Model for Smart, Self-learning and Adaptive Resilience Building

Irene Lill,Dilanthi Amaratunga,Ieva Ubarte,Arturas Kaklauskas

doi:10.1108/s2516-285320190000002017

Irene Lill, Dilanthi Amaratunga + Show 2 more

Open Access

https://doi.org/10.1108/s2516-285320190000002017

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Abstract

Purpose This article’s purpose is to develop The Model for Smart, Self-learning and Adaptive Resilience Building (SARB). Design/Methodology/Approach Products and patents of methods and systems analysis was carried out in the fields of BIM application, Smart, Self-learning and Adaptive Resilience Building. Based on other researchers’ findings, The SARB Model was proposed. Findings Analysis of the literature showed that traditional decisions on the informational modelling do not satisfy all the needs of smart building technologies owing to their static nature. The SARB Model was developed to take care of its efficiency from the brief stage to the end of its service life. Research Limitations/Implications The SARB Model was developed to take care of its efficiency from the brief stage to the end of its service life. The SARB Model does have some limitations: (1) the processes followed require the collection of much unstructured and semi-structured data from many sources, along with their analyses to support stakeholders in decision-making; (2) stakeholders need to be aware of the broader context of decision-making and (3) the proposal is process-oriented, which can be a disadvantage during the model’s implementation. Practical Implications Two directions can be identified for the practical implications of the SARB Model. The initial expectation is the widespread installation of SARB Model within real estate and construction organisations. Furthermore, development of the SARB Model will be used to implement the ERASMUS+ project, “Advancing Skill Creation to ENhance Transformation—ASCENT” Project No. 561712-EPP-1-2015-UK-EPPKA2-CBHE-JP. Originality/Value The practical implications of this paper are valuable.

Highlights

The rapid development of information and communication technologies in the world has opened up broad possibilities for their use in the construction sector
One of the fundamental decisions related to the application of ICT in the construction sector and its rapid implementation in the world regards application of methods relative to digital construction principles and Building Information Modelling (BIM)
An apparatus including a building information model (BIM) of a secured area having a plurality of different portions, the BIM embodied in a memory, a processor that identifies portions of the secured area having different levels of security and a processor that alerts a user of a security weakness based upon an interaction between the security levels and physical characteristics of the secured area defined by the BIM Systems and methods for cloud-based surveillance for a target surveillance area are disclosed

Summary

Emerald Reach Proceedings Series

Practical Implications – Two directions can be identified for the practical implications of the SARB Model. The initial expectation is the widespread installation of SARB Model within real estate and construction organisations. Development of the SARB Model will be used to implement the ERASMUS+ project, “Advancing Skill Creation to ENhance Transformation—ASCENT” Project No 561712EPP-1-2015-UK-EPPKA2-CBHE-JP. Originality/Value – The practical implications of this paper are valuable. All papers within this proceedings volume have been peer reviewed by the scientific committee of the 10th Nordic Conference on Construction Economics and Organization (CEO 2019)

Introduction

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Conclusions