Multi-Sensing Wireless Sensor Network for Smart Building System

Samijayani, Octarina Nur; Addien, Linear; Fauzi, Ibnu; Zasyi, Marsah

doi:10.1166/asl.2017.9034

Cited by 4 publications

(3 citation statements)

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“…Furthermore, most IoT applications developed for the broader cultural heritage sector focus on enhancing the visitor experience. In contrast, few solutions have developed an IoT architecture for cultural heritage monitoring, as implementing this type of system suffers from severe limitations (Samijayani et al, 2017). Energy consumption must be given due consideration.…”

Section: Current Challenges In Built Heritage Monitoringmentioning

confidence: 99%

Bridging past and present: cutting-edge technologies for predictive conservation of built cultural heritage

Montuori

2024

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. The technical provisions for protecting built cultural heritage originate from the interdisciplinary disciplines of architecture and engineering, which mutually operate despite encountering specific challenges. Therefore, the lack of adaptable applications capable of integrating the management of complex data originating from various sources has prompted the development of an Internet-of- Things-based application that enables "on-the-fly" data acquisition and information processing from distant locations, records the timeline on a remote desktop, and sends email and brief early warning text messages of alarm when a programmed threshold is exceeded. Furthermore, a dedicated platform is designed to administer and grant users access to a database containing data gathered through the analysis of diagnostic non-destructive methods (i.e., archival documentation, image processing for infrared thermography, acoustic and ultrasonic tomography, and so forth). The system architecture is distinguished by a distributed intelligence consisting of multiple nodes, which enables the remote processing of locally acquired information. The arrangement was strategically planned to optimize the utilization of the wireless digital bus connecting sensors and data storage units. This enables the examination of the case study to be conducted remotely, with all collected data accessible in a suitable semantic web environment. The data can then be analysed and interpreted following the investigation's context. Hence, the present paper aims to provide a detailed vision of the tests conducted on the case study, showcasing the prototype demonstrator's stress test, the analysis layout, and the project's architecture.

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Section: Current Challenges In Built Heritage Monitoringmentioning

confidence: 99%

Bridging past and present: cutting-edge technologies for predictive conservation of built cultural heritage

Montuori

2024

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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show abstract

“…Failure of mechanical and electrical equipment will seriously affect the whole production process and cause significant economic losses [3]. To reduce the impact caused by mechanical and electrical equipment failure, researchers ensured focus on the monitoring of mechanical and electrical equipment and invented a series of mechanical and electrical equipment monitoring systems [4][5][6].…”

Section: Introductionmentioning

confidence: 99%

“…Although it can realize real-time data transmission, it has high laying cost, complicated wiring, and certain defects in equipment maintenance [7][8]. With the development of network communication technology, aiming at the solution-oriented problems of remote monitoring objects, multiple monitoring types, and scattered monitoring points, the use of wireless sensor network for remote monitoring of electromechanical equipment has become an inevitable trend [9][10]. The monitoring system of wireless sensor network can obtain the vibration signal of the equipment and transmit the wireless data through the network of sensor nodes, which can cover the defects and deficiencies of the wired monitoring network [11].…”

Section: Introductionmentioning

confidence: 99%

The Role of Wireless Network in Remote Monitoring of Electromechanical Equipment

2020

IJOMAM

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A Hierarchical Energy Conservation Framework (HECF) of Wireless Sensor Networks by Temporal Association Rule Mining for Smart Buildings

Ujager

Mahmood

Usman

et al. 2022

Egyptian Informatics Journal

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Multi-Sensing Wireless Sensor Network for Smart Building System

Cited by 4 publications

References 0 publications

Bridging past and present: cutting-edge technologies for predictive conservation of built cultural heritage

Bridging past and present: cutting-edge technologies for predictive conservation of built cultural heritage

The Role of Wireless Network in Remote Monitoring of Electromechanical Equipment

A Hierarchical Energy Conservation Framework (HECF) of Wireless Sensor Networks by Temporal Association Rule Mining for Smart Buildings

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