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Jahnkassim P-S,Abakr Y,Ibrahim I-F

Integrating simulation and visualisation for energy efficiency in a large public mall in the tropics

Abstract: This paper reports on a case study that involved an integrated design process of a large commercial development. In particular, it utilized simulation and visualization to inform strategic design decisions that could reduce heat gain while admitting usable daylight. Additionally, the design intended to avoid extensive air conditioning energy of a large shopping mall in the tropical context of Malaysia. Simulation inputs were presented to a design team throughout the design process and on completion of the building, post occupancy studies were carried out to verify the results. At present, air conditioning is not used in large common public areas and hence, this case study represents a successful application of simulation and visualization tools of such context. The airflow and monitored temperature results verified the simulation output - however, the daylight measurement recorded higher distribution compared to the predicted performance. This may be due to the standard use of 10 k Cie overcast sky in simulation to represent the worst cloudy scenario in Malaysia. Regardless, the results will benefit future planners and developers of large shopping malls by recommending the integrated design process. This process introduces the usage of strategic passive design approach that can save a large amount of energy used in common areas.

Keywords: multivolume,atria,canopy,thermal comfort,bioclimatic,ventilation


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Series: convr:2013 (browse)
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Ludovico Carozza, Enrique Valero, Frédéric Bosché, George Banfill, Rufus Mall and Minh Nguyen

UrbanPlanAR: BIM Mobile Visualisation in Urban Environments with Occlusion-Aware Augmented Reality

Abstract: Effective visualisation is critical to a wide range of activities conducted in the Architecture, Engineering and Construction (AEC) industry. This paper presents an occlusion-aware Augmented Reality (AR) solution that is geared towards the visualisation of new developments Ð in the form of 3D BIM models Ð in urban environments, to enhance communication around proposed developments. The solution automatically fetches BIM models from project repositories and enables a user to visualise them within their urban environment with a mobile tablet. The localisation of the tablet is achieved using a visual-inertial approach that uses only the sensors embedded in the tablet. Furthermore, the solution uniquely includes a process for handling occlusions from the real world on the augmented content. Results are presented that demonstrate the full pipeline, including some visualisation results obtained in real urban environments.

Keywords: BIM, Visualisation, Visual-Inertial, Urban Environment

DOI: https://doi.org/10.24928/JC3-2017/0152

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Series: jc3:2017 (browse)
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