This paper describes the experience of software development for multi-angle electrical impedance tomography. The relevance and necessity of an architecture for this kind of software product creating is considered, requirements for reliability and fault tolerance are defined. The choice of the architectural model has been made, design patterns have also been chosen taking into account the prospective scenario of using the developed software, their advantages are shown too. The most important attributes of software quality are described, which should implement the developed software product. The considered attributes of quality are projected on specific modules of the developed software. The architectural models and templates chosen during design are described, their advantages and disadvantages are considered. Support issues for the software developed by the cross-platform are discussed, and the possibility of working in various operating systems is demonstrated.
Abstract. The present work is devoted to the development of an algorithm for automatic analysis of images as the results of biological object internal structures conductivity field distribution reconstruction for the automated generation of not only qualitative but also quantitative estimates of inhomogeneities in the tasks of multi-angle multi-frequency electrical impedance tomography. The paper describes the modeling of biological object internal structures inhomogeneities of a given size as a way of obtaining initial data for approbation of the algorithm and its further debugging and optimization. In the work an interactive analysis of the images obtained as a result of modeling is carried out, the results of its work are compared with the results of the developed algorithm of automatic analysis. Based on the analysis, conclusions are drawn about the applicability of the developed algorithm in the problems of multi-angle multi-frequency electrical impedance tomography.
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