Smart Outdoor Light Desktop Central Management System

Escrivá, Dolores María Llidó; Torres-Sospedra, Joaquín; Berlanga, Rafael

doi:10.1109/mits.2018.2806643

Cited by 9 publications

(4 citation statements)

References 11 publications

(14 reference statements)

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“…Kovács et al [107], developed a GUI that provides real-time status updates, customization of dimming levels, and system administration features, ensuring regulated access based on user roles. Dolores et al [123], proposed a smart central management system with a map-based GUI, allowing users to manage luminaires, configure light points, and access diagnostic tools for system failures. Abarro et al [124], offered a GUI that enables users to switch between various operational modes of the lighting system, ensuring customizable control based on specific needs.…”

Section: User-driven Controlmentioning

confidence: 99%

Smart Street Light Control: A Review on Methods, Innovations, and Extended Applications

Agramelal,

Sadik,

Moubarak

et al. 2023

Energies

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As urbanization increases, streetlights have become significant consumers of electrical power, making it imperative to develop effective control methods for sustainability. This paper offers a comprehensive review on control methods of smart streetlight systems, setting itself apart by introducing a novel light scheme framework that provides a structured classification of various light control patterns, thus filling an existing gap in the literature. Unlike previous studies, this work dives into the technical specifics of individual research papers and methodologies, ranging from basic to advanced control methods like computer vision and deep learning, while also assessing the energy consumption associated with each approach. Additionally, the paper expands the discussion to explore alternative functionalities for streetlights, such as serving as communication networks, environmental monitors, and electric vehicle charging stations. This multidisciplinary research aims to be a pivotal resource for both academics and industry professionals, laying the groundwork for future innovation and sustainable solutions in urban lighting.

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Section: User-driven Controlmentioning

confidence: 99%

Smart Street Light Control: A Review on Methods, Innovations, and Extended Applications

Agramelal,

Sadik,

Moubarak

et al. 2023

Energies

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“…Its simulation results demonstrated that the average periodic maintenance time and the abnormal state of the server was approximately 20 minutes. Escrivá et al [20] put forward a prototype architecture based on IoT devices and cloud computing. The modules included: a dedicated wireless lighting controller, one IoT sensor gateway set installed on LED lights, a smart collector, and a central management system.…”

Section: Related Work a Smart Street Lightmentioning

confidence: 99%

An Implementation of High Efficient Smart Street Light Management System for Smart City

et al. 2020

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Street light are among the most common infrastructure in cities. Street lights and sensors can be combined to generate an interface of data collection. The analysis of massive data serves as an integral element of a smart city. This paper proposes a highly efficient system for the configuration, deployment, and management of smart street lights. The features of fast deployment and high scalability of the container-based system management result in virtual deployment. Additionally, for database design, NoSQL and in-memory databases are integrated to realize flexible data management. In terms of data transmission, this paper designs an asymmetric key and an SSH encrypted tunnel. Moreover, when all the services are connected, it conducts legitimacy validation via a token. Therefore, this system can help meet the demands for data throughput, lowlatency, configuration, and realization of a smart city. It boasts high efficiency and security. Besides, it offers a flexible data storage and management service to facilitate the massive data processing of a smart city. With respect to experiments, this paper designs a street lighting simulation system with edge computing devices (consisting of a micro-controller, a sensor, and an IP camera) and a street lighting function. The system collects real-time sensed environmental data, enables live streaming of images, and offers an API for historical data query. This paper utilizes container-based virtualization to deploy all edge computing devices on the server and validates the feasibility of simultaneous operation of multiple container-based services on edge computing devices. This system has high commercial value.

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“…In terms of the technologies used in GIS for smart street lighting, for example, the Outdoor light desktop central management architecture using Internet of Things (IoT) and GIS technologies is described in [8]. The remote controlled smart LED lighting system is proposed, for example, in [9].…”

Section: Introductionmentioning

confidence: 99%

“…In addition, LonMark (www.lonmark.org) presents a system architecture for dynamic street-light control, which relies on key components such as light point controllers, gateways (OLC), segment controllers, meters, sensors, digital and analogue inputs and other devices (www.lonmark.org). Although most of the above described solutions reduce the energy consumption, they are still too expensive [8] and thus difficult to apply to smaller towns lighting. That is why we propose the low-cost web-based GIS for smart lighting for smaller towns and villages.…”

Section: Introductionmentioning

confidence: 99%

A low-cost web-based smart street lighting geographical information system for smaller towns and villages

Pružinec

Mego²,

Ďuračiová

2020

Open Computer Science

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The use of LED lights in smart street lighting to save energy is efficient and very common in many developed cities. However, such a system results in higher initial costs, which may discourage smaller towns and villages from its purchasing. This paper therefore deals with the design and development of a smart street lighting control system for smaller cities and villages. Such a system is required to be economical from the perspective of development and production. Considering other requirements such as platform independence, high availability and broad support, we proposed to build a system as a web application using a custom light control service component. The result is a web application that consists of a user interface served by a web server and an application server used to communicate with light control service. In addition, the system is designed as a geographical information system to be easy to use for managing street lights in groups or individually, while displaying them on the map. The system allows automatic sensor-based light intensity modulation by default with the possibility of manual adjustment or override of the illumination. It also includes a device error notification system with a tool to navigate faulty devices. The presented system is a low-cost solution for intelligent street lighting control designed for smaller cities or villages. They can apply the designed architecture of the system and the specific technologies suitable because of their low-cost implementation.

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Smart Outdoor Light Desktop Central Management System

Cited by 9 publications

References 11 publications

Smart Street Light Control: A Review on Methods, Innovations, and Extended Applications

Smart Street Light Control: A Review on Methods, Innovations, and Extended Applications

An Implementation of High Efficient Smart Street Light Management System for Smart City

A low-cost web-based smart street lighting geographical information system for smaller towns and villages

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