515 research outputs found

    Bumblebee communities in open and overgrown heathlands in Nordhordland UNESCO Biosphere, Vestland, Norway

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    Insect pollinators such as bumblebees (Bombus spp.) play a vital role in the pollination of wild and cultivated plants and is therefore critical for ecosystem services and food security worldwide, especially in northern ecosystems. However, declines in pollinators have been reported due to anthropogenic drivers such as land use change and agricultural intensification. This study aims to investigate communities of Bombus species in open and overgrown heathlands in a UNESCO Biosphere Reserve in Vestland, Norway. Pan traps and insect aerial nets were used to effectively capture pollinators in six study sites during two distinct sampling periods: June and August. A total of nine Bombus species were identified, with the most abundant being B. lucorum complex, B. jonellus, and B. pascuorum, which accounted for 71% of the individuals. Species composition varied between the sites. The overgrown heathlands typically had a higher abundance of habitat generalists like B. pratorum, while the specialist and red-listed species B. muscorum were recorded exclusively in open heathlands. The sampling period was a significant predictor of B. muscorum abundance. B. jonellus however, was more abundant in overgrown sites despite being a specialist on Ericaceae, which may be due to the additional floral diversity and nesting sites found here. Further research should explore the potential impacts of landscape characteristics like fragmentation and management practices on the abundance of Bombus in heathlands. Habitat conservation is considered the most effective way to conserve insect pollinators and should be highlighted in policy-making decisions to maintain healthy populations.Masteroppgave i biologiBIO399MAMN-BIOMAMN-HAVS

    Romanticism in Print: Periodicals and The Politics of Aesthetics in Restoration Paris, 1814-1830

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    In 1814 allied forces defeated Napoleon’s armies and restored the Bourbon monarchy to the throne of France. In the wake of over two decades of revolution, empire, and upheaval, France built itself anew by calling on a past seemingly untainted by its recent sins and missteps, and by building toward a (hopefully) prosperous future. The debate over how to rebuild France took place not only in the world of high politics but also at the level of culture, and particularly through the literary debate between romantics and classicists – the bataille romantique. The literary debates between classicists and romantics, with their conceptions of what was ‘French’ and what was not, became entangled with political debates between liberals and royalists, and both classicism and romanticism could be mobilized for various political aims. Such disputes were publicized and crystalized in literary journals, which were both intellectual and commercial products. Through their robust debates about literature, these periodicals put forward competing proposals about how best to rebuild France. This dissertation examines the role of literary journals and other cultural and commercial institutions in the growth of romanticism in Paris between 1814 and 1830. It argues that the creation of romanticism as a genre, especially through its conflict with classicism, was a collaborative process that involved writers, printers, booksellers, readers, and institutions. The literary conflict between romanticism and classicism, which took place not only in the press, but also on stage, and in meeting halls, salons, and living rooms, played an important role in the development of a nascent civil society in early nineteenth-century Paris, and that the debate, along with those institutions of civil society, offered a seemingly non-political avenue through which to debate French society in the face of government restrictions on press freedom and freedom of assembly for political papers and organizations. The bataille romantique took on a particular salience in the Restoration because it paralleled and became entwined with the conflict between revolution and counter-revolution that undergirded all political conflict in the Restoration

    Collision avoidance maneuver design based on multi-objective optimization

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    The possibility of having collision between a satellite and a space debris or another satellite is becoming frequent. The amount of propellant is directly related to a satellite’s operational lifetime and revenue. Thus, collision avoidance maneuvers should be performed in the most efficient and effective manner possible. In this work the problem is formulated as a multi-objective optimization. The first objective is the Δv, whereas the second and third one are the collision probability and relative distance between the satellite and the threatening object in a given time window after the maneuver. This is to take into account that multiple conjunctions might occur in the short-term. This is particularly true for the GEO regime, where close conjunction between a pair of object can occur approximately every 12h for a few days. Thus, a CAM can in principle reduce the collision probability for one event, but significantly increase it for others. Another objective function is then added to manage mission constraint. To evaluate the objective function, the TLE are propagated with SGP4/SDP4 to the current time of the maneuver, then the Δv is applied. This allow to compute the corresponding “modified” TLE after the maneuver and identify (in a given time window after the CAM) all the relative minima of the squared distance between the spacecraft and the approaching object, by solving a global optimization problem rigorously by means of the verified global optimizer COSY-GO. Finally the collision probability for the sieved encounters can be computed. A Multi-Objective Particle Swarm Optimizer is used to compute the set of Pareto optimal solutions.The method has been applied to two test cases, one that considers a conjunction in GEO and another in LEO. Results show that, in particular for the GEO case, considering all the possible conjunctions after one week of the execution of a CAM can prevent the occurrence of new close encounters in the short-term

    Spacecraft magnetic attitude control using approximating sequence Riccati equations

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    This paper presents the results of a spacecraft attitude control system based on magnetic actuators designed for low Earth orbits. The control system is designed by using a nonlinear control technique based on the approximating sequence of Riccati equations. The behavior of the satellite is discussed under perturbations and model uncertainties. Simulation results are presented when the control system is able to guide the spacecraft to the desired attitude in a variety of different conditions

    Approximate Solutions to Nonlinear Optimal Control Problems in Astrodynamics

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    A method to solve nonlinear optimal control problems is proposed in this work. The method implements an approximating sequence of time-varying linear quadratic regulators that converge to the solution of the original, nonlinear problem. Each subproblem is solved by manipulating the state transition matrix of the state-costate dynamics. Hard, soft, and mixed boundary conditions are handled. The presented method is a modified version of an algorithm known as "approximating sequence of Riccati equations." Sample problems in astrodynamics are treated to show the effectiveness of the method, whose limitations are also discussed

    Long term nonlinear propagation of uncertainties in perturbed geocentric dynamics using automatic domain splitting

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    Current approaches to uncertainty propagation in astrodynamics mainly refer tolinearized models or Monte Carlo simulations. Naive linear methods fail in nonlinear dynamics, whereas Monte Carlo simulations tend to be computationallyintensive. Differential algebra has already proven to be an efficient compromiseby replacing thousands of pointwise integrations of Monte Carlo runs with thefast evaluation of the arbitrary order Taylor expansion of the flow of the dynamics. However, the current implementation of the DA-based high-order uncertainty propagator fails in highly nonlinear dynamics or long term propagation. We solve this issue by introducing automatic domain splitting. During propagation, the polynomial of the current state is split in two polynomials when its accuracy reaches a given threshold. The resulting polynomials accurately track uncertainties, even in highly nonlinear dynamics and long term propagations. Furthermore, valuable additional information about the dynamical system is available from the pattern in which those automatic splits occur. From this pattern it is immediately visible where the system behaves chaotically and where its evolution is smooth. Furthermore, it is possible to deduce the behavior of the system for each region, yielding further insight into the dynamics. In this work, the method is applied to the analysis of an end-of-life disposal trajectory of the INTEGRAL spacecraft

    Comparative Assessment Of Different Constellation Geometries For Space-Based Application

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    As services from space are becoming an asset for life on Earth and the demand for data from space increases, the international interest in satellite constellations is increasingly growing. GPS (Global Positioning System) provides positioning and navigation. Iridium contains a relatively larger number of satellites for communication purpose. Molniya is a high elliptical orbits constellation providing high latitude coverage. Disaster Monitoring constellation consists of remote sensing satellites and brings responsiveness needed for emergencies. Recently, some companies, such as OneWeb, Samsung and Space-X, have made public their plan to deploy mega constellations of nanosatellites for global internet. Different constellation geometries have been proposed to meet various mission requirements, each one having specific advantages in terms of coverage, responsiveness, cost, etc. Thus, designing a constellation is a trade-off choice. The choice for a constellation is highly influenced by many factors, such as the system cost, the interaction with space environment (radiation and space debris), and the targeted terrestrial coverage. The design of a constellation requires selecting the parameters that best meet the mission requirements. To accomplish this, several studies on the comparison of satellite constellations proposed detailed analysis, e.g. the multi-criteria comparison for responsive constellations, the coverage assessment of elliptical constellations. However, most of them only focused on one or few performances, lacking of generalisation. A general study of constellation geometry can provide a basis for understanding the constellation design. This will allow the process of constellation design to be expedited by offering a proposal of an existing constellation style. This paper comparatively assesses different constellation geometries, including the classical proposed geometries and some less used configurations, and chooses the constellation geometry best suitable for a given mission (e.g. remote sensing, global internet). In this work, several parameters of constellation design will be considered to make a quantitative assessment: coverage (global or local), frequency of ground track repetition, responsiveness (i.e., how fast a satellite can be launched and the data return to Earth after launch), robustness to failure and speed of replenishment, end of life disposal, number of satellites and orbital altitude. The assessment will be conducted in a parametric approach. Each factor will be quantitatively evaluated by deriving a fitness function. Then, a series of weighting coefficients adapted to the given mission requirements will be chosen for the global fitness functions. Through multi objective optimisation, the constellation geometry best suitable for the given mission requirements will be derived
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