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Institute
The Infinica product suite consists of multiple individual microservice applications, mainly gathered around Infinica Process Engine which allows the execution of highly individualised process definitions. For estimating process performance, a layered queuing network approach has been applied. In the first step this required the implementation of a basic modelling framework. Subsequently the implemented framework was used to evaluate the applicability of the approach by creating two models and comparing them with actual performance measurements. Although the calculated results deviated from the expected results, analysis showed that the differences may
derive from an inaccurate model. Nevertheless the general approach seems to be appropriate for the given application as well as for microservices in general, especially when extended with advanced modelling techniques, as the analysed modelled results appear consistent.
This thesis provides an overview of Generation Z with a focus on Mittweida University of Applied Sciences students. It explores the general issues of students' behavior in life, as well as their attitudes toward the financial and banking sectors. It also examines the German banking market, its strengths and weaknesses in attracting new clients. At the end, possible strategies for the development of the bank in terms of attractiveness for young people are provided.
Tokenization projects are currently very present when it comes to new blockchain technologies. After explaining the fundamentals of cross-chain interaction, the bachelor thesis will focus on tokenizing technology for Bitcoin on Ethereum. To get a more practical context, implementing the currently most successful decentralized tokenization project is described.
Vicia faba leaves and calli were transformed using CRISPR Cas RNP. Two kinds of CPP fused SpyCas9 were used with sgRNA7, sgRNA5 or sgRNA13 targeting PDS exon 1, PDS exon 2 or MgCh exon 3 respectively. RNP were applied using high pressure spraying, biolistic delivery, incubation in RNP solution and infiltration of leaf tissue. A PCR and restriction enzyme based approach was used for detection of mutation. Screening of 679 E. coli colonies containing the cloned fragments resulted in detection of 14 mutations. Most of the 14 mutations were deletions of sizes 150, 500 or 730 bp. 5 out of the 14 mutations were point mutations located two to three bp upstream of PAM.
In bioinformatics one important task is to distinguish between native and mirror protein models based on the structural information. This information can be obtained from the atomic coordinates of the protein backbone. This thesis tackles the problem of distinction of these conformations, looking at the statistics of the dihedral angles’ distribution regarding the protein backbone. This distribution is visualized in Ramachandran plots. By means of an interpretable machine learning classification method – Generalized Matrix Learning Vector Quantization – we are able to distinguish between native and mirror protein models with high accuracy. Further, the classifier model supplies supplementary information on the important distributional regions for distinction, like α-helices and β-strands.
A Protein is a large molecule that consists of a vast number of atoms; one can only imagine the complexity of such a molecule. Protein is a series of amino acids that bind to each other to form specific sequences known as peptide chains. Proteins fold into three-dimensional conformations (or so-called protein’s native structure) to perform their functions. However, not every protein folds into a correct structure as a result of mutations occurring in their amino acid sequences. Consequently, this mutation causes many protein misfolding diseases. Protein folding is a severe problem in the biological field. Predicting changes in protein stability free energy in relation to the amino acid mutation (ΔΔG) aids to better comprehend the driving forces underlying how proteins fold to their native structures. Therefore, measuring the difference in Gibbs free energy provides more insight as to how protein folding occurs. Consequently, this knowledge might prove beneficial in designing new drugs to treat protein misfolding related diseases. The protein-energy profile aids in understanding the sequential, structural, and functional relationship, by assigning an energy profile to a protein structure. Additionally, measuring the changes in the protein-energy profile consequent to the mutation (ΔΔE) by using an approach derived from statistical physics will lead us to comprehend the protein structure thoroughly. In this work, we attempt to prove that ΔΔE values will be approximate to ΔΔG values, which can lead the future studies to consider that the energy profile is a good predictor of protein binding affinity as Gibbs free energy to solve the protein folding problem.
he automatic comparison of RNA/DNA or rather nucleotide sequences is a complex task requiring careful design due to the computational complexity. While alignment-based models suffer from computational costs in time, alignment-free models have to deal with appropriate data preprocessing and consistently designed mathematical data comparison. This work deals with the latter strategy. In particular, a systematic categorization is proposed, which emphasizes two key concepts that have to be combined for a successful comparison analysis: 1) the data transformation comprising adequate mathematical sequence coding and feature extraction, and 2) the subsequent (dis-)similarity evaluation of the transformed data by means of problem specific but mathematically consistent proximity measures. Respective approaches of different categories
of the introduced scheme are examined with regard to their suitability to distinguish natural RNA virus sequences from artificially generated ones encompassing varying degrees of biological feature preservation. The challenge in this application is the limited additional biological information available, such that the decision has to be made solely on the basis of the sequences and their
inherent structural characteristics. To address this, the present work focuses on interpretable, dissimilarity based classification models of machine learning, namely variants of Learning Vector Quantizers. These methods are known to be robust and highly interpretable, and therefore,
allow to evaluate the applied data transformations together with the chosen proximity measure with respect to the given discrimination task. First analysis results are provided and discussed, serving as a starting point for more in-depth analysis of this problem in the future.
Convolutional Neural network (CNN) has been one of most powerful and popular preprocessing techniques employed for image classification problems. Here, we use other signal processing techniques like Fourier transform and wavelet transform to preprocess the images in conjunction with different classifiers like MLP, LVQ, GLVQ and GMLVQ and compare its performance with CNN.
Anomaly Detection is a very acute technical problem among various business enterprises. In this thesis a combination of the Growing Neural Gas and the Generalized Matrix Learning Vector Quantization is presented as a solution based on collected theoretical and practical knowledge. The whole network is described and implemented along with references and experimental results. The proposed model is carefully documented and all the further open researching questions are stated for future investigations.