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Статті в журналах з теми "Lighting automation"

Автор: Grafiati
Опубліковано: 30 травня 2022
Оновлено: 31 травня 2022

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1

Eridani, Dania, M. Azka Asyauqqi, and Agung Budi Prasetijo. "Analisis Purwarupa Sistem Otomatisasi Penerang Jalan Untuk Menghemat Daya Listrik." J-SAKTI (Jurnal Sains Komputer dan Informatika) 4, no. 1 (March 30, 2020): 142. http://dx.doi.org/10.30645/j-sakti.v4i1.194.

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Анотація:
Public street lighting automation is one part of an area or a city development design. The design of public street lightning need to pay attention to several aspects, where one of them is how the public street lighting design is able to save electricity consumption. This research contain several combination of public street light-ing automation designs. It use Arduino Mega 2560 board as the main control board, KY-018 sensor as the sen-sor to detect the environment light intensity, HC-SR501 sensor as the sensor to detect object movement, AC light dimmer as the regulator of the lamp, AC power meter as a measuring device to measure the power con-sumption of the lamp used. The testing mechanism are consist of testing the input and output components in the system and testing the electricity consumption in the circuit design. The results of the research carried out, showed a comparison of the level of electricity consumption from each series of combinations that can be used as a reference for road lighting development planning.
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2

Zauner, Johannes, and Herbert Plischke. "Designing Light for Night Shift Workers: Application of Nonvisual Lighting Design Principles in an Industrial Production Line." Applied Sciences 11, no. 22 (November 18, 2021): 10896. http://dx.doi.org/10.3390/app112210896.

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Анотація:
Chronodisruption deteriorates the health and wellbeing of shift workers. Artificial light at night and the lack of light during the day are major contributors to chronodisruption and need to be optimized in shift work scenarios. Here, we present one solution for a lighting and automation system in an industrial production workplace. The setting is a rapidly rotating shift work environment with morning, evening, and night shifts. We describe a procedure to specify the new lighting through a software-agnostic nonvisual lighting simulation for artificial and daylighting scenarios. Through this process, a new luminaire is created, called Drosa, that allows for a large melanopic stimulus range between 412 and 73 lx melanopic equivalent daylight (D65) illuminance vertically at eye level, while maintaining a neutral white illuminance at task level between 1250 and 900 lx, respectively. This is possible through a combination of glare-free spotlights with adjustable areal wing lights. An individually programmed automation system controls the light dosage and timing during the day and night. The work is relevant for other shift work scenarios, where the presented example and the discussed rationale behind the automation might provide insights. The work is further relevant for other lighting scenarios beyond industrial shift work, as the nonvisual lighting simulation process can be adapted to any context.
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3

Rajarajeswari, S., Shola Usha Rani, Alpanshu Kataria, and Soumitro Dutta. "Home Automation through Smart Lighting, Smart Security and other Appliances." ITM Web of Conferences 37 (2021): 01024. http://dx.doi.org/10.1051/itmconf/20213701024.

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Анотація:
The smart home automation system is designed to conveniently manage and monitor household appliances and lighting fixtures remotely, to save time and to use resources effectively. It is a control system for allowing access to home automation devices. The automation devices include lights, fan, camera and doors. It even enhances the main features of the project to control the home appliances from anywhere as remotely. With the camera module, continuous surveillance and protection of the home is accomplished. A significant improvement is achieved in utility costs by an optimal use of energy. Using inexpensive electronic and interactive tools, this initiative can be applied, making it economically, physically and operationally feasible. Basically it involves controlling everything remotely via a visual interface and mobile application. The automation system employs the use of MQTT protocol in order to secure the transmitted device based information to and from in the network. The defense against Man in the Middle attack (MITM) is the main focus of our automation system. The routed messages are checked at the intermediate hub to check for the occurrence of MITM based DoS attacks through manual reset points. .
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4

Cheng, Xiao Liang, Shan Hu, Li Guo Tian, and Meng Li. "Design of Intelligent Building Lighting System Based on CAN Bus." Advanced Materials Research 846-847 (November 2013): 274–77. http://dx.doi.org/10.4028/www.scientific.net/amr.846-847.274.

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Анотація:
The traditional lighting control system has the problem that short communication distance, slow transmission speed and high error rat. This paper presents and designs an intelligent lighting control system based on CAN bus. Describing the design framework of intelligent lighting system, it focuses on the realization of CAN communication module of SJA1000. The intelligent lighting control system based on CAN bus is a distributed intelligent control system. Compared with the traditional lighting control system, it overcomes the effect of relatively scattered control and disadvantages of poor management, poor real-time and low degree of automation.
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5

Hu, Shan, Li Guo Tian, Xiao Liang Cheng, and Meng Li. "Research of Communication Method of Intelligent Building Lighting System Based on CAN Bus." Applied Mechanics and Materials 511-512 (February 2014): 1225–29. http://dx.doi.org/10.4028/www.scientific.net/amm.511-512.1225.

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Анотація:
This paper proposes an intelligent lighting control system based on CAN. Compared with the traditional lighting control system, it overcomes the effect of relatively scattered control and disadvantages of poor management, poor real-time and low degree of automation. In explaining the overall design of intelligent lighting system framework and communication protocols based on CAN bus communication, it analyzes the real time capability and puts forward the optimization scheme. It also proposes an implementation of SJA1000 CAN communication modules to achieve application to intelligent lighting system.
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6

Yan Huan, Ch’ng, Mohd Azam Osman, and Jong Hui Ying. "An Innovation-Driven Approach to Specific Language Impairment Diagnosis." Malaysian Journal of Medical Sciences 28, no. 2 (April 21, 2021): 161–70. http://dx.doi.org/10.21315/mjms2021.28.2.15.

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Анотація:
Background: Specific language impairment (SLI) diagnosis is inconvenient due to manual procedures and hardware cost. Computer-aided SLI diagnosis has been proposed to counter these inconveniences. This study focuses on evaluating the feasibility of computer systems used to diagnose SLI. Methods: The accuracy of Webgazer.js for software-based gaze tracking is tested under different lighting conditions. Predefined time delays of a prototype diagnosis task automation script are contrasted against with manual delays based on human time estimation to understand how automation influences diagnosis accuracy. SLI diagnosis binary classifier was built and tested based on randomised parameters. The obtained results were cross-compared to Singlims_ES.exe for equality. Results: Webgazer.js achieved an average accuracy of 88.755% under global lighting conditions, 61.379% under low lighting conditions and 52.7% under face-focused lighting conditions. The diagnosis task automation script found to execute with actual time delays with a deviation percentage no more than 0.04%, while manually executing time delays based on human time estimation resulted in a deviation percentage of not more than 3.37%. One-tailed test probability value produced by both the newly built classifier and Singlims_ES were observed to be similar up to three decimal places. Conclusion: The results obtained should serve as a foundation for further evaluation of computer tools to help speech language pathologists diagnose SLI.
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7

Amine, Bouzid Mohamed, Chaib Fatima Zohra, Hamani Ilyes, Aid Lahcen, and Allaoui Tayeb. "Smart Home Automation System based on Arduino." IAES International Journal of Robotics and Automation (IJRA) 7, no. 4 (December 1, 2018): 215. http://dx.doi.org/10.11591/ijra.v7i4.pp215-220.

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Анотація:
<p>Intelligent home environments are environments that attempt to ease the user's life in different ways and make it more comfortable using the technology. This paper present the principle of realizing a home control interface based on an. Arduino UNO R3 board equipped with a programmable ATmega328 microcontroller. The sketch to be uploaded to the Arduino is written in C language. A desktop application was created in C # language to communicate with the Arduino via the serial port, thus facilitating repetitive tasks such as lighting control, opening / closing doors. A temperature / humidity sensor, an alarm (motion sensor + buzzer), garden lighting and automatic control of the TV via an IR receiver + IR transmitter have been added without forgetting manual control</p>
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8

Sowa, Sławomir, and Jarosław Gielniak. "Implementation of the lighting control algorithms in the KNX system." ITM Web of Conferences 19 (2018): 01040. http://dx.doi.org/10.1051/itmconf/20181901040.

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Анотація:
There are many different ways of managing the lighting. The usage of appropriately selected controlling algorithms allows to increase the functionality, improve the comfort of using and introduces measurable benefits in the form of power consumption savings. In order to precisely apply the proper lighting control algorithms, it is important to know the distribution of light intensity in the room. This article is aimed at comparing different ways of lighting control and contains a control idea based on the KNX system, which is a popular building automation system. It is very useful for the implementation of lighting control criteria.
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9

Xu, Fei Long. "Research on New Energy Automatic Lighting Control System Based on the CAN-Bus." Advanced Materials Research 1079-1080 (December 2014): 998–1001. http://dx.doi.org/10.4028/www.scientific.net/amr.1079-1080.998.

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Анотація:
With the continuousdevelopment of modern new energy technologies, Hyundai automation andincreasingly high degree of intelligence, automotive lighting control system isto ensure safe driving is an important part, in order to ensure the safety andconvenience of road lighting, reducing the driver's labor strength, appeared ona variety of new automotive lighting control system, commonly used in daytimerunning auto-dimming, automatic lighting system, the beam adjustment system,delay control. Applications CAN bus can not only simplify the wiring harness toachieve vehicle information sharing, reduce system cost, but also greatlyreduce the failure rate of vehicle lights, and extend lamp life.
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10

Jumah, Osama Qasim, and Sara Abbas Radhi ‎. "Adaptive Home Automation System by Using Smart Phone Based Artificial Intelligent." JOURNAL OF UNIVERSITY OF BABYLON for Pure and Applied Sciences 26, no. 2 (December 26, 2017): 1–14. http://dx.doi.org/10.29196/jub.v26i2.467.

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Анотація:
This paper proposes an advanced intelligent home automation system to control the mainhome functions such as heating, ventilation, air conditioning, shading, lighting, security and food’spreparation. The proposed system designed to detect motion or fire and to make decisionsindependently. Information about motion, heating, and lightning were collected from three nodes usingspecial sensors that micro-controlled through Arduino with WIFI shield and Xbee to be sent to theSmart Phone for manipulation through Java-based Android application. Delta Learning Rule algorithmwas used for decisions making as it is able to distinguish whether it is a dangerous situation or not.Furthermore, the proposed system has a property of generating an alert signal and sends it to the policeor fire station through GMS messages.
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11

Pinto, German Alfonso Osma, Gabriel Ordóñez Plata, Laura Yazmin Amado Duarte, and Rodolfo Villamizar Mejía. "Control of a Hybrid Illumination System in a Tropical Zone." Applied Mechanics and Materials 704 (December 2014): 368–72. http://dx.doi.org/10.4028/www.scientific.net/amm.704.368.

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Анотація:
This paper presents a control system approach for hybrid illumination of administrative offices (225m2) at an university building located at a tropical zone. The main goal was to minimize the energy consumption of artificial lightings (fluorescent), by taking advantage of the high natural lighting level during a workday (8 a.m. and 6 p.m.). The control system devices used for each office are: presence sensor, dimming photocell and dimming ballasts, all them connected to the Andover Infinet Controller. By means of data analysis and daylight curves, energy consumption and financial savings are determined. Subsequently, the average energy consumption per square meter due to the hybrid lighting in the offices (8.5 kWh/m2/year) and typical illumination of the central campus (27 kWh/m2/year) were compared. It was demonstrated that a reduction of energy consumption of about 70%, 50% by daylighting and 20% by automation was obtained.
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12

Buyukkinaci, B., S. Onaygil, O. Guler, and MB Yurtseven. "Road lighting automation scenarios depending on traffic speed and volume." Lighting Research & Technology 51, no. 6 (November 14, 2018): 910–21. http://dx.doi.org/10.1177/1477153518812536.

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Анотація:
In this study, experimental studies that the authors have previously performed on a test road for fixed observer conditions to determine the visibility levels are extended to the moving observer position. As a result of the measurements and tests, when the vehicle speed is constant at the current speed limits for urban roads, it has been seen that the visibility level values in the calculation area remain within the acceptable limits and changing the luminous fluxes will not significantly change the visual performance of the drivers up to two lower lighting classes. It has been shown that the light level can be reduced to create two additional classes besides the current one when the traffic density decreases, at the times when vehicle speeds do not decrease. The results are applied as a case study on the Cendere Street. Road lighting classes are determined according to the EN 13201-1 Technical Report. Road lighting classes that can be applied at different times in the Cendere Street change between M3 and M5 according to the average speed of the passing vehicles, traffic density, road and ambient conditions. It is estimated that about 40% energy saving can be achieved when a lighting automation system is installed.
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13

Yuferev, L. Yu, I. M. Dovlatov, and E. S. Rudzik. "Automation of air disinfection and lighting in agricultural buildings." Agricultural machinery and technologies, no. 5 (October 20, 2017): 43–48. http://dx.doi.org/10.22314/2073-7599-2017-5-43-48.

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14

Loshkarev, I. Yu, T. A. Shirobokova, and L. A. Shuvalova. "Automation of artificial lighting design for dairy herd cows." Journal of Physics: Conference Series 1333 (October 2019): 042018. http://dx.doi.org/10.1088/1742-6596/1333/4/042018.

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15

Sambandam Raju, Preethi, Murugan Mahalingam, and Revathi Arumugam Rajendran. "Design, Implementation and Power Analysis of Pervasive Adaptive Resourceful Smart Lighting and Alerting Devices in Developing Countries Supporting Incandescent and LED Light Bulbs." Sensors 19, no. 9 (April 30, 2019): 2032. http://dx.doi.org/10.3390/s19092032.

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Анотація:
Nowadays, there is an increasing demand for energy saving techniques in residential, industrial, institutional, clinical and other multipurpose indoor and outdoor applications. Lights play an ubiquitous role around the Earth in all types of structures and outdoor surroundings. Hence, the authors propose a universal lighting control device—named Pervasive Adaptive Resourceful Smart Lighting and Alerting Device—accomplished mainly by the use of Arduino UNO R3. The Pervasive Adaptive Resourceful Smart Lighting and Alerting Device works in two modes, namely, light control and alert, by deploying the perceptive light automation and perceptive light automation with buzzer activation algorithms, respectively. The contributions of the paper are: a common lighting control solution for both incandescent and light emitting diode light bulbs for all indoor and outdoor environments. A profound power consumption analysis, and investigation of the proposed device by estimating the Energy Consumption Ratio (ECR) and Relative Energy Saving Ratio (RESR) through the real time deployment in diverse circumstances with 60 W incandescent, 8 W and 0.5 W LED light bulbs is executed. In addition to the evaluation of RESR and ECR characteristics the power consumption of light bulbs in terms of scalable conditions of number of light bulbs is also analyzed. The proposed model is proved to work efficiently for both incandescent and LED light bulbs.
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16

Milosevic, Milos, Nenad Cetic, Jelena Kovacevic, and Tihomir Andjelic. "Lighting control using Raspberry Pi and OBLO living home automation system." Serbian Journal of Electrical Engineering 16, no. 1 (2019): 45–54. http://dx.doi.org/10.2298/sjee1901045m.

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Анотація:
Home automation systems are bringing comfort and safety into the life of a modern human. They are becoming more popular each day and most of the well-known software companies are fighting to offer their newest solution in this area. OBLO Living is a home automation system developed by the scientific research institute ?RT-RK?. This paper presents one successful binding of the Raspberry Pi computer and the OBLO living system. The binding was made using a C++ application developed by the authors of this paper. The developed application is executed in real time on the Raspberry Pi platform. It supports a graphical user interface and its purpose is maintaining constant illumination of the room regardless of the daylight.
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17

Kaminska, Aniela, and Andrzej Ożadowicz. "Lighting Control Including Daylight and Energy Efficiency Improvements Analysis." Energies 11, no. 8 (August 19, 2018): 2166. http://dx.doi.org/10.3390/en11082166.

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Анотація:
Energy used for lighting is one of the major components of total energy consumption in buildings. Nowadays, buildings have a great potential to reduce their energy consumption, but to achieve this purpose additional efforts are indispensable. In this study, the need for energy savings evaluation before the implementation of lighting control algorithms for a specified building is highlighted. Therefore, experimental tests have been carried out in a university building with laboratories and other rooms, equipped with KNX building automation system. A dimmable control strategy has been investigated, dependent on daylight illuminance. Moreover, a relationship between external and internal daylight illuminance levels has been evaluated as well. Based on the experimental results, the authors proposed a method for the rough estimation of electrical energy savings. Since, according to the EN 15232 standard, Building Automation and Control Systems (BACS) play an important role in buildings’ energy efficiency improvements, the BACS efficiency factors from this standard have been used to verify the experimental results presented in the paper. The potential to reduce energy consumption from lighting in non-residential buildings by 28% for offices and 24% for educational buildings has been confirmed, but its dependence on specific building parameters has been discussed as well.
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18

Varghese, Susan G., Ciji Pearl Kurian, V. I. George, Anupriya John, Varsha Nayak, and Anil Upadhyay. "Comparative study of zigBee topologies for IoT-based lighting automation." IET Wireless Sensor Systems 9, no. 4 (August 1, 2019): 201–7. http://dx.doi.org/10.1049/iet-wss.2018.5065.

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19

Hardman, Blair, and Dave Sharp. "Lighting the way." APPEA Journal 62, no. 2 (May 13, 2022): S274—S277. http://dx.doi.org/10.1071/aj21226.

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Анотація:
Historically, Chevron Australia Pty Ltd have utilised Mobile Diesel Lighting Towers (MDLTs), with ‘turtle friendly’ luminaires at the Gorgon natural gas project (located on Barrow Island, Western Australia), operated by Chevron Australia on behalf of a joint venture of the Australian subsidiaries of Chevron (47.3%), ExxonMobil (25%), Shell (25%), Osaka Gas (1.25%), Tokyo Gas (1%) and JERA (0.417%). MDLTs are a known, relatively safe and reliable light source that can be utilised in most locations, though they emit noise, odour, vibrations, waste hydrocarbons and CO2 as well as requiring regular refuelling and general engine maintenance. With recent and significant improvements in solar energy harvest, and battery storage efficiencies, Mobile Solar Lighting Towers (MSLTs) have technical and performance characteristics that are comparable, and in many instances superior, to MDLTs. In addition to these characteristics, Chevron Australia has successfully worked with its Australian supplier, conducting trials on site to introduce a range of additional design and performance improvements. These improvements include simple Human–Machine Interface (HMI) touch screen interface allowing remote automation through WiFi or 4G, real-time battery and performance monitoring, CCTV, geofencing and GPS tracking. The benefits of replacing just 25 owned MDLTs with solar includes the abatement of over 600 tonnes of CO2 and direct operational cost savings of almost A$50 000 per year (not including indirect cost savings or avoided carbon emissions costs). Further, net present value calculations demonstrate a financial benefit exceeding A$1 000 000 over 5 years when the solar towers are leased compared with maintaining existing or purchasing new diesel units. These MSLT units are delivering environmental benefits, direct and indirect financial savings, and reduced health, safety and environment risk, which have been welcomed by the on-site workforce.
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20

Yu, Ya Kun, Fang Ming Ruan, and Yan Jun You. "Analysis and Application of Power Balance in Self-Powered Sensor." Advanced Materials Research 1008-1009 (August 2014): 567–70. http://dx.doi.org/10.4028/www.scientific.net/amr.1008-1009.567.

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Анотація:
wireless sensor network (WSN) nodes based on self-powered function have distinct advantages of battery free and no needing line power, used successfully in lighting control system of modern building. Energy balance and power balance are considered in design of battery-free sensor module. Average current in self-powered wireless sensor module was evaluated based on viewpoint of power balance. Energy balance was discussed in building lighting control system based on special energy storage of super-capacitor. Self-powered wireless sensor module is based on energy harvesting from ambient circumstance. In lighting control system of modern building automation battery-free sensor module has been successfully applied for maintenance and energy saving. The application of battery-free sensor module was analyzed.
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21

Al-Hudhud, Ghada, Layla Alqahtani, Heyam Albaity, Duaa Alsaeed, and Isra Al-Turaiki. "Analyzing Passive BCI Signals to Control Adaptive Automation Devices." Sensors 19, no. 14 (July 10, 2019): 3042. http://dx.doi.org/10.3390/s19143042.

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Анотація:
Brain computer interfaces are currently considered to greatly enhance assistive technologies and improve the experiences of people with special needs in the workplace. The proposed adaptive control model for smart offices provides a complete prototype that senses an environment’s temperature and lighting and responds to users’ feelings in terms of their comfort and engagement levels. The model comprises the following components: (a) sensors to sense the environment, including temperature and brightness sensors, and a headset that collects electroencephalogram (EEG) signals, which represent workers’ comfort levels; (b) an application that analyzes workers’ feelings regarding their willingness to adjust to a space based on an analysis of collected data and that determines workers’ attention levels and, thus, engagement; and (c) actuators to adjust the temperature and/or lighting. This research implemented independent component analysis to remove eye movement artifacts from the EEG signals and used an engagement index to calculate engagement levels. This research is expected to add value to research on smart city infrastructures and on assistive technologies to increase productivity in smart offices.
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22

Jiang, Jun, Mehrdad Moallem, and Youbin Zhengi. "An Intelligent IoT-enabled Lighting System for Energy-efficient Crop Production." Journal of Daylighting 8, no. 1 (February 15, 2021): 86–99. http://dx.doi.org/10.15627/jd.2021.6.

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Анотація:
In this paper, an intelligent lighting instrumentation and automation system is presented with the objective of achieving high energy-efficiency in greenhouse supplemental lighting based on the Internet of Things (IoT) technology. The system runs on a Raspbian operating system which interacts with wireless-enabled light emitting diode (LED) fixtures for plant growth, an online data server, and different light sensors including RGB and quantum sensors. The communication is achieved through RestFul API, UART, and I2C. The system is utilized to implement a feedback controller that automatically adjusts the light dimming levels and, in particular, the ratio of red and blue light intensities based on the plants’ needs. A series of experiments involving plant growth were conducted which indicate that the proposed system can achieve energy-savings up to 34%, when compared to a conventional time scheduling scheme. Additionally, the experiments demonstrate that the system can achieve a highly uniform light distribution under unpredictable natural lighting conditions while saving energy due to supplemental lighting.
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23

Papinutto, M., M. Colombo, M. Golsouzidou, K. Reutter, D. Lalanne, and J. Nembrini. "Towards the integration of personal task-lighting in an optimised balance between electric lighting and daylighting: A user-centred study of emotion, visual comfort, interaction and form-factor of task lights." Journal of Physics: Conference Series 2042, no. 1 (November 1, 2021): 012115. http://dx.doi.org/10.1088/1742-6596/2042/1/012115.

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Анотація:
Abstract Task-lighting is a well-known strategy to save energy by bringing light where it is most needed, providing adaptable localised light conditions of special interest in the current home-office context. Despite these benefits and in addition to negatively impacting biological rhythms, the generalization of backlit screens has made task lights less demanded, with screen users tending to accept significantly lower amounts of the illuminance standards. In parallel, the advantages of task-lighting may contradict the energy benefits of presence-driven lighting or blinds automation. This pilot experiment aims at evaluating the task light usage patterns and characteristic preferences for both paper and computer work from a user-centered perspective to provide guidelines in terms of luminaires characteristics. Thirteen participants evaluated three different task lights in both paper and computer conditions. Our results emphasize the role of the luminaire’s form factor, interface and lighting control characteristics, providing general recommendations on luminaire design.
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24

He, Qi Peng, Xiao Yang He, Ying Ming Gao, Nian Yu Zou, Zhi Sen Wang, and Fan Cao. "Mobile Lighting Control Scheme Based on DALI Protocol." Applied Mechanics and Materials 734 (February 2015): 970–74. http://dx.doi.org/10.4028/www.scientific.net/amm.734.970.

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Анотація:
Unable to control at long range is the shortage of DALI protocol. In order to solve this problem, a remote control scheme based on GPRS module is designed. In the hardware part, the GPRS module is set as a communication device of main controller, and the interface of MCU supports to the DALI protocol. In the software part, the control mechanism between the main controller and mobile terminal is realized. The software runs on the mobile terminal is developed, which is based on J2ME. The experimental result shows that the system responses are fast when user is at long range. It is of significant meaning for this design scheme on the development of advanced indoor lighting automation system.
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25

Massa, Gioia D., Jeffery C. Emmerich, Robert C. Morrow, C. Michael Bourget, and Cary A. Mitchell. "Reconfigurable LED Lighting System Development: Potential Energy Savings for CEA." HortScience 41, no. 4 (July 2006): 975D—976. http://dx.doi.org/10.21273/hortsci.41.4.975d.

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Анотація:
Electrical cost, primarily for lighting, is one of the largest factors inhibiting the development of “warehouse-based” controlled environment agriculture (CEA). In a jointly sponsored collaboration, we have developed a reconfigurable LED lighting array aimed at reducing the electrical energy needed to grow crops in controlled environments. The lighting system uses LED “engines” that can operate at variable power and that emit radiation only at wavelengths with high photosynthetic activity. These light engines are mounted on supports that can be arranged either as individual intracanopy “lightsicles” or in an overhead plane of lights. Heat is removed from the light engines using air flow through the hollow LED strip mounts, allowing the strips to be placed in close proximity to leaves. Different lighting configurations depend on the growth habit of the crops of interest, with intracanopy lighting designed for planophile crops that close their canopy, and close overhead lighting intended for erectophile and rosette crops. Tests have been performed with cowpea, a planophile dry bean crop, growing with intracanopy LED lighting compared to overhead LED lighting. When crops are grown using intracanopy lighting, more biomass is produced, and a higher index of biomass per kW-h is obtained than when overhead LEDs are used. In addition, the oldest leaves on intracanopy-grown plants are retained throughout stand development, while plants lit from overhead drop inner-canopy leaves due to mutual shading after the leaf canopy closes. Research is underway to increase the energy efficiency and automation of this lighting system. This work was supported in part by NASA: NAG5-12686.
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Kamble, Diksha. "Smart Automation System for Controlling Appliances using Mobile Device." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (June 30, 2021): 2873–75. http://dx.doi.org/10.22214/ijraset.2021.35589.

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Electronic devices and appliances have become very common in this recent year of technology especially with fast development in smartphones. In this paper, the design of Home automation system with good feature of automation via mobile device are presented. Bluetooth Based smart Automation System Using Android and Arduino is design and implemented. Bluetooth Based Automation System Using Android application and Arduino is implemented and design. This paper describe about smart automation system which would use to enable home lighting, fan, cooler, water pumping motor using a smart phone application with Bluetooth wireless technology. The system included three main components an Arduino Uno for connecting the appliances, a Bluetooth module for signal transfer, and a smartphone with the Android application to control home appliances. The idea of paper is to control home appliances to avoid the dangerous of electric shock and convenience of decrepit physically disable people, who can easily access and control the home appliances by staying at particular place and access them through smart phone without the help of other people.
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27

Miah, Shahajan, S. M. Rakib Raihan, Md Mahmudul Hasan Sagor, Md Mahmud Hasan, Debasish Talukdar, Shahnewas Sajib, Md Rakibul Alam Naim, Ummay Anisa, and Ummay Suaiba. "Rooftop Garden and Lighting Automation by the Internet of Things (IoT)." European Journal of Engineering and Technology Research 7, no. 1 (January 20, 2022): 37–43. http://dx.doi.org/10.24018/ej-eng.2022.7.1.2700.

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The Internet of Things (IoT) enables individuals to easily operate more than only digital things through the internet using a user-friendly GUI. The researchers are particularly interested in the use of IoT for household and industrial automation, as well as the monitoring of a variety of physical properties over the internet. This internet of things project showcased current system upgrades as well as creative solutions to specific issues. The Internet of Things (IoT) is a technology that allows for continuous monitoring of wirelessly linked objects by utilizing wireless sensor networks, nanostructures, and scalability.The Internet of Things is made up of many physical objects that connect with one another. It would allow users to approach numerous applications in unique ways, such as smart homes and smart agriculture, by enabling seamless connection between virtual and actual equipment, assuring dialogues at any time and from any location. The user may examine the status of any network resources.The IoT being used has its own network plan, allowing it to observe the state of embedded devices and take appropriate action by passing instructions regulating the objects via the web server utilizing Internet connections.This project aimed to create a rooftop home gardening facility capable of synchronizing the utility grid with a moisture sensor and a water pump. We were able to effectively build the central notion of the synchronization technique and connect it to a mobile device through Bluetooth. Several tweaks and trial and error tactics were utilized to make this one function. We have just shown the procedure of synchronizing and switching approaches in this study.
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Miah, Shahajan, S. M. Rakib Raihan, Md Mahmudul Hasan Sagor, Md Mahmud Hasan, Debasish Talukdar, Shahnewas Sajib, Md Rakibul Alam Naim, Ummay Anisa, and Ummay Suaiba. "Rooftop Garden and Lighting Automation by the Internet of Things (IoT)." European Journal of Engineering and Technology Research 7, no. 1 (January 20, 2022): 37–43. http://dx.doi.org/10.24018/ejeng.2022.7.1.2700.

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Анотація:
The Internet of Things (IoT) enables individuals to easily operate more than only digital things through the internet using a user-friendly GUI. The researchers are particularly interested in the use of IoT for household and industrial automation, as well as the monitoring of a variety of physical properties over the internet. This internet of things project showcased current system upgrades as well as creative solutions to specific issues. The Internet of Things (IoT) is a technology that allows for continuous monitoring of wirelessly linked objects by utilizing wireless sensor networks, nanostructures, and scalability.The Internet of Things is made up of many physical objects that connect with one another. It would allow users to approach numerous applications in unique ways, such as smart homes and smart agriculture, by enabling seamless connection between virtual and actual equipment, assuring dialogues at any time and from any location. The user may examine the status of any network resources.The IoT being used has its own network plan, allowing it to observe the state of embedded devices and take appropriate action by passing instructions regulating the objects via the web server utilizing Internet connections.This project aimed to create a rooftop home gardening facility capable of synchronizing the utility grid with a moisture sensor and a water pump. We were able to effectively build the central notion of the synchronization technique and connect it to a mobile device through Bluetooth. Several tweaks and trial and error tactics were utilized to make this one function. We have just shown the procedure of synchronizing and switching approaches in this study.
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29

Xiong, Ai Min, Fei Yu Li, and Xuan Xie. "Intelligent Shading Control System Based on the Lonworks Bus." Applied Mechanics and Materials 273 (January 2013): 665–68. http://dx.doi.org/10.4028/www.scientific.net/amm.273.665.

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In order to improve the lighting and temperature control in large public buildings, intelligent shading technology has been growing attention. This intelligent shading control system is based on the Lonworks bus. It uses various sensors to detect indoor and outdoor light intensity and temperature changes automatically, the system provides reasonable the curtain control program to change the height of the curtains and the blade angle, to regulate indoor lighting and air-conditioning, reducing building energy consumption in all aspects. Common TCP / IP protocol is used to achieve a seamless connection with the building automation system. It concerns with energy saving, low carbon, environmental protection, intelligence concept of modern building.
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30

Ceccacci, Silvia. "Designing in-car emotion-aware automation." European Transport/Trasporti Europei, no. 84 (December 2021): 1–15. http://dx.doi.org/10.48295/et.2021.84.5.

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Driver behaviour recognition is of paramount importance for in-car automation assistance. It is widely recognized that not only attentional states, but also emotional ones have an impact on the safety of the driving behaviour. This research work proposes an emotion-aware in-car architecture where it is possible to adapt driver’s emotions to the vehicle dynamics, investigating the correlations between negative emotional states and driving performances, and suggesting a system to regulate the driver’s engagement through a unique user experience (e.g. using music, LED lighting) in the car cabin. The relationship between altered emotional states induced through auditory stimuli and vehicle dynamics is investigated in a driving simulator. The results confirm the need for both types of information to improve the robustness of the driver state recognition function and open up the possibility that auditory stimuli can modify driving performance somehow.
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31

Malwale, Sharad, Umesh Padul, Shivam Patil, Sagar Kudale, and Prof Suvarna Bahir. "Digitization of Real Time Systems as home." International Journal for Research in Applied Science and Engineering Technology 10, no. 5 (May 31, 2022): 7–11. http://dx.doi.org/10.22214/ijraset.2022.41907.

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Abstract: Digitization of Real Time Systems as Home is an Automation System in which we control the home’s electrical components digitally. In this project we developed an application as a digital platform for controlling system. And the availability of the system will be ensured by the use of Internet. Our System helps users to access their home appliances easily and safely without any change in existing system in their home. So that without changing the actual components of the home, it’s implemented by adding digital interface between user and home. General Home Automation consists of replacement of each component with IoT devices. The availability of the control is limited to small scale area or local control area. Replacement of each component results in increment of investment which is very costly. The connection to the system requires same network to operate. A home automation system controls lighting, temperature, multimedia systems, and appliances. Since these devices and sensors are connected to common infrastructure, they form the Internet of Things. A home automation system links multiple controllable devices to a centralized server. Keywords: Home automation, IoT, Raspberry Pi, Firebase, Electrical Appliances, Android app.
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32

Mikeš, Jan, Ondrej Kreibich, and Jan Neužil. "A LIGHTNING CONDUCTOR MONITORING SYSTEM BASED ON A WIRELESS SENSOR NETWORK." Acta Polytechnica 53, no. 6 (December 31, 2013): 878–82. http://dx.doi.org/10.14311/ap.2013.53.0878.

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Automated heating, lighting and irrigation systems are nowadays standard features of industrial and commercial buildings, and are also increasingly found in ordinary housing. In addition to the benefits of user comfort, automated technology for buildings saves energy and, above all, it provides enhanced protection against leakage of water and hazardous gases, and against fire hazards. Lightning strikes are a natural phenomenon that poses a significant threat to the safety of buildings. The statistics of the Fire and Rescue Service of the Czech Republic show that buildings are in many cases inadequately protected against lightning strikes, or that systems have been damaged by previous strikes. A subsequent strike can occur within the period between regular inspections, which are normally made at intervals of 2–4 years. Over the whole of Europe, thousands of buildings are subjected to the effects of direct lightning strikes each year. This paper presents ways to carry out wireless monitoring of lightning strikes on buildings and to deal with their impact on lightning conductors. By intervening promptly (disconnecting the power supply, disconnecting the gas supply, sending an engineer to inspect the structure, submitting a report to ARC, etc.) we can prevent many downstream effects of direct lightning strikes on buildings (fires, electric shocks, etc.) This paper introduces a way to enhance contemporary home automation systems for monitoring lightning strikes based on wireless sensor networks technology.
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33

Chen, Xiao Rong, and Wen Yang. "Large-Scale Intelligent Building Energy-Saving Measures Based on BA System." Applied Mechanics and Materials 178-181 (May 2012): 144–46. http://dx.doi.org/10.4028/www.scientific.net/amm.178-181.144.

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With the rapid development of the intelligent building in China, Intelligent building energy consumption has become a social and economic development in a strategic issue that can not be ignored in our society. In this paper, we proposed the energy saving measures in central air conditioning and ventilation system and lighting system of large-scale intelligent building building automation (BA) system from four aspects.
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34

Calvinus, Yohanes, and Endah Setyaningsih. "PEMODELAN SISTEM LAMPU OTOMATIS HEMAT ENERGI UNTUK RUANG KELAS TANPA PEMROGRAMAN." Jurnal Muara Sains, Teknologi, Kedokteran dan Ilmu Kesehatan 5, no. 2 (October 30, 2021): 251. http://dx.doi.org/10.24912/jmstkik.v5i2.3861.

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Lamps are electronic devices that produce light turned out to be one of the components in spending considerable electrical costs. The bigger the room, the space will require a lot of lighting to achieve the value of a lighting level according to the Indonesian National Standard (SNI) in the room. The more lamps that are used, the more wasteful the energy is used. Wasteful of energy, so the expenditure for operational costs will be even greater. The role of technology can be used alongside a culture of energy saving. One of them is a light automation system. Automation systems can be realized without programming. based on a survey the place that requires this automation system is a school classroom. Automation systems can be directly coupled with light systems and manual light switches in classrooms, replacing conventional light-on and off-turn systems in classrooms. Its easy installation provides an example for installing an automation system for schools that have a large number of classrooms. The automation sensor used is a type of sensor that has a way of detecting the movement of people in the room. The sensor that can be used the easiest is the Passive Infra Red (PIR) sensor. This sensor itself is the sensor that is most easily available and quite cheap. In realizing the use of this sensor, more than 1 PIR sensor point is required. Sensors that are used more than 1 point will make grouping part of the lighting system in the classroom. If the classroom is not fully used up to the back of the classroom, then it is enough only to turn it on from the front lights to the middle of the classroom. This supports energy saving efforts. Through this automation, it is hoped that there will be a change in the culture of energy saving side by side with technological developments in terms of its use for energy saving. Keywords: LED; motion sensor; classroom; without programming; automation system AbstrakLampu merupakan alat elektronika yang menghasilkan cahaya ternyata salah satu komponen dalam pengeluaran biaya listrik yang cukup besar. Semakin besar ruangan, maka ruang tersebut akan membutuhkan banyak lampu penerangan untuk mencapai nilai suatu tingkat pencahayaan yang sesuai Standard Nasional Indonesia (SNI) pada ruangan tersebut. Semakin banyak lampu yang digunakan tentu semakin boros energi yang digunakan. Boros energi maka pengeluaran untuk biaya operasional akan semakin besar. Peran teknologi dapat digunakan berdampingan dengan budaya hemat energi. Salah satu nya dengan sistem otomatisasi lampu. Sistem otomatisasi dapat direalisasikan tanpa pemrograman. berdasarkan survei tempat yang membutuhkan sistem otomatisasi ini adalah ruangan kelas sekolah. Sistem otomatisasi dapat langsung dipasangkan dengan sistem lampu dan saklar lampu manual di ruang kelas menggantikan sistem mati nyala lampu secara konvensional di ruang kelas. Pemasangannya yang mudah menjadikan contoh bagi pemasangan sistem otomatisasi bagi sekolah yang memiliki ruang kelas yang cukup banyak. Sensor otomatisasi yang digunakan merupakan jenis sensor yang memiliki cara kerja untuk mendeteksi pergerakan orang di dalam ruangan. Sensor yang dapat digunakan paling mudah yaitu sensor Passive Infra Red (PIR). Sensor PIR merupakan sensor yang paling mudah didapatkan dan cukup murah. Dalam realisasi penggunaan sensor ini diperlukan lebih dari 1 titik sensor PIR. Sensor yang digunakan lebih dari 1 titik akan membuat pengelompokkan bagian dari sistem pencahayaan di ruang kelas tersebut. Jika ruang kelas tidak digunakan sepenuhnya hingga bagian belakang kelas, maka cukup hanya dinyalakan dari lampu bagian depan hingga ruang tengah kelas. Hal ini mendukung upaya hemat energi. Melalui otomatisasi ini diharapkan ada perubahan budaya hemat energi yang berdampingan dengan perkembangan teknologi dalam hal pemanfaatannya untuk hemat energi.
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35

Bellido-Outeirino, Francisco, Jose Flores-Arias, Francisco Domingo-Perez, Aurora Gil-de-Castro, and Antonio Moreno-Munoz. "Building lighting automation through the integration of DALI with wireless sensor networks." IEEE Transactions on Consumer Electronics 58, no. 1 (February 2012): 47–52. http://dx.doi.org/10.1109/tce.2012.6170054.

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36

Atmadja, Wiedjaja, Ivan Alexander, Satrio Dewanto, Adela Cahya Nugraha, and Stefan Gokparulian. "Indoor Hydroponic System Using IoT-Based LED." IOP Conference Series: Earth and Environmental Science 998, no. 1 (February 1, 2022): 012048. http://dx.doi.org/10.1088/1755-1315/998/1/012048.

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Abstract The goal of this research is to design a hydroponic automation system for germination until generative growth based on ESP32 microcontroller, and BLYNK called LOTUS. ESP32 acts as main controller for all sensors and actuators. LOTUS able to control temperature, humidity, irrigation, and automatic lighting. LOTUS uses automatic irrigation with ebb-and-flow method. LOTUS included with LED Drivers that able to regulate the amount of light intensity on LED and provide more power efficient usage level. System successfully manages to reduce temperature, humidity, automatic lighting, and irrigation on time. Results from this research show that reading accuracy of the sensors temperature and humidity are, 99,11% for temperature, 97,275% for humidity, power usage for whole system is 49,6 watt, and adjustable irrigation system.
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37

Choo, Se-Woong, and Sang-Hwa Jeong. "Structural and Dynamic Characteristic Analysis for Automatic Magazine Feeder in Automation Assembly System for LED Convergency Lighting." Korean Society of Manufacturing Process Engineers 17, no. 1 (February 28, 2018): 23–33. http://dx.doi.org/10.14775/ksmpe.2018.17.1.023.

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38

Chiogna, M., R. Albatici, and A. Frattari. "Electric lighting at the workplace in offices: Efficiency improvement margins of automation systems." Lighting Research & Technology 45, no. 5 (October 9, 2012): 550–67. http://dx.doi.org/10.1177/1477153512461372.

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39

Hovorov, P. P., V. P. Hovorov, and A. K. Kindinova. "Automation of Control of Modes of Power Supply and Lighting Systems of Cities." Visnyk of Vinnytsia Politechnical Institute 158, no. 5 (2021): 58–63. http://dx.doi.org/10.31649/1997-9266-2021-158-5-58-63.

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40

Diantika Putri, Sevy, and Abdullah Abdullah. "APPLICATION OF AUTOMATION HYDROPONIC PLANTING SYSTEM BASED ON ACIDITY, NUTRIENT CONCENTRATION AND LIGHTING." Fisitek : Jurnal Ilmu Fisika dan Teknologi 5, no. 1 (September 22, 2021): 13. http://dx.doi.org/10.30821/fisitekfisitek.v5i1.9766.

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41

Sathesh and Yasir Babiker Hamdan. "Smart Home Environment Future Challenges and Issues - A Survey." March 2021 3, no. 1 (February 17, 2021): 1–14. http://dx.doi.org/10.36548/jei.2021.1.001.

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The smart home automation is that the exploitation internet enabled devices remotely and mechanically management appliances such as lighting, heating system and security measures in and around your home. This papers talks about relative emission effects in Home Energy Management. Also the result outcome is that consumption of the electricity will be reduced towards green environment. Moreover, the research paper is considering the analysis of calculate the negative effects in environment due to full home automation system. While calculating these negative effects, the Life Cycle Assessment (LCA) should be in sum total. This study uses to analysis the electricity consumption for environment impact of Home Energy Management system (HEMs). The research article discusses home automation system consumes the energy for different devices connected for smart home. The maximum energy consumption in smart home network is smart plugs due to an uninterrupted supply. Therefore this research article comprises about home automation energy management that shows the balance energy consumption between the devices in a regular interval. Also this research article provides a future challenge tasks in security issues in smart home environment. Also the perception for smart home environment focuses the Interoperability, Reliability, Integration of smart homes and term privacy in context, term security and privacy vulnerabilities to smart home.
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42

Ramsauer, Daniel, Max Dorfmann, Hilda Tellioğlu, and Wolfgang Kastner. "Human Perception and Building Automation Systems." Energies 15, no. 5 (February 25, 2022): 1745. http://dx.doi.org/10.3390/en15051745.

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Building automation is concerned with closed- and open-loop control of building services such as heating, cooling, ventilation and air conditioning, lighting and shading. The ultimate goal is to reduce energy consumption while providing comfort for the occupants. However, ensuring human comfort is a complex affair. In case of dissatisfaction, users need to inform the building operators about apparently badly adjusted setpoints. Then, service units of the facility management have to manually analyze how to improve the situation. Due to the complex characteristics of human perception and derived feedback, this can become a troublesome and time-consuming task. This paper describes the main results of our investigations to improve occupant comfort in office buildings using environmental information monitored by a Wireless Sensor Network (WSN) and human perception collected from a feedback tool. A joint information base aligned with static data from building information modeling integrates the information gathered. Reasoning on these data sources allows adjustments of the Building Automation System (BAS) to automatically enhance the tenant’s comfort or suggest necessary adjustments for facility managers. Communication between the different system components is handled via Message Queuing Telemetry Transport (MQTT). A real-world field study shows the potential of the developed approach, proves its feasibility, and demonstrates the functionality of the feedback tool.
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43

Lewczuk, Konrad, Michał Kłodawski, and Paweł Gepner. "Energy Consumption in a Distributional Warehouse: A Practical Case Study for Different Warehouse Technologies." Energies 14, no. 9 (May 9, 2021): 2709. http://dx.doi.org/10.3390/en14092709.

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Energy consumption by distribution warehouses has become an essential component of green warehousing and research on reducing the carbon footprint of supply chains. Energy consumption in warehousing is a complex and multilayered problem, which is generally considered in the literature in relation to its detailed components, not as part of comparative studies. In this article, the authors consider six cross-sectional variants of warehouse technology, from manual to fully automatic, and analyze the energy consumption of a warehouse in various configurations. A methodology for estimating storage space and determining energy consumption is proposed. The energy balance of the warehouse variants includes energy for material handling equipment operation, energy consumption for building maintenance (heating, cooling, lighting, etc.), and energy generated by the photovoltaic system on the roof. Then, the operational costs of the variants are estimated and, on their basis, an automation index is determined. The index allows for a comparative analysis of energy consumption and the mechanization and automation of a warehouse. It is shown that a significant part of the energy is spent on maintaining a warehouse building, especially in the case of facilities with a low degree of automation.
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44

LAKTIONOV, IVAN, OLEKSANDR VOVNA, and VLADYSLAV BORYCHEVSKYI. "RESULTS OF DEVELOPMENT AND TESTING OF COMPUTER-INTEGRATED TECHNOLOGY OF GREENHOUSES ARTIFICIAL LIGHTING CONTROL." Herald of Khmelnytskyi National University 303, no. 6 (December 2021): 201–6. http://dx.doi.org/10.31891/2307-5732-2021-303-6-201-206.

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The development and implementation of the automation and digitalization technologies of growing crops production processes in industrial greenhouses is being actualized for increasing of crop yields. This fact, in turn, positively influences on the re-equipment of the software and hardware base of protected soil domestic agricultural production, which stimulates an increase of investment attractiveness and long-term sustainability of Ukrainian agricultural enterprises. The main purpose of the article is developing of the scientific approaches on creation and testing of computer-integrated technology for artificial lighting control in the protected ground agricultural production conditions. The research object is automatic control process of artificial lighting. The research subject is methods and hardware-software components of the indoor greenhouse microclimate. Research methods are analysis of existing development methods, mathematical and computer modeling, hardware and software experimental testing. In course of the research, the component base has been substantiated and the block diagram of the hardware and software for the control of lighting technology has been developed. As a result, a computer model has been synthesized and tested, which is implemented on microprocessor technology and algorithms of the fuzzy logic theory for control the intensity and spectral composition of LED lamps in greenhouses. The prototype of control system for artificial additional lighting of greenhouse crops has been implemented and experimentally investigated. The implemented hardware and software means of computer-integrated technology allow to automatically control the parameters of LED lamps, taking into account the types and periods of growing crops.
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45

Klimenko, V. P. "Energy-Saving Automation and LED Lighting Systems in Industry, Transport, Building and Municipal Sector." Nauka ta innovacii 9, no. 5 (September 30, 2013): 19–26. http://dx.doi.org/10.15407/scin9.05.019.

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46

Chandler, J. H., E. Ferreira, R. Wackrow, and K. Shiono. "Water Surface and Velocity Measurement-River and Flume." ISPRS - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XL-5 (June 6, 2014): 151–56. http://dx.doi.org/10.5194/isprsarchives-xl-5-151-2014.

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Understanding the flow of water in natural watercourses has become increasingly important as climate change increases the incidence of extreme rainfall events which cause flooding. Vegetation in rivers and streams reduce water conveyance and natural vegetation plays a critical role in flood events which needs to be understood more fully. A funded project at Loughborough University is therefore examining the influence of vegetation upon water flow, requiring measurement of both the 3-D water surface and flow velocities. Experimental work therefore requires the measurement of water surface morphology and velocity (i.e. speed and direction) in a controlled laboratory environment using a flume but also needs to be adaptable to work in a real river.<br><br> Measuring the 3D topographic characteristics and velocity field of a flowing water surface is difficult and the purpose of this paper is to describe recent experimental work to achieve this. After reviewing past work in this area, the use of close range digital photogrammetry for capturing both the 3D water surface and surface velocity is described. The selected approach uses either two or three synchronised digital SLR cameras in combination with PhotoModeler for data processing, a commercial close range photogrammetric package. One critical aspect is the selection and distribution of appropriate floating marker points, which are critical if automated and appropriate measurement methods are to be used. Two distinct targeting approaches are available: either large and distinct specific floating markers or some fine material capable of providing appropriate texture. Initial work described in this paper uses specific marker points, which also provide the potential measuring surface velocity. The paper demonstrates that a high degree of measurement and marking automation is possible in a flume environment, where lighting influences can be highly controlled. When applied to a real river it is apparent that only lower degrees of automation are practicable. The study has demonstrated that although some automation is possible for point measurement, point matching needs to be manually guided in a natural environment where lighting cannot be controlled.
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47

Bansal, Maggi, Inderveer Chana, and Siobhan Clarke. "Enablement of IoT Based Context-Aware Smart Home with Fog Computing." Journal of Cases on Information Technology 19, no. 4 (October 2017): 1–12. http://dx.doi.org/10.4018/jcit.2017100101.

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The recent advent of Internet of Things (IoT), has given rise to a plethora of smart verticals- smart homes being one of them. Smart Home is a classic example of IoT, wherein smart appliances connected via home gateways constitute a local home network to assist people in activities of daily life. Smart Home involves IoT-based automation (such as smart lighting, heating, surveillance etc.), remote monitoring and control of smart appliances. Besides automation, human-in-the-loop is a unique characteristic of Smart home to offer personalized services. Understanding the human behavior requires context processing. Thus, enablement of Smart home involves two prominent technologies IoT and context-aware computing. Further, local devices lying in the smart home have the implicit location and situational information, hence fog computing can offer real-time smart home services. In this paper, the authors propose ICON (IoT-based CONtext-aware) framework for context-aware IoT applications such as smart home, further ICON leverages fog-based IoT middleware to perform context-aware processing.
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48

Marhoon, Hamzah M., Mohammed I. Mahdi, Ehab Dh Hussein, and Ahmed R. Ibrahim. "Designing and Implementing Applications of Smart Home Appliances." Modern Applied Science 12, no. 12 (November 9, 2018): 8. http://dx.doi.org/10.5539/mas.v12n12p8.

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Анотація:
Smart house or automation house and security system has been developed in the recent years because its importance to provides the energy saving, comfort for the elderly and security to the house owners. This paper proposed to design a low cost and flexible home prototype system for controlling and monitoring. The proposed design based on two parts; first part, automation system was building by using Arduino UNO microcontroller which responsible on reading and processing the different types of sensor values that&#39;s used in the design such as gas leak, flame and temperature as well as the remote control used in automatic garage door. The second part is security system and outdoor lighting the NodeMCU will be used to monitor the state of the house security from anywhere through a special GUI was programming by HTML language that allows the user to monitor the house security as well as extinguishing and operating the outdoor light via specific IP address granted by the NodeMCU.
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49

Mohd Noor, Nurolhuda. "Room Automation System in Politeknik Sultan Abdul Halim Mu’adzam Shah (POLIMAS)." Journal of Engineering and Science Research 4, no. 1 (March 10, 2020): 14–19. http://dx.doi.org/10.26666/rmp.jesr.2020.1.3.

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Анотація:
The objective of this paper is to design an efficient room automation system in POLIMAS to control and automatize lighting, fan and air-condition.. This system will overcome human mistakes where the students or staffs forget to switch off the appliances in classroom or laboratories, and effectively reduce the cost of operation and power consumption of the buildings. Room Automation involves the automation and controlling the electrical appliances. The system will monitors electrical parameters of room appliance such as temperature, humidity and ambient light. The factors like temperature and light can have significant effects on the productivity of office workers as well as students. Thus, classrooms, laboratories and staff offices can be equipped with super sensors featuring temperature and light monitors. Besides, it helps in reducing power consumption by monitoring the environment condition and controlling the appliances as well as conservation of energy in the campus. Furthermore, it provides simple and cost effective to the institution. The system uses Arduino ESP8266 NodeMCU platform as the IoT end-device connecting to various sensors and actuators to the platform via Wi-Fi channel. By using Wi-Fi connectivity, the hardware integrates with software application to control, monitoring and analysis. A sequence testing is conducted to determine the connectivity and integration of hardware and software. The performance of each sensor was performed to measure the accuracy. As a result, PIR sensors are able to detect general movement in effective range of about 10 meters. Moreover, the DHT temperature sensor in range of 5 meters away from air-condition is able to read the present room temperature and send command to the air-condition adjusting the air- condition’s set temperature similar to the air-condition’s remote. Thus, by implementing this system, not only the electrical appliances in a room more manageable and under control but also able to reduce the operational cost and improve environmental protection.
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50

Hsiao, Rong Shue, Ding Bing Lin, Hsin Piao Lin, Shu Chun Cheng, and Chen Hua Chung. "A Robust Occupancy-Based Building Lighting Framework Using Wireless Sensor Networks." Applied Mechanics and Materials 284-287 (January 2013): 2015–20. http://dx.doi.org/10.4028/www.scientific.net/amm.284-287.2015.

Повний текст джерела
Анотація:
Wireless Sensor Networks are based on the ZigBee standard. ZigBee uses the IEEE 802.15.4 physical and MAC (medium access control) layers to provide standards-based reliable wireless data transfer. Also, ZigBee provides low-power wireless connectivity features. The features allow ZigBee-based products to be installed easily and cost-effectively. Thus, this technology has been attracting extensive research and development efforts to replace the traditional wired solutions for Building Automation Systems. However, wireless communications in indoor building environments are prone to be influenced by multiple concurrent factors, such as multi-path fading, channel contention, other radio interference, human activity and limited battery energy. Also, sensor detection is not fully reliable. Thus, system robustness is very concerning in these applications. In this paper, we propose a reliable wireless sensor network and an accurate occupancy detection mechanism. We implemented this system in an indoor building for the lighting control of public areas, including corridors, a coffee room and a washroom. The system framework was shown to be effective in terms of network communication reliability and sensor detection accuracy.
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