Relevant bibliographies by topics / Smart automation systems

Academic literature on the topic 'Smart automation systems'

Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Smart automation systems"

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Jia, Ruoxi, Baihong Jin, Ming Jin, Yuxun Zhou, Ioannis C. Konstantakopoulos, Han Zou, Joyce Kim, et al. "Design Automation for Smart Building Systems." Proceedings of the IEEE 106, no. 9 (September 2018): 1680–99. http://dx.doi.org/10.1109/jproc.2018.2856932.

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Redzwan, F. N. M., A. H. F. Suhaimi, and A. K. Husaini. "The development of IoT Smart House Automation System controlled wirelessly via OpenHab central server." IOP Conference Series: Materials Science and Engineering 1176, no. 1 (August 1, 2021): 012021. http://dx.doi.org/10.1088/1757-899x/1176/1/012021.

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Abstract Smart home technology, also often referred to as home automation, provides homeowners security, comfort, convenience, and energy efficiency by allowing them to control smart devices, often by a smart home app on their smartphone or another networked device. A part of the internet of things (IoT), smart home systems and devices often operate together, sharing consumer usage data among themselves and automating actions based on the homeowners’ preferences. This smart home automation system will be a server-based system using the OpenHab central server that can connect and control the house appliances by using an application that can be installed on the smartphone. By using this smart house system, the user can control their home appliances from distance. It can reduce the cost and provide better time management of the household.
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Khamdamov, D. H., and Kh T. Yuldashev. "USING MODERN AUTOMATION IN THE GREENHOUSE." International Journal of Advance Scientific Research 02, no. 05 (May 1, 2022): 28–37. http://dx.doi.org/10.37547/ijasr-02-05-06.

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Work was carried out to study separately existing smart greenhouse systems, during the consideration of which their advantages and disadvantages were identified. Having considered all possible options for smart greenhouse systems, we determined the best ways of development. Based on the data obtained, the relevance of the chosen project topic was substantiated. He developed an electrical circuit diagram, the elements of which were selected in accordance with the necessary parameters, which were also indicated in the list of elements.
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Dazahra, M. N., F. Elmariami, A. Belfqih, and J. Boukherouaa. "A Defense-in-depth Cybersecurity for Smart Substations." International Journal of Electrical and Computer Engineering (IJECE) 8, no. 6 (December 1, 2018): 4423. http://dx.doi.org/10.11591/ijece.v8i6.pp4423-4431.

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The increase of cyber-attacks on industrial and power systems in the recent years make the cybersecurity of supervisory control and data acquisition and substation automation systemsa high important engineering issue. This paper proposes a defense in depth cybersecurity solution for smart substations in different layers of the substation automation system. In fact, it presents possible vulnerabilities in the substation automation system and propose a multiple layer solution based on best practice in cyber security such as the hardening ofdevices, whitelisting, network configuration, network segmentation, role-based account management and cyber security management and deployement.
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Wei, Dong, Yan Lu, Mohsen Jafari, Paul M. Skare, and Kenneth Rohde. "Protecting Smart Grid Automation Systems Against Cyberattacks." IEEE Transactions on Smart Grid 2, no. 4 (December 2011): 782–95. http://dx.doi.org/10.1109/tsg.2011.2159999.

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Vogel-Heuser, Birgit, Feng Ju, Cesare Fantuzzi, Yan Lu, and Dieter Hess. "Knowledge-Based Automation for Smart Manufacturing Systems." IEEE Transactions on Automation Science and Engineering 18, no. 1 (January 2021): 2–4. http://dx.doi.org/10.1109/tase.2020.3044620.

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Shmanev, Timofey, Viktoriya Ul'yanickaya, and Oksana Pokrovskaya. ""Smart Railway Station" — Complex of Innovative Systems." Bulletin of scientific research results 2022, no. 4 (December 24, 2022): 150–59. http://dx.doi.org/10.20295/2223-9987-2022-4-150-159.

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Purpose: Automation of control systems for life support and service processes at infrastructure facilities of passenger complex, in the single informational space, through digital platforms. Methods: The work uses experimental-theoretical level methods: cause-and-effect relationships, algorithmization, flowcharts and others. Results: Practical recommendations for transition from manual (personalized) labor on railway station complexes to automated system (processes), related to passenger service, are given. Practical significance: Recommendations are given on the usage and digitization of automated control systems for life support processes of railway station complex. The proposed solution is based on the transformation of processes aimed at step-by-step automation of production, service and commercial activities of railway station complexes.
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Dai, Xuan, Jian Mao, Jiawei Li, Qixiao Lin, and Jianwei Liu. "HomeGuardian: Detecting Anomaly Events in Smart Home Systems." Wireless Communications and Mobile Computing 2022 (June 13, 2022): 1–11. http://dx.doi.org/10.1155/2022/8022033.

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As a typical application of Internet of Things (IoT), home automation systems, namely, smart homes, provide a more convenient and intelligent life experience through event recognition, automation control, and remote device access. However, smart home systems have also given rise to new complications for security issues. As an event-driven IoT system, smart home environments are vulnerable to security attacks, and vulnerable devices are far-spread due to the quick development cycles. Attack vectors to smart homes inevitably manifest in abnormal event contexts. In this paper, we propose HomeGuardian, a context-based approach to identify abnormal events in smart homes. In our approach, we extract temporal context and environmental context from system logs, aggregate (embed) these hybrid contexts, and construct a learning-based classifier to identify the abnormal events. We develop a testbed to implement and evaluate our approach.
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Mehta, Kapil, Yogesh Kumar, and Aayushi Aayushi. "Enhancing Time Synchronization for Home Automation Systems." ECS Transactions 107, no. 1 (April 24, 2022): 6197–208. http://dx.doi.org/10.1149/10701.6197ecst.

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Clock synchronization techniques are in highly demand for smart home applications with the approach of the Internet of Things (IoT). The developing innovation of smart home applications built on the Internet of Things is generally constrained and scattered. Synchronization is the basic characteristic of the emerging field of IoT in smart home applications which is recommended for improving the acceptance and its use. For the clock synchronization between systems, Network Time Protocol (NTP) is used. But due to inconsistent routing and limited computing resources there can be the dominant source of error that limits time transfer uncertainty. This paper proposes an Elastic Timer Protocol for home automation system networks that performs better in terms of consumption of energy and time of convergence than other clock synchronization protocols. The proposed protocol improves the elasticity and efficiency of the network, resulting in a faster network convergence time. Furthermore, simulation results revealed that the proposed work has improved performance metrics and proved superior performance characteristics when compared to standard synchronization protocols.
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Moghaddam, Seyed Mohammad Sadegh Hosseini, Massoud Dashtdar, and Hamideh Jafari. "AI applications in smart cities’ energy systems automation." Repa Proceeding Series 3, no. 1 (June 30, 2022): 1–5. http://dx.doi.org/10.37357/1068/crgs2022.3.1.01.

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Artificial intelligence (AI) plays a significant role in energy systems transformations in smart cities. Climate change and environmental sustainability imposed utilities to shift toward renewable energy resources and technologies applications in recent decades. Renewable energy technology deployment is associated with high initial investment and integration with the existing supply and demand systems. Operation stability has been challenging to integrate renewable energy with the customary old systems. On the other hand, renewable energy ensures sustainable energy and future development with minimum loss and greenhouse gas emissions. Therefore, AI is the primary mover of power systems modernization with high accuracy of management and control. This study tried to evaluate the efficiency and performance of AI in the renewable energy sector, focusing on the European Union as the case study. This study analyzes the first renewable energy processes in the chain and energy from gross to final consumption. Afterward economic consequences of renewable energy using natural resources (solar, wind, etc.) in smart cities are discussed. Finally, the efficiency of AI in renewable energy is examined, followed by future work.
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Dissertations / Theses on the topic "Smart automation systems"

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Park, Cheol-Soo. "Occupant responsive optimal control of smart façade systems." Diss., Georgia Institute of Technology, 2003. http://hdl.handle.net/1853/9450.

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Hultmark, Varejão Marcus. "Integration of Electrochromic Smart Windows in Building Automation Systems." Thesis, KTH, Maskinkonstruktion (Inst.), 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-141159.

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To lower energy consumption, the building industry invests in smart solutions. These solutions usually use control and automation to both increase energy efficiency and facilitate usage, and therefore attract consumers. This paper gives a better insight into how an electrochromic (EC) window, which is a relatively new smart product, should be used to further improve the intelligence of buildings. The funding company has not yet integrated the EC windows in building automation systems (BASs). A research was realized to understand the BAS technologies available so that it is possible to decide which to use. The researched technologies were LonWorks and BACnet; both are explained and discussed in this paper. The paper goes on to conclude that LonWorks is more convenient to implement. Windows provide solar power and indoor illuminance. If there is too much sunlight indoors, the room might get too warm and people may be affected by glare. Being able to automatically control these parameters improves comfort. This paper provides equations to calculate the position of the sun to be used in simulations. Simulation procedures are also provided so it is possible to calculate the indoor illuminanceas well as the temperature; the latter is then used to estimate the energy consumption and compare EC with high efficient regular windows. These simulations show that, with illuminance controlled EC windows, the energy used to regulate the temperature to 23oC is around 2:6% less than with high efficient regular windows. A control algorithm is proposed to adjust indoor illuminance by manipulating the transmittance of the EC windows. This algorithm is then implemented on the real system. Then, to be able to manually control the windows, a website is designed so anyone with access to a web-browser and a connection to the intranet (where the windows are connected) can manipulate them.
Byggindustrin investerar i smarta lösningar för att sänka energiförbrukningen. Dessa lösningar brukar använda kontroll och automatisering för att både öka energieffektiviteten och underlätta användningen, och därmed locka konsumenter. Denna uppsats ger en bättre inblick i hur ett elektrokromiskt (EC) fönster, som är en relativt ny smart produkt, bör användas för att ytterligare förbättra byggnaders intelligens. Företaget som finansierar projektet har ännu inte integrerat EC fönster i byggnadsautomationssystem (BAS). Olika BAS tekniker studeras, varav två tekniker mer ingående; LonWorks och BACnet. De både teknikerna analyseras och utvärderas för att sedan utse vilken som är att föredra. Slutsatsen dras om att LonWorks är mer lämplig att implementera. Fönster förser rummet med solenergi och belysningsstyrka. Om fönstret släpper in för mycket solljus kan personer påverkas av bländning samt att det kan bli för varmt. Komforten ökar om dessa parametrar styrs automatiskt. Denna uppsats härleder ekvationer för att beräkna solens position som sedan användsi simuleringar. Simuleringsförfaranden används också för att beräkna belysningsstyrkan inomhus såväl som temperaturen; den senare tillämpas sedan för att beräkna energiförbrukningen och jämföra EC med högeffektiva vanliga fönster. Dessa simuleringar visar att energin som behövs för att reglera temperaturen till 23oC i rum innehållande EC fönster med reglering av belysningsstyrkan är ca 2;6% mindre än i rum innehållande högeffektiva vanliga fönster. En regleralgoritm föreslås för att justera belysningsstyrkan inomhus genom att manipulera transmittansen hos EC fönster. Denna algoritm implementeras sedan på det verkliga systemet. En webbsida konstrueras sedan så att vem som helst med tillgång till en webbläsare och anslutning till intranätet (där fönstren är anslutna) kan manipulera dem.
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Seifert, Fanny. "Smart Maintenance." Fraunhofer-Institut für Verfahrenstechnik und Verpackung IVV, 2018. https://slub.qucosa.de/id/qucosa%3A32446.

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Johansson, Oscar, and Gustav Andersson. "Smart Greenhouse : A microcontroller based architecture for autonomous and remote control." Thesis, Högskolan i Halmstad, Akademin för informationsteknologi, 2020. http://urn.kb.se/resolve?urn=urn:nbn:se:hh:diva-42284.

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Expensive and complex automated systems for greenhouses are frequently utilized in the horticulture industry. In parallel, smart systems for home automation has recently seen a rapid increase in popularity. This project aims to combine the climate optimization capabilities of industrial systems with the convenience of home automation systems. More specifically, this project is focused on the design and implementation of electrical and mechanical requirements of a smart greenhouse system. This involved the selection of hardware components, such as sensors, actuators and controllers. It also involved the interconnection between these components and the development of measurement and control systems to autonomously manage the greenhouse. The system is based on a WiFi-connected microcontroller. Parameters monitored include; temperature, humidity and wind-speed. Irrigation is controlled by a solenoid valve and can be scheduled to desired intervals. Ventilation and temperature optimization is done by controlling the roof-hatch with a linear actuator and control of a heater. The results demonstrate a accurate and reliable system with low power consumption. The resulting prototype can be installed in new and existing greenhouses. Functionalities can be remotely controlled and monitored by the convenience of an android application. The total cost of the components used was around 4 500 SEK. Further development could be done to enable seamless scalability with additional components and functionalities. Climate optimization by incorporation of weather forecast as a parameter could be implemented to further reduce energy consumption.
Dyra och komplexa automatiserade växthussystem är vanligt förekommande inom industrin för hortikultur. Parallellt har populariteten för "Smart Home" system för hemautomatisering radikalt ökat. Målet med detta projekt är att kombinera klimatoptimiseringsmöjligheterna hos industriella system med lättanvändligheten hos system för hemautomatisering. Detta projekt fokuserar specifikt på designen och implementationen av de elektriska och mekaniska krav som ställs på ett "smart greenhouse system". Detta innefattar; val av komponenter såsom sensorer, aktuatorer samt styrenhet men även sammankopplingen mellan dessa komponenter och utvecklingen av mjukvara till reglersystemet, som i sin tur syftar till automatiseringen i växthuset. Systemet är baserat på en WiFi-uppkopplad mikrokontroller. Parametrar som monitoreras är; temperatur, luftfuktighet och vindhastighet. Bevattning kontrolleras av en magnetventil och kan schemaläggas för bevattning i önskade intervall. Ventilering och temperaturoptimisering sker genom kontroll av taklucka med hjälp av ett linjärt ställdon samt kontroll av ett värmeelement. Resultatet demonstrerar ett pålitligt och punktligt system med låg energiförbrukning. Prototypen som utvecklats kan installeras i både nya och befintliga växthus. Funktionaliteterna kan smidigt fjärrkontrolleras och monitoreras från en android applikation. Den totala kostnaden för de komponenter som använts var runt 4500 kr. Vidareutveckling vad gäller skalbarhet för att sömlöst lägga till komponenter och funktionaliteter bör övervägas. För ytterligare minskad energiförbrukning med hjälp av klimatoptimering kan väderprognos adderas som en parameter.
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Pan, Zhiwen, and Zhiwen Pan. "A Context Aware Anomaly Behavior Analysis Methodology for Building Automation Systems." Diss., The University of Arizona, 2017. http://hdl.handle.net/10150/625624.

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Advances in mobile and pervasive computing, electronics technology, and the exponential growth in Internet of Things (IoT) applications and services has led to Building Automation System (BAS) that enhanced the buildings we live by delivering more energy-saving, intelligent, comfortable, and better utilization. Through the use of integrated protocols, a BAS can interconnects a wide range of building assets so that the control and management of asset operations and their services can be performed in one protocol. Moreover, through the use of distributed computing and IP based communication, a BAS can implement remote monitor and control in adaptive and real-time manner. However, the use of IoT and distributed computing techniques in BAS are leading to challenges to secure and protect information and services due to the significant increase in the attack surface and the inherent vulnerabilities of BAS integrated protocols. Since there is no intrusion detection and prevention available for BAS network, proposing a reliable security mechanism which can monitor the behavior of BAS assets becomes a major design issue. Anomaly Based Intrusion Detection is a security mechanism that uses baseline model to describe the normal behaviors of a system, so that malicious behaviors occurred in a system can be detected by comparing the observed behavior to the baseline model. With its ability of detecting novel and new attacks, Anomaly based Behavior Analysis (ABA) has been actively pursued by researchers for designing Intrusion Detection Systems. Since the information acquired from a BAS system can be from a variety of sources (e.g. sensors, network protocols, temporal and spatial information), the traditional ABA methodology which merely focuses on analyzing the behavior of communication protocols will not be effective in protecting BAS networks. In this dissertation we aim at developing a general methodology named Context Aware Anomaly based Behavior Analysis (CAABA) which combines Context Awareness technique with Anomaly based Behavior Analysis in order to detect any type of anomaly behaviors occurred in Building Automation Systems. Context Awareness is a technique which is widely used in pervasive computing and it aims at gathering information about a system's environment so it can accurately characterize the current operational context of the BAS network and its services. The CAABA methodology can be used to protect a variety of BAS networks in a sustainable and reliable way. To handle the heterogeneous BAS information, we developed a novel Context Aware Data Structure to represent the information acquired from the sensors and resources during execution of the BAS system which can explicitly describe the system's behavior. By performing Anomaly based Behavior Analysis over the set of context arrays using either data mining algorithm or statistical functions, the BAS baseline models are generated. To validate our methodology, we have applied it to two different building application scenarios: a smart building system which is usually implemented in industrial and commercial office buildings and a smart home system which is implemented in residential buildings, where we have achieved good detection results with low detection errors.
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Veerapuneni, Satish Kumar. "Benchmarking smart homes using a humanoid robot approach." [Gainesville, Fla.] : University of Florida, 2004. http://purl.fcla.edu/fcla/etd/UFE0006467.

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Mani, GaneshKumar. "Heterogeneous Residential Gateway Design Using OSGi : With multi-user and multi-service capabilities." Thesis, KTH, Skolan för informations- och kommunikationsteknik (ICT), 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-208327.

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As a result of developments, domestic usage of smart appliances by homeowners is increasing drastically. Clustering these appliances together and making them function as an efficient system defines a new place to live or new way of living called a “smart home”. While a smart home provides comfort to homeowners, realizing a smart home involves many technical and business oriented hurdles to be crossed. The primary goal of this thesis work is to design and evaluate the design of a residential gateway. This gateway should be designed as a standardized, secure, open source, hardware independent, and interoperable Residential Gateway. A service-oriented architecture is proposed using the OSGi framework to design the residential gateway and its individual components. These components include an access control component for homeowner authorization, a resource management component for managing connected devices, an automation component to realize an automation service, and finally a context component to provide context aware services to the homeowner. The final design proposed tries to solve the issues faced by some automation systems that are available in market. The evaluation of the design includes whether the design satisfies the basic requirements for a home gateway. This is followed by a comparison with existing systems with an emphasis on the improved features. The components proposed in the design could be used to construct a residential gateway that supports multiple services and multiple users. The proposed design will be taken into consideration during the design of Acreo’s home automation system.
Som en följd av utvecklingen inom vetenskap och teknik så har användningen av smarta lösningar i hushållen ökat drastiskt. Att samla dessa apparater och få dem att fungera tillsammans som ett effektivt system, skapar ett nytt hem och ett nytt sätt att leva: ett smart hem. Å ena sidan så ger smartare lösningar ett bekvämare boende, men å andra sidan innebär det också många tekniska och affärsinriktade hinder att ta sig över. Det primära målet med denna avhandling är att utforma en bostadsgateway som är att utforma en standardiserad, säker, open source, maskinvaruoberoende, interoperabel Residential Gateway. En serviceorienterad arkitektur föreslås med hjälp av OSGi-ramverket för utformning av bostadsgateway-komponenter. Komponenterna innefattar behörighetskontroll för husägare för tillgångskontroll, resurshanteringskomponenter för hantering av anslutna enheter, automationskomponent för att inkludera automationstjänst och slutligen kontextkomponent för att tillhandahålla kontextbevakad tjänster till husägaren. Den slutliga designen som föreslås försöker lösa de problem som vissa automationssystem som finns på marknaden står inför. Utvärderingen av konstruktionen med grundläggande krav för att bygga hemgateways och med befintliga system ger information om de improviserade funktionerna. De komponenter som föreslås i konstruktionen kan användas för att bygga en bostadsgateway som stöder flera tjänster och flera användare. Den föreslagna konstruktionen kommer att beaktas vid utformningen av Acreos hemautomatiseringssystem.
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Saßmannshausen, Jochen [Verfasser]. "Attribute-based Access Control for Smart Grids and Industrial Automation and Control Systems / Jochen Saßmannshausen." Düren : Shaker, 2020. http://d-nb.info/1215461860/34.

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Habeeb, Richard. "Improving the Security of Building Automation Systems Through an seL4-based Communication Framework." Scholar Commons, 2018. http://scholarcommons.usf.edu/etd/7161.

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Existing Building Automation Systems (BASs) and Building Automation Networks (BANs) have been shown to have serious cybersecurity problems. Due to the safety-critical and interconnected nature of building subsystems, local and network access control needs to be finer grained, taking into consideration the varying criticality of applications running on heterogeneous devices. In this paper, we present a secure communication framework for BASs that 1) enforces rich access control policy for operating system services and objects, leveraging a microkernel-based architecture; 2) supports fine-grained network access control on a per-process basis; 3) unifies the security control of inter-device and intra-device communication using proxy processes; 4) tunnels legacy insecure communication protocols (e.g., BACnet) through a secure channel, such as SSL, in a manner transparent to legacy applications. We implemented the framework on seL4, a formally verified microkernel. We conducted extensive experiments and analysis to compare the performance and effectiveness of our communication systems against a traditional Linux-based implementation of the same control scenario. Our experiments show that the communication performance of our system is faster or comparable to the Linux-based architecture in embedded systems.
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Jan, Jonathan. "Collecting Data for Building Automation Analytics : A case study for collecting operational data with minimal human intervention." Thesis, KTH, Radio Systems Laboratory (RS Lab), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-233319.

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Approximately 40% of the total energy consumption within the EU is due to buildings, and similar numbers can be found in the US. If the principal inefficiencies in buildings were easily identifiable, then a facility manager could focus their resources to make the buildings more efficient, which would lead to both cost savings for the facility owners and decrease the building’s ecological footprint. In building automation systems today, data is already being collected every second, but due to the lack of standardization for describing this data, having access to data is not the same as being able to make use of it. The existing heterogeneity makes it very costly to gather data from multiple buildings, thus making it difficult to understand the big picture. Facility managers cannot fix what they cannot see; thus it is important to facilitate the visualization of the data collected from all of the different building automation systems. This potentially offers great benefits with regards to both sustainability and economy. In this thesis, the author’s goal is to propose a sustainable, cost and time effective data integration strategy for real estate owners who wish to gain greater insight into their buildings’ efficiency. The study begins with a literature study to find previous and on-going attempts to solve this problem. Some initiatives for standardization of semantic models were found. Two of these models, Brick and Haystack, were chosen. One building automation system (BAS) was tested in a pilot case study, to test the appropriateness of a solution. The key results from this thesis project show that data from building automation systems, can be integrated into an analysis platform, and an extract, transform, and load (ETL) process for this is presented. How time efficiently data can be tagged and transformed into a common format is very dependent upon the current control system’s data storage format and whether information about its structure is adequate. It is also noted that there is no guarantee that facility managers have access to the control system’s database or information about how that is structured, in such cases other techniques can be used such as BACnet/IP, or Open Platform Communications (OPC) Unified Architecture.
Ungefär 40 % av den totala energikonsumtionen i E.U. och U.S.A. förbrukas av fastigheter. Om de delar av fastigheten som är ineffektiva enkelt kunde identifieras, skulle det underlätta fastighetsförvaltarnas arbete i att göra byggnader mer energisnåla. Detta har i sin tur potential att minska kostnader och byggnaders ekologiska fotavtryck. I dagens fastighetsautomationssystem samlas data in varje sekund, men på grund av att det saknas ett standardiserat sätt att beskriva den på, är det skillnad på att ha tillgång till data och att faktiskt kunna använda sig av den. Heterogeniteten gör att det blir både kostsamt och tidskrävande för fastighetsförvaltare att samla in data från sina fastigheter. Fastighetsförvaltare kan inte åtgärda något det inte kan se. Därför är det viktigt att underlätta möjligheten för visualisering av data från olika typer av fastighetsautomationssystem. Att lyckas med detta har potential att ge positiva effekter både när det gäller hållbarhet och ekonomi. I den här uppsatsen är författarens mål att komma fram till en hållbar, kostnads- och tidseffektiv integrationsstrategi för fastighetsförvaltare som vill få bättre insikter hur effektiv deras byggnad faktiskt är. Forskningsarbetet inleds med en litteraturstudie för att finna tidigare och pågående försök att lösa detta problem. Några initiativ för standardisering av semantiska modeller för att beskriva data inom fastighetsautomation hittades. Två av dessa, Brick och Project Haystack, valdes ut. En byggnad, och ett fastighetsautomationssystem testades i en pilotstudie. Resultaten från studien pekar på att data från fastighetautomationssystem kan integreras med en analysplattform, och en så kallad ETL-process, efter de engelska orden: extract, transform, load; presenteras för att uppnå det målet. Hur tidseffektivt data kan taggas och transformeras beror på det nuvarande kontrollsystemets datalagringsformat och om information om dess struktur är adekvat. Det noteras att det inte finns någon garanti till att få åtkomst till kontrollsystemets databas, eller information om dess struktur, därför presenteras även alternativa tekniker, däribland BACnet/IP och Open Platform Communications (OPC) Unified Architecture.
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Books on the topic "Smart automation systems"

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C, Mullin Ray, ed. Smart house wiring. Albany, N.Y: Delmar Publishers, 1993.

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Ghosh, Sumit. Intelligent transportation systems: Smart and green infrastructure design. 2nd ed. Boca Raton: Taylor & Francis, 2010.

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Ghosh, Sumit. Intelligent transportation systems: Smart and green infrastructure design. 2nd ed. Boca Raton: Taylor & Francis, 2010.

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1970-, Lee Tony S., ed. Intelligent transportation systems: Smart and green infrastructure design. Boca Raton: Taylor & Francis, 2010.

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Fundamentals and applications in contactless smart cards and identification. 3rd ed. Chichester, West Sussex: Wiley, 2010.

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Briere, Daniel D. Smart homes for dummies. 3rd ed. Indianapolis, IN: Wiley Pub., Inc., 2007.

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Briere, Daniel D. Smart homes for dummies. 3rd ed. Indianapolis, IN: Wiley Pub., Inc., 2007.

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Finkenzeller, Klaus. Fundamentals and applications in contactless smart cards and identification cards, radio frequency identification and near-field communication. 3rd ed. Chichester, West Sussex: Wiley, 2010.

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Luo, Zongwei. Smart manufacturing innovation and transformation: Interconnection and intelligence. Hershey, PA: Business Science Reference, 2014.

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Smart grid: Fundamentals of design and analysis. Hoboken, N.J: Wiley, 2012.

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Book chapters on the topic "Smart automation systems"

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Hinger, Ritik, and Rejo Mathew. "Smart Home Automation Systems." In Lecture Notes on Data Engineering and Communications Technologies, 948–52. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-24643-3_112.

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Goodwin, Steven. "Media Systems." In Smart Home Automation with Linux, 85–115. Berkeley, CA: Apress, 2010. http://dx.doi.org/10.1007/978-1-4302-2779-3_3.

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Prutha, G., and G. S. Anitha. "Smart Automation to Robot." In Lecture Notes in Networks and Systems, 139–50. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-3765-9_15.

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Yang, Shuang-Hua. "ZigBee Smart Home Automation Systems." In Signals and Communication Technology, 263–74. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-5505-8_13.

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Chouhan, S., and A. Feliachi. "Switch Optimization for Smart Grid Distribution Automation." In Energy Systems, 257–72. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-36115-0_8.

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Dhingra, Sunita, Ashwani Kumar Dhingra, and Satinder Bal Gupta. "Smart Farming: An IOT Based Automation." In Ambient Communications and Computer Systems, 79–88. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-7952-0_8.

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Landahl, Gustaf. "Stockholm—Smart City." In Intelligent Systems, Control and Automation: Science and Engineering, 127–44. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-56926-6_10.

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Katyare, Poonam, and Shubhalaxmi S. Joshi. "Electricity Anomalies Detection and Automation in Smart Meter System." In IOT with Smart Systems, 453–62. Singapore: Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-3945-6_44.

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Satheeskanth, N., S. D. Marasinghe, R. M. L. M. P. Rathnayaka, A. Kunaraj, and J. Joy Mathavan. "IoT-Based Integrated Smart Home Automation System." In Smart Innovation, Systems and Technologies, 341–55. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-3675-2_26.

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Thakur, Rahul, and Jay Singh. "IoT-Based Automation Irrigation System." In Advances in Smart Communication and Imaging Systems, 501–9. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-9938-5_48.

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Conference papers on the topic "Smart automation systems"

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Papa, C. "Smart systems at ST." In 2011 Design, Automation & Test in Europe. IEEE, 2011. http://dx.doi.org/10.1109/date.2011.5763196.

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Shakeri, Cirrus, Ismail Deif, Prasanna Katragadda, and Stanley Knutson. "Intelligent design system for design automation." In Intelligent Systems and Smart Manufacturing, edited by Bhaskaran Gopalakrishnan and Angappa Gunasekaran. SPIE, 2000. http://dx.doi.org/10.1117/12.403679.

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Teymourzadeh, Rozita, Salah Addin Ahmed, Kok Wai Chan, and Mok Vee Hoong. "Smart GSM based Home Automation System." In 2013 IEEE Conference on Systems, Process & Control (ICSPC). IEEE, 2013. http://dx.doi.org/10.1109/spc.2013.6735152.

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Stamatescu, Grigore, Iulia Stamatescu, Nicoleta Arghira, and Ioana Fagarasan. "Cybersecurity Perspectives for Smart Building Automation Systems." In 2020 12th International Conference on Electronics, Computers and Artificial Intelligence (ECAI). IEEE, 2020. http://dx.doi.org/10.1109/ecai50035.2020.9223152.

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Vigna, Benedetto. "Smart Systems for Internet of Things." In Design Automation and Test in Europe. New Jersey: IEEE Conference Publications, 2013. http://dx.doi.org/10.7873/date.2013.014.

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Tawde, Reshma, Ashwin Nivangune, and Manoj Sankhe. "Cyber security in smart grid SCADA automation systems." In 2015 International Conference on Innovations in Information,Embedded and Communication Systems (ICIIECS). IEEE, 2015. http://dx.doi.org/10.1109/iciiecs.2015.7192918.

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Ayan, Onur, and Belgin Turkay. "Smart Thermostats for Home Automation Systems and Energy Savings from Smart Thermostats." In 2018 6th International Conference on Control Engineering & Information Technology (CEIT). IEEE, 2018. http://dx.doi.org/10.1109/ceit.2018.8751790.

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Vadde, Srikanth, Sagar V. Kamarthi, and Surendra M. Gupta. "Modeling smart sensor integrated manufacturing systems." In Photonics Technologies for Robotics, Automation, and Manufacturing, edited by Bhaskaran Gopalakrishnan, Angappa Gunasekaran, and Peter E. Orban. SPIE, 2004. http://dx.doi.org/10.1117/12.515985.

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Ramachandran, S. Shreyas, K. Sivaraman, A. K. Veeraraghavan, R. Yuvaraj, and R. Azhagumurgan. "Design and development of smart branched switch for home automation systems." In 2017 International Conference On Smart Technologies For Smart Nation (SmartTechCon). IEEE, 2017. http://dx.doi.org/10.1109/smarttechcon.2017.8358446.

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Miah, Jonayet, and Razib Hayat Khan. "Service Development of Smart Home Automation System." In CIIS 2019: 2019 The 2nd International Conference on Computational Intelligence and Intelligent Systems. New York, NY, USA: ACM, 2019. http://dx.doi.org/10.1145/3372422.3372437.

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