Your search keyword '"Building automation and control system"' showing total 10 results

1. The ghost in the building: Non-invasive spoofing and covert attacks on automated buildings

Author

Bengtsson, Johnny

Published

2025

2. Auditing and design evaluation of building automation and control systems based on eu.bac system audit – Danish case study

Author

Jacob Alstrup Engvang and Muhyiddine Jradi

Subjects

Building automation and control system, Bacs, System auditing, Eu.bac system, EN 15,232, Danish case study, Environmental technology. Sanitary engineering, TD1-1066, Building construction, TH1-9745

Abstract

Improving the energy performance of buildings will prove vital for countries worldwide to reduce their energy consumption and emissions. A key player in reaching this goal is building automation and control, as having well-designed and operated building automation and control systems (BACS) provide large capabilities in optimizing the energy performance of different systems. In this regard, building owners and planners must be able to assess and evaluate the current status of their BACS and identify potential improvements. While there has been a large block of work done in Denmark along with regulations aiming to audit the overall building performance and individual systems characteristics, very little has been done in the field of auditing the building automation and control system and evaluating its structure and operation patterns. This lack of systematic BACS auditing and evaluation in Danish buildings is addressed in this work with the first implementation and evaluation of the eu.bac System methodology in a university office building. The building was found to comply with the lowest automation and control class E. Two BACS retrofit packages were proposed and evaluated, and energy savings up to 28.5% are reported. The preliminary assessment results reported demonstrate the potential of building automation and control retrofit measures in a combined holistic improvement package alongside building envelope upgrade. In addition, the impact of the eu.bac System improvements and labeling on the building's classification based on the recent Danish building regulation BR18 is evaluated. The study discusses the feasibility of eu.bac System tool implementation in Danish buildings and suggests improvements. It also correlates and compares the eu.bac System audit to the upcoming European SRI instrument. In light of the huge efforts to digitalize the Danish energy sector, ensuring proper design and operation of BACS is of great importance. Thus, a systematic and methodical BACS auditing and evaluation methodology will be a crucial part of buildings’ initial and retro-commissioning platforms.

Published

2021

3. Assessment of Building Automation and Control Systems in Danish Healthcare Facilities in the COVID-19 Era.

Author

Pedersen, Jeanette Maria, Jebaei, Farah, and Jradi, Muhyiddine

Subjects

INTELLIGENT buildings, HEALTH facilities, INDOOR air quality, AUTOMATION, THERMAL comfort, AIR quality, COVID-19

Abstract

A well-designed and properly operated building automation and control system (BACS) is key to attaining energy-efficient operation and optimal indoor conditions. In this study, three healthcare facilities of a different type, age, and use are considered as case studies to investigate the functionalities of BACS in providing optimal air quality and thermal comfort. IBACSA, the first-of-its-kind instrument for BACS assessment and smartness evaluation, is used to evaluate the current systems and their control functionalities. The BACS assessment is reported and analyzed. Then, three packages of improvements were implemented in the three cases, focusing on (1) technical systems enhancement, (2) indoor air quality and comfort, and (3) energy efficiency. It was found that the ventilation system domain is the best performer in the three considered cases with an overall score of 52%, 89% and 91% in Case A, B, and C, respectively. On the other hand, domestic hot water domain scores are relatively low, indicating that this is an area where Danish healthcare facilities need to provide more concentration on. A key finding indicated by the assessment performed is that the three buildings score relatively very low when it comes to the impact criteria of energy flexibility and storage. [ABSTRACT FROM AUTHOR]

Published

2022

4. A cyber-physical system for building automation and control based on a distributed MPC with an efficient method for communication.

Author

Karbasi, Ali and Farhadi, Alireza

Subjects

CYBER physical systems, INTELLIGENT buildings, AUTOMATION, TEMPERATURE control, ALGORITHMS, WIRELESS communications

Abstract

This paper introduces a cyber-physical system for building automation and control that is developed based on a distributed model predictive control. The implemented distributed method significantly reduces computation overhead with respect to the centralized methods. However, continuous data transfer between subsystems, which are often far from each other, is required when using this method. Information transmission between subsystems is very often subject to the limitations of transmission bandwidth and/or short communication range resulting in significant communication overhead. This causes significant time latency between making measurements and applying control commands, which adversely affects the control performance. Therefore, the distributed method used in this paper implements a two-level communication architecture to reduce the communication overhead. In order to avoid collision in communication inside neighborhood using this method, the TDMA-OFDMA scheme is used for wireless communication between distributed devices. Under these assumptions, the communication overhead is calculated. Then, a novel algorithm for finding the size of neighborhoods resulting in the lowest time latency between making measurements and applying control commands is presented for a typical office building. Finally, the satisfactory performance of the proposed cyber-physical system for the temperature control of a typical office building in the presence of disturbance and model inaccuracy is illustrated using computer simulations. [ABSTRACT FROM AUTHOR]

Published

2021

5. Assessment of Building Automation and Control Systems in Danish Healthcare Facilities in the COVID-19 Era

Author

Jeanette Maria Pedersen, Farah Jebaei, and Muhyiddine Jradi

Subjects

smart buildings, building automation and control system, BACS auditing, EN15232 standard, initial commissioning, technical domains, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

A well-designed and properly operated building automation and control system (BACS) is key to attaining energy-efficient operation and optimal indoor conditions. In this study, three healthcare facilities of a different type, age, and use are considered as case studies to investigate the functionalities of BACS in providing optimal air quality and thermal comfort. IBACSA, the first-of-its-kind instrument for BACS assessment and smartness evaluation, is used to evaluate the current systems and their control functionalities. The BACS assessment is reported and analyzed. Then, three packages of improvements were implemented in the three cases, focusing on (1) technical systems enhancement, (2) indoor air quality and comfort, and (3) energy efficiency. It was found that the ventilation system domain is the best performer in the three considered cases with an overall score of 52%, 89% and 91% in Case A, B, and C, respectively. On the other hand, domestic hot water domain scores are relatively low, indicating that this is an area where Danish healthcare facilities need to provide more concentration on. A key finding indicated by the assessment performed is that the three buildings score relatively very low when it comes to the impact criteria of energy flexibility and storage.

Published

2022

6. Machine Learning for Benchmarking Models of Heating Energy Demand of Houses in Northern Canada

Author

Behrad Bezyan and Radu Zmeureanu

Subjects

benchmarking models, linear regression, machine learning, building automation and control system, ongoing commissioning, measurements, northern houses, Technology

Abstract

In most cases, the benchmarking models of energy use in houses are developed based on current and past data, and they continue to be used without any update. This paper proposes the method of retraining of benchmarking models by applying machine learning techniques when new measurements are made available. The method uses as a case study the measurements of heating energy demand from two semi-detached houses of Northern Canada. The results of the prediction of heating energy demand using static or augmented window techniques are compared with measurements. The daily energy signature is used as a benchmarking model due to its simplicity and performance. However, the proposed retraining method can be applied to any form of benchmarking model. The method should be applied in all possible situations, and be an integral part of intelligent building automation and control systems (BACS) for the ongoing commissioning for building energy-related applications.

Published

2020

7. The Smart Grid—State-of-the-art and Future Trends.

Author

El-hawary, Mohamed E.

Subjects

*SMART power grids, *SOCIOECONOMICS, *ELECTRIC power, *ELECTRIC power distribution automation, *ELECTRIC power distribution management, *HOME automation, *ENERGY management, *ELECTRIC vehicle charging stations

Abstract

This paper introduces Smart Grid and associated technical, environmental and socio-economic, and other non-tangible benefits to society, and articulates the need for the concept and the fact that it is a dynamic interactive, real-time infrastructure that responds to the challenges of designing and building the power system of the future, rather than being simply a marketing term. To illustrate the diversity of terminology, the paper compares an Electric Power Research Institute (EPRI) definition with that suggested by a study group of the International Electrotechnical Commission (IEC). Next, a paper sponsored by the Canadian Electricity Association (CEA) that cites three example definitions to highlight the diversity of views of Smart Grid is briefly reviewed. Early misconceptions and characterizations of Smart Grid are discussed as a prelude to addressing challenging issues that motivate developing and implementing related innovative technologies, products and services. The paper then discusses the potential promise of the Smart Grid, which is embedded in its often-cited attributes of efficiency, accommodating, quality focus, enabling and self-healing to name some. The paper then addresses some of the often-cited impediments to accepting Smart Grid which are based on concerns and issues confronting its forward progress, adoption and acceptance. Distribution Automation (DA) and embedded intelligence are discussed emphasising self-healing, optimizing operation and facilitating recreation and recovery from abnormal events. Functional and integration requirements of Distributed Energy Resources (DER,) are detailed. Smart Consumption Infrastructure elements of Distribution Management Systems (DMS,) Automated Metering Infrastructure (AMI,) Smart Homes (SH), and Smart Appliances (SA,) are discussed. Following the introductory section, this paper summarizes contributions included in the double issue 42(3–4) of the Electric Power Components and Systems Journal. To begin, papers are offered discussing smart grid activities in China, India, and the development of a Smart Grid roadmap for the US State of Kentucky. The approaches of each of these cases reflect the diversity of policy initiatives in these jurisdictions. Two state of the art reviews are given next. The first considers distribution network active management and future development trends in technologies and methods, where centralized and decentralized management frameworks and applying agent-based coordination are discussed. The second offers a review of smart home technologies and the goals of an energy management system (SHEMS). This section is concluded by a letter providing an overview of recent and expected advances nanotechnology applications in Smart Grid. Following the state of the art review section, ten papers offering new and innovative research approaches and results are included. These papers cover Smart Grid topics such as real-time energy control approach for smart home energy management systems, optimal operation of energy- efficient buildings with Combined Heat and Power (CHP) systems, energy management and control of Electric Vehicle (EV) charging stations, voltage-frequency control of a voltage source inverter (VSI) in a smart islanded microgrid, smart generation scheduling for wind-thermal-pumped storage systems, optimized power system restoration, robust data transmission upon compressive sensing, data fusion for wide-area oscillation monitoring, satellite based GPS synchronized monitoring systems, stability in Smart Grid with emerging renewable energy techno- logies. [ABSTRACT FROM PUBLISHER]

Published

2014

8. Criticità nell'impiego di sistemi di gestione dell'energia e del comfort negli edifici

Author

Filippi, Marco and Fabrizio, Enrico

Subjects

building’s smartness, building automation and control system, BACS, technical building management system, TMBS

Published

2019

9. Machine Learning for Benchmarking Models of Heating Energy Demand of Houses in Northern Canada.

Author

Bezyan, Behrad and Zmeureanu, Radu

Subjects

*HEAT, *MACHINE learning, *INTELLIGENT buildings, *BENCHMARKING (Management), *HOUSING, *BUILDING commissioning

Abstract

In most cases, the benchmarking models of energy use in houses are developed based on current and past data, and they continue to be used without any update. This paper proposes the method of retraining of benchmarking models by applying machine learning techniques when new measurements are made available. The method uses as a case study the measurements of heating energy demand from two semi-detached houses of Northern Canada. The results of the prediction of heating energy demand using static or augmented window techniques are compared with measurements. The daily energy signature is used as a benchmarking model due to its simplicity and performance. However, the proposed retraining method can be applied to any form of benchmarking model. The method should be applied in all possible situations, and be an integral part of intelligent building automation and control systems (BACS) for the ongoing commissioning for building energy-related applications. [ABSTRACT FROM AUTHOR]

Published

2020

10. A modular, open system for testing ventilation and cooling strategies in extremely low energy lecture rooms

Author

Andriamamonjy, Razakaniaina Ando Ludovic and Klein, Ralf

Subjects

MODELICA, Building Automation and Control System, BIM, BACnet

Abstract

Lecture rooms with their high, quickly fluctuating internal gains, e.g. changing from no occupation to full occupation within some minutes, are quite challenging when good indoor air-quality and thermal comfort is required in an extremely low energy building context. One essential aspect is the perfect control of air flow and temperature based on reliable, continuous measurement in all relevant parts of the ventilation system. This paper describes a case study that combines real building operation on a university campus with an advanced, modular test platform covering all aspects of the real operational performance of extremely low energy lecture rooms. A full-scale Passive House test facility was constructed at Technology Campus Gent, KU Leuven, Belgium. The building is part of the campus and has two lecture rooms for 80 students each. Designed and certified according to the Passive House standard, the new facility consists of two levels, constructed on top of an existing building (ground-floor only). Thermal insulation was placed also in-between the two lecture rooms and in the internal walls towards the staircase. This results in a layout with two identical, box-shaped volumes with different thermal mass (one with a timber-frame structure, one with brick-walls). The facility includes a high performance AHU, with frequency controlled fans and two sets of VAV-boxes, providing ventilation, heating and cooling, a wood pellet boiler, motor-controlled exterior sun-shading and windows and high performance lighting fixtures with daylight control. A key feature is the integrated system for monitoring and control based on open standards: BACnet for communication with the AHU, KNX, DALI and Ethercat to link decentralized IO-units with the Building controler. This PLC based, distributed PC environment provides detailed control of the building equipment and real-time, long-term monitoring of all building parameters and the outdoor climate. It provides also a very flexible and powerful platform for the implementation and testing of new strategies for model based predictive control (MPC) and fault detection and diagnosis (FDD). The Modelica language is used for building simulation during operation. A detailed Building Information Model (BIM) was created and all relevant elements of the equipment and the BMS will be added. The BIM will be used to manage measured data and provide integration between simulation and measurement. Results from detailed air flow measurements at different fan speeds are provided. These initial measurements show good general agreement and provide deeper insight in the dynamic behaviour of the ventilation system. Beside the air flow sensors of the AHU and the VAV boxes, Venturi tubes are integrated in the supply- and return-air duct of each lecture room. The modular monitoring system provides the possibility of easy integration of additional sensors (e.g. thermo-anemometers for temporary measurement of velocities and calculation of the air flow based on the Log-Tchebychev method). Different cooling strategies will be tested and compared as soon as climate conditions permit. ispartof: pages:416-425 ispartof: Effective ventilation in high performance buildings pages:416-425 ispartof: 36th AIVC Conference, 5th TightVent Conference, 3rd venticool Conference location:Madrid (Spain) date:23 Sep - 24 Sep 2015 status: published

Published

2015