Special types of rural settlements in Slovakia, so-called dispersed settlements, are typical of several regions in the country. They are recognized as specific elements in a landscape and have a strong effect on local identity. They are a part of a historical landscape structure, constituting a unique natural and cultural heritage. For this reason, they deserve special attention in planning and management processes. Decision-making processes about the landscape that do not take into consideration that the inherent value of those structures could lead to their irreversible loss. This paper aims at the evaluation of specific landscape elements in the case study area and describes their effect in terms of the sociohistorical, environmental, and visual context and their influence on sustainability. Both cultural and environmental inventories were interpreted in relation to spatiotemporal land cover/use changes. The field inventory and geospatial analysis, using geographic information systems (GIS) tools, resulted in the categorization and evaluation of 63 dispersed settlement units in the study area of Čadca. We propose a management method, giving reasonable detail to proposed incentives, for each dispersed settlement unit category. The proposed methodology is intended to create a classification of the dispersed settlement units from the perspective of landscape archetypes. The cultural and environmental assessment of dispersed settlement units resulted in the definition of indicators signaling the presence of a particular archetype.
The presented study discusses the possible disturbing effects of the electromagnetic field of antennas used in mobile phones or WiFi technologies on the pacemaker in the patient’s body. This study aims to obtain information on how the thickness of skin layers (such as the thickness of the hypodermis) can affect the activity of a pacemaker exposed to a high-frequency electromagnetic field. This study describes the computational mathematical analysis and modeling of the heart pacemaker inserted under the skin exposed to various electromagnetic field sources, such as a PIFA antenna and a tuned dipole antenna. The finite integration technique (FIT) for a pacemaker model was implemented within the commercially available CST Microwave simulation software studio. Likewise, the equations that describe the mathematical relationship between the subcutaneous layer thickness and electric field according to different exposures of a tuned dipole and a PIFA antenna are used and applied for training a neural network. The main output of this study is the creation of a mathematical model and a multilayer feedforward neural network, which can show the dependence of the thickness of the hypodermis on the size of the electromagnetic field, from the simulated data from CST Studio.
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