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Pregled značilnosti sodobnega sistema za avtomatizacijo stavb in izdelava učnega pripomočka za prikaz delovanja pametne inštalacije
ID HALKIĆ, AMELA (Author), ID Kobav, Matej Bernard (Mentor) More about this mentor... This link opens in a new window

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Abstract
Pametne inštalacije postajajo pomemben del sodobne gradbene prakse, saj omogočajo povezano upravljanje ključnih funkcij v stavbah in tako prispevajo k večji energetski učinkovitosti, varnosti in udobju uporabnikov. V delu je predstavljen celovit pristop k razumevanju delovanja sodobnega sistema za avtomatizacijo stavbnih funkcij, vključno z razsvetljavo, senčenjem, ogrevanjem, hlajenjem in varnostjo. Poudarek je bil na analizi delovanja takšnega sistema v simuliranem okolju, ki posnema realne pogoje delovanja. Namen dela je bil prikazati, kako se lahko sodoben avtomatiziran sistem načrtuje, strukturira in konfigurira tako, da omogoča učinkovito, prilagodljivo in uporabniku prijazno upravljanje ključnih funkcij v stavbi. S tem ciljem so bile uporabljene različne raziskovalne metode, ki so skupaj omogočile poglobljeno razumevanje delovanja in možnosti tovrstnih sistemov. Najprej je bila uporabljena deskriptivna metoda, s katero so bili sistematično obdelani temeljne značilnosti pametnih inštalacij, njihova arhitektura, logika delovanja in namen posameznih komponent. Nato je bila izvedena študija primera, pri kateri so bile analizirane konkretne funkcionalnosti v okviru zasnovane demonstracijske table, kot na primer samodejno vklapljanje razsvetljave, odziv senčil na vremenske pogoje in regulacija temperature glede na okoliške senzorje. V okviru tehnične analize so bili pregledani možnosti povezovanja naprav, izbira ustreznih elementov in načini njihove medsebojne komunikacije. Poleg tega je bila izvedena simulacija delovanja sistema, kjer je bilo z uporabo ustrezne programske opreme prikazano logično povezovanje med vhodnimi in izhodnimi elementi, testirana odzivnost sistema in preverjena učinkovitost konfiguracijskih nastavitev. Rezultati so pokazali, da celovit avtomatiziran sistem z ustrezno izbranimi komponentami in premišljenim načrtovanjem omogoča višjo raven, večjo prilagodljivost prostora in večje udobje za uporabnika. Prav tako je bilo ugotovljeno, da logično strukturirana avtomatizacija bistveno poveča preglednost, zanesljivost in možnosti nadzora nad sistemi v stavbi. Nadaljnja uporaba takšnih sistemov je posebej smiselna v okoljih, kjer so pomembni energetski prihranki, prilagodljivost delovanja in nadzor nad udobjem bivanja. Prikazani pristop ponuja trdno osnovo za nadaljnji razvoj avtomatiziranih rešitev v stanovanjskih in poslovnih objektih ter predstavlja primer dobre prakse za implementacijo sodobnih tehnoloških standardov v grajenem okolju.

Language:Slovenian
Keywords:Ključne besede: pametne inštalacije, avtomatizacija stavb, energetska učinkovitost, študija primera, simulacija delovanja, logična struktura, konfiguracija sistema
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:FE - Faculty of Electrical Engineering
Year:2025
PID:20.500.12556/RUL-174349 This link opens in a new window
COBISS.SI-ID:253518083 This link opens in a new window
Publication date in RUL:01.10.2025
Views:159
Downloads:36
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Secondary language

Language:English
Title:Analysis of Modern Building Automation Systems and Design of a Teaching Aid for Demonstrating Smart Installation Operation
Abstract:
Smart installations have become a central element of modern construction practices, as they enable integrated control of key building functions and thus contribute to improved energy efficiency, safety, and user comfort. This paper presents a comprehensive approach to understanding the operation of modern systems for building function automation, including lighting, shading, heating, cooling, and security. The focus was placed on analyzing the operation of such a system within a simulated environment that mimics real-world operating conditions. The aim of the work was to demonstrate how a modern automated system can be designed, structured, and configured to allow for efficient, flexible, and user-friendly control of essential building functions. To achieve this goal, a combination of research methods was employed, which enabled an in-depth understanding of system functionality and potential. The descriptive method was first used to systematically examine the core characteristics of smart installations, their architecture, operating logic, and the role of individual components. This was followed by a case study, in which specific functionalities were analyzed within the framework of a designed demonstration panel—such as automatic lighting activation, shading response to weather conditions, and temperature regulation based on environmental sensors. As part of the technical analysis, the possibilities of device interconnection, selection of suitable elements, and their mutual communication methods were reviewed. In addition, a system simulation was carried out using appropriate software, through which the logical interaction between input and output elements was demonstrated, the system’s responsiveness was tested, and the effectiveness of configuration settings was evaluated. The results of the work showed that a well-designed automated system, equipped with properly selected components and a carefully considered plan, enables a higher level of energy efficiency, greater spatial flexibility, and enhanced user comfort. Furthermore, it was found that logically structured automation significantly improves the clarity, reliability, and controllability of building systems. The continued implementation of such systems is particularly relevant in environments where energy savings, operational adaptability, and control over comfort are of key importance. The presented approach provides a solid foundation for further development of automated solutions in residential and commercial buildings and represents a best-practice example for integrating modern technological standards into the built environment.

Keywords:Keywords: smart installations, building automation, energy efficiency, case study, system simulation, logical structure, system configuration

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