A Web Serverless Architecture for Buildings Modeling

Marino, Enrico; Salvati, Danilo; Spini, Federico; Vadala, Christian

A Web Serverless Architecture for Buildings Modeling

Enrico Marino, Danilo Salvati, Federico Spini and Christian Vadala
Additional contact information
Enrico Marino: Department of Engineering, Roma Tre University, Rome, Italy
Danilo Salvati: Department of Mathematics and Physics, Roma Tre University, Rome, Italy
Federico Spini: Department of Engineering, Roma Tre University, Rome, Italy
Christian Vadala: Department of Mathematics and Physics, Roma Tre University, Rome, Italy

International Journal of Technology and Engineering Studies, 2017, vol. 3, issue 3, 93-100

Abstract: . The motivations of relentless migration of software products toward services accessible via Web must be sought in the undeniable benefits in terms of accessibility, usability, maintainability and spreadability granted by the Web medium itself. It is the case of office suites, beforehand thought as resilient desktop applications, nowadays made available as Web applications, often equipped with real-time collaboration features and with no need for the user to explicitly install or upgrade them anymore. Although it could not be easy to envisage a Web-based graphic application due to its inherent complexity, after the recent and significant enrichment of the HTML5 APIs, a few first attempts appeared online in the form of vectorial drawing collaborative editors or VR oriented interior design environments. This paper introduces an effective Web architecture for buildings modeling that leverages the serverless pattern to dominate the developing complexity. The resulting front-end application, powered by Web Components and based on unidirectional data flow pattern, is extremely customizable and extendible by means of the definition of plugins to augment the UI or the application functionalities. As regards the modeling approach, it offers (a) to model the building drawing the 2D plans and to navigate the building in a 3D first person point of view; (b) to collaborate in real-time, allowing to work simultaneously on different layers of the project; (c) to define and use new building elements, that are furniture or architectural components (such as stairs, roofs, etc.), augmenting a ready-to-use catalog. This work suggests a path for the next-coming BIM online services, matching the professional collaboration requirements typical of the BIM approach with the platform which supports them the most: the Web.

Keywords: Modeling; Serverless Architecture; User Collaboration (search for similar items in EconPapers)
Date: 2017
References: View complete reference list from CitEc
Citations: View citations in EconPapers (3)

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Persistent link: https://EconPapers.repec.org/RePEc:apa:ijtess:2017:p:93-100

DOI: 10.20469/ijtes.3.40001-3

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