 minutes of cell-cell contact. An impedance-based sensor design was proposed for characterizing single cells and cells aggregates before and after the trapping chamber. This sensor was successfully tested experimentally to detect particle passage in combination with the dielectrophoretic trapping design
Chamaret, Aurélie. "Une démarche Top-Down / Bottom-Up pour l’évaluation en termes multicritères et multi-acteurs des projets miniers dans l’optique du développement durable : application sur les mines d’Uranium d’Arlit (Niger)". Phd thesis, Université de Versailles-Saint Quentin en Yvelines, 2007. http://tel.archives-ouvertes.fr/tel-00194445.
Chamaret, Aurélie. "Une démarche Top-Down / Bottom-Up pour l’évaluation en termes multicritères et multi-acteurs des projets miniers dans l’optique du développement durable : application sur les mines d’Uranium d’Arlit (Niger)". Phd thesis, Versailles-St Quentin en Yvelines, 2007. http://www.theses.fr/2007VERS018S.
This thesis aims to appraise the relevance of using an hybrid top-down / bottom-up approach to evaluate mining projects in the perspective of sustainable development. With the advent of corporate social responsibility and sustainable development concepts, new social expectations have appeared towards companies that go beyond a sole requirement of profit-earning capacity. If companies do not answer to these expectations, they risk to lose their social legitimacy. Traditionally associated with social, environmental, economical and political impacts and risks, mining activity is particularly concerned by these new issues. Whereas mineral resources needs have never been so high, mining companies are now expected to limit their negative effects and to take into account their different audiences’ expectations in order to define, together, the terms of their social license to operate. Considering the diversity of issues, scales, actors and contexts, the challenge is real and necessitates tools to better understand issues and to structure dialogues. Based on the Uranium mines of Arlit (Niger) case study, this work shows that associating participatory approaches to structuring tools and literature propositions, appears as an efficient formula to better organise issues diversity and to build a structured dialogue between mining companies and their stakeholders. First Part aims to present the theoretical, institutional and sectorial contexts of the thesis. Second Part exposes work and results of the evaluation carried out in Niger. And, Third Part, shows the conclusions that can be derived from this work and presents a proposal for an evaluation framework, potentially applicable to other mining sites