@phdthesis{Plodeck2010,
  author    = {Plodeck, Judith},
  title     = {Bruce Nauman und Olafur Eliasson : Strategien performativer Installationen},
  publisher = {Universit{\"a}tsverlag Potsdam},
  address   = {Potsdam},
  isbn      = {978-3-86956-032-8},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-40754},
  school      = {Universit{\"a}t Potsdam},
  pages     = {342},
  year      = {2010},
  abstract  = {Die Analyse vergleicht Installationen von Bruce Nauman und Olafur Eliasson ausgehend von der Fragestellung, wie sich die k{\"u}nstlerischen Performativit{\"a}tsstrategien der 1960er/70er Jahren und die der zeitgen{\"o}ssischen Kunst in ihren Wirkungen und Effekten unterscheiden lassen. Dabei werden die Positionen der beiden K{\"u}nstler als paradigmatisch f{\"u}r eine {\"A}sthetik des Performativen angesehen. Neben dem Vergleich der K{\"u}nstler steht die theoretische Auseinandersetzung mit der Diskursfigur der Performativit{\"a}t sowie deren methodischen Anwendbarkeit in der Kunstwissenschaft im Vordergrund. W{\"a}hrend sich Installationen der 1960er/70er Jahre besonders durch die psycho-physische Einwirkung auf die Sinneswahrnehmung des Betrachters auszeichnen und durchaus Schockeffekte beim Betrachter hervorrufen, befasst sich die zeitgen{\"o}ssische Kunstpraxis vornehmlich mit visuellen und poetischen Effekten, die eine kontemplative Rezeptionshaltung des Betrachters einfordern. Bruce Nauman war es ein Anliegen, den tradierten Status des Kunstwerks als ein zu Betrachtendes, das sich durch Begriffe wie Form, Ursprung und Originalit{\"a}t fassen ließ, in Frage zu stellen und stattdessen eine reale leibliche Erfahrung f{\"u}r den Betrachter nachvollziehbar werden zu lassen. K{\"u}nstlern wie Olafur Eliasson geht es in den k{\"u}nstlerischen Produktionen vor allem um die Wahrnehmung der Wahrnehmung sowie der Erzeugung von Pr{\"a}senzeffekten. Mit dem Aufkommen solcher Verfahren wurde deutlich, dass performative Installationen nach anderen Beschreibungsformen verlangten und, dass diese durch eine {\"A}sthetik des Performativen gefasst werden k{\"o}nnen. Wie genau vollzieht sich der Wandel von den performativen Strategien der 1960er/70er Jahre zu denen der zeitgen{\"o}ssischen Installationsk{\"u}nstlern? Verl{\"a}uft dieser vom Schock zur Poesie?},
  language  = {de}
}
@phdthesis{Childs2010,
  author    = {Childs, Liam H.},
  title     = {Bioinformatics approaches to analysing RNA mediated regulation of gene expression},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-41284},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {The genome can be considered the blueprint for an organism. Composed of DNA, it harbours all organism-specific instructions for the synthesis of all structural components and their associated functions. The role of carriers of actual molecular structure and functions was believed to be exclusively assumed by proteins encoded in particular segments of the genome, the genes. In the process of converting the information stored genes into functional proteins, RNA - a third major molecule class - was discovered early on to act a messenger by copying the genomic information and relaying it to the protein-synthesizing machinery. Furthermore, RNA molecules were identified to assist in the assembly of amino acids into native proteins. For a long time, these - rather passive - roles were thought to be the sole purpose of RNA. However, in recent years, new discoveries have led to a radical revision of this view. First, RNA molecules with catalytic functions - thought to be the exclusive domain of proteins - were discovered. Then, scientists realized that much more of the genomic sequence is transcribed into RNA molecules than there are proteins in cells begging the question what the function of all these molecules are. Furthermore, very short and altogether new types of RNA molecules seemingly playing a critical role in orchestrating cellular processes were discovered. Thus, RNA has become a central research topic in molecular biology, even to the extent that some researcher dub cells as "RNA machines". This thesis aims to contribute towards our understanding of RNA-related phenomena by applying Bioinformatics means. First, we performed a genome-wide screen to identify sites at which the chemical composition of DNA (the genotype) critically influences phenotypic traits (the phenotype) of the model plant Arabidopsis thaliana. Whole genome hybridisation arrays were used and an informatics strategy developed, to identify polymorphic sites from hybridisation to genomic DNA. Following this approach, not only were genotype-phenotype associations discovered across the entire Arabidopsis genome, but also regions not currently known to encode proteins, thus representing candidate sites for novel RNA functional molecules. By statistically associating them with phenotypic traits, clues as to their particular functions were obtained. Furthermore, these candidate regions were subjected to a novel RNA-function classification prediction method developed as part of this thesis. While determining the chemical structure (the sequence) of candidate RNA molecules is relatively straightforward, the elucidation of its structure-function relationship is much more challenging. Towards this end, we devised and implemented a novel algorithmic approach to predict the structural and, thereby, functional class of RNA molecules. In this algorithm, the concept of treating RNA molecule structures as graphs was introduced. We demonstrate that this abstraction of the actual structure leads to meaningful results that may greatly assist in the characterization of novel RNA molecules. Furthermore, by using graph-theoretic properties as descriptors of structure, we indentified particular structural features of RNA molecules that may determine their function, thus providing new insights into the structure-function relationships of RNA. The method (termed Grapple) has been made available to the scientific community as a web-based service. RNA has taken centre stage in molecular biology research and novel discoveries can be expected to further solidify the central role of RNA in the origin and support of life on earth. As illustrated by this thesis, Bioinformatics methods will continue to play an essential role in these discoveries.},
  language  = {en}
}
@phdthesis{Yin2010,
  author    = {Yin, Fan},
  title     = {Mathematic approaches for the calibration of the CHAMP satellite magnetic field measurements},
  url       = {http://nbn-resolving.de/urn:nbn:de:kobv:517-opus-41201},
  school      = {Universit{\"a}t Potsdam},
  year      = {2010},
  abstract  = {CHAMP (CHAllenging Minisatellite Payload) is a German small satellite mission to study the earth's gravity field, magnetic field and upper atmosphere. Thanks to the good condition of the satellite so far, the planned 5 years mission is extended to year 2009. The satellite provides continuously a large quantity of measurement data for the purpose of Earth study. The measurements of the magnetic field are undertaken by two Fluxgate Magnetometers (vector magnetometer) and one Overhauser Magnetometer (scalar magnetometer) flown on CHAMP. In order to ensure the quality of the data during the whole mission, the calibration of the magnetometers has to be performed routinely in orbit. The scalar magnetometer serves as the magnetic reference and its readings are compared with the readings of the vector magnetometer. The readings of the vector magnetometer are corrected by the parameters that are derived from this comparison, which is called the scalar calibration. In the routine processing, these calibration parameters are updated every 15 days by means of scalar calibration. There are also magnetic effects coming from the satellite which disturb the measurements. Most of them have been characterized during tests before launch. Among them are the remanent magnetization of the spacecraft and fields generated by currents. They are all considered to be constant over the mission life. The 8 years of operation experience allow us to investigate the long-term behaviors of the magnetometers and the satellite systems. According to the investigation, it was found that for example the scale factors of the FGM show obvious long-term changes which can be described by logarithmic functions. The other parameters (offsets and angles between the three components) can be considered constant. If these continuous parameters are applied for the FGM data processing, the disagreement between the OVM and the FGM readings is limited to \pm1nT over the whole mission. This demonstrates, the magnetometers on CHAMP exhibit a very good stability. However, the daily correction of the parameter Z component offset of the FGM improves the agreement between the magnetometers markedly. The Z component offset plays a very important role for the data quality. It exhibits a linear relationship with the standard deviation of the disagreement between the OVM and the FGM readings. After Z offset correction, the errors are limited to \pm0.5nT (equivalent to a standard deviation of 0.2nT). We improved the corrections of the spacecraft field which are not taken into account in the routine processing. Such disturbance field, e.g. from the power supply system of the satellite, show some systematic errors in the FGM data and are misinterpreted in 9-parameter calibration, which brings false local time related variation of the calibration parameters. These corrections are made by applying a mathematical model to the measured currents. This non-linear model is derived from an inversion technique. If the disturbance field of the satellite body are fully corrected, the standard deviation of scalar error \triangle B remains about 0.1nT. Additionally, in order to keep the OVM readings a reliable standard, the imperfect coefficients of the torquer current correction for the OVM are redetermined by solving a minimization problem. The temporal variation of the spacecraft remanent field is investigated. It was found that the average magnetic moment of the magneto-torquers reflects well the moment of the satellite. This allows for a continuous correction of the spacecraft field. The reasons for the possible unknown systemic error are discussed in this thesis. Particularly, both temperature uncertainties and time errors have influence on the FGM data. Based on the results of this thesis the data processing of future magnetic missions can be designed in an improved way. In particular, the upcoming ESA mission Swarm can take advantage of our findings and provide all the auxiliary measurements needed for a proper recovery of the ambient magnetic field.},
  language  = {en}
}