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Application of Mathematical and Statistical Methods in Company Management
Hrkeĺ, Jan ; Šustrová, Tereza (referee) ; Novotná, Veronika (advisor)
This thesis deals with the analysis and proposal of improvements to existing processes in a selected company using mathematical and statistical methods. This is achieved on the basis of digitalization and automation of invoice processing processes in the selected company in order to increase competitiveness in a dynamic business environment. Due to the high costs and risks associated with traditional manual invoice processing, the enterprise decided to switch to a modern digital solution. The thesis is divided into two parts, the first of which outlines the theoretical foundations that are the key treasure trove for the subsequent detailed analysis of the current state of invoice processing. Next, key issues are identified and an effective solution is proposed using Microsoft's SharePoint, Power Apps and Power BI technologies. The implementation of the proposed solution brings significant benefits to the business, including reduced operational costs, increased accuracy of invoice data, and freeing up human resources for other tasks.
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Utilization of Digital Twins in Automotive
Horuta, Šimon ; Fojtášek, Jan (referee) ; Repka, Martin (advisor)
This bachelor thesis deals with the utilization of digital twins in automotive industry. In the introduction, the concept of a digital twin is defined and then Industry 4.0 technologies used by digital twins are described. Furthermore, several examples of their application in the automotive industry are given. In the practical part, a simulation of a braking maneuver in virtual environment is performed and the functionality of this model is verified by real driving tests. As a result of the practical part, the graphs from the simulation and the real driving are compared.
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Information System for Production and Material Management
Škutová, Miroslava ; Hranický, Radek (referee) ; Rychlý, Marek (advisor)
The aim of this work is to digitalise key aspects of the production and personnel processes in an engineering company and at the same time to optimise the use of the existing HELIOS iNuvio information system. The software developed, based on PHP web technologies using the Symfony, React and REST frameworks, includes modules that not only replace the terminal application for production control and materials management, but also enable the digitalisation and simplification of other company processes, including the signing of important documents and machine management. The solution's analytics module provides management with detailed information on employee performance, production process efficiency and financial aspects of production using the Grafana visualisation tool. The attendance module replaces manual attendance management. This complex solution increases overall efficiency of business processes and improves the user experience without requiring additional investment in hardware or systems.
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Digitization of healthcare and its importance in acute care
MÁLA, Josef
The bachelor's thesis deals with the digitization of healthcare and its importance in acute care. It consists of a theoretical and a practical part. The theoretical part deals with the basic concepts and definitions of digital health care, especially electronic health documentation and digitization of emergency medical services. The practical part examines the scope, use and benefit of digitization in pre-hospital care. It also deals with the satisfaction of paramedics with digitization within the ZZS.
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Easter eggs scanning module
Pitrun, Tomáš ; Janáková, Ilona (referee) ; Honec, Peter (advisor)
This master thesis deals with the design and implementation of a preparation for scanning the museum's collection of Easter eggs. A monochrome line scan camera combined with RGB lighting and stepper motor is used to capture the Easter eggs. The control of the whole fixture is solved by using an Arduino Mega microcontroller in combination with the developed PCB. The data from the camera are processed in software on a PC using Matlab. Finally, a 3D model of the easter egg with the scanned texture is created using the Processing library.
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