Reduced-order urban wind interference

Wilkinson, Samuel A.; Bradbury, Gwyneth; Hanna, Sean

doi:10.1177/0037549715595135

Cited by 9 publications

(10 citation statements)

References 31 publications

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“…All of the surveyed papers about wind & ventilation were domain‐specific ones (43). Wilkinson et al present a data generation technique to approximate complex computational fluid dynamics (CFD) using an artificial neural network [WBH14]. The other surveyed papers were primarily analysis contributions that relayed on CFD for building‐level [AKH19] or neighborhood‐level [EGAB17, ZKL*21] wind load analysis (Figure 12 (Super‐imposition)), wind power potential [SDP20], inner building ventilation [SL19,HP20], wind impact on urban climate [GBI14,DL19, HP21], pollution dispersion [GL19,ZWLZ22,HZL*23, LMS*23], or the interplay between sunlight access and wind for thermal comfort [JY20].…”

Section: Primary Dimensions (Why)mentioning

confidence: 99%

The State of the Art in Visual Analytics for 3D Urban Data

Miranda,

Ortner,

Moreira

et al. 2024

Computer Graphics Forum

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Urbanization has amplified the importance of three‐dimensional structures in urban environments for a wide range of phenomena that are of significant interest to diverse stakeholders. With the growing availability of 3D urban data, numerous studies have focused on developing visual analysis techniques tailored to the unique characteristics of urban environments. However, incorporating the third dimension into visual analytics introduces additional challenges in designing effective visual tools to tackle urban data's diverse complexities. In this paper, we present a survey on visual analytics of 3D urban data. Our work characterizes published works along three main dimensions (why, what, and how), considering use cases, analysis tasks, data, visualizations, and interactions. We provide a fine‐grained categorization of published works from visualization journals and conferences, as well as from a myriad of urban domains, including urban planning, architecture, and engineering. By incorporating perspectives from both urban and visualization experts, we identify literature gaps, motivate visualization researchers to understand challenges and opportunities, and indicate future research directions.

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Section: Primary Dimensions (Why)mentioning

confidence: 99%

The State of the Art in Visual Analytics for 3D Urban Data

Miranda,

Ortner,

Moreira

et al. 2024

Computer Graphics Forum

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“…In addition they performed a correlation analysis between the price and the rated power of vertical axis wind turbines (VAWT) rated below 5000 kWh. Wilkinson et al demonstrated a new approximation approach of computational fluid dynamics in high rise buildings with complex wind interference (Wilkinson et al, 2014). Wang et al compared and analyzed seven different urban tissues using CFD simulations in the area of Beijing.…”

Section: State Of the Artmentioning

confidence: 99%

CFD Simulation and Visualization Based Investigation of Small Wind Turbine Potential: A Case Study “Neuer Stöckach” for Stuttgart

Brennenstuhl

Gruen

Harbola

et al. 2021

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. In the face of climate change and the energy transition that the German federal government is aiming for, all renewable energy potentials need to be tapped. Unfortunately, small wind turbines play a niche role in Germany and most other countries despite the fact, that although they offer advantages as e.g. almost seasonal independent energy production in close proximity to the consumer on the same low-voltage grid level. One reason beside the lower wind speeds that can be expected closer to the ground is, that in comparison to PV (photovoltaic), for which good yield forecasts can be made using global radiation measurements from nearby weather stations or online databases, the yield of small wind turbines, especially in urban areas, can only be forecasted using on-site measurements due to the influence of the surrounding buildings and topography. This method is time-consuming and costly. To address this, within this work a Computational Fluid Dynamics (CFD) simulation based visualization framework for the investigation of the small wind turbine potential is presented. In this specific case the energy supply company EnBW is planning to refurbish the “Neuer Stöckach” urban quarter on the former “Stöckach” company site. As part of the redevelopment, a comprehensive energy concept is planned to integrate renewable energies. In this context the integration of small wind turbines into the energy concept is examined according to this new methodology.

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“…The underlying approach is still in its infancy, the potential breadth of its application is however supported by a wide array of related research, investigating ML for simulation of wind, 19–21 structural 22 and climatic performance, 23 formfinding and analysis of bending active structures, 24 macroscopic material behaviour, 25 driving styles of cars 26 and the utilization of heavy equipment on construction sites. 27…”

Section: State Of the Artmentioning

confidence: 99%

Towards machine learning for architectural fabrication in the age of industry 4.0

Thomsen

Nicholas

Tamke

et al. 2020

International Journal of Architectural Computing

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Machine Learning (ML) is opening new perspectives for architectural fabrication, as it holds the potential for the profession to shortcut the currently tedious and costly setup of digital integrated design to fabrication workflows and make these more adaptable. To establish and alter these workflows rapidly becomes a main concern with the advent of Industry 4.0 in building industry. In this article we present two projects, which presents how ML can lead to radical changes in generation of fabrication data and linking these directly to design intent. We investigate two different moments of implementation: linking performance to the generation of fabrication data (KnitCone) and integrating the ability to adapt fabrication data in realtime as response to fabrication processes (Neural-Network Steered Robotic Fabrication). Together they examine how models can employ design information as training data and be trained to by step processes within the digital chain. We detail the advantages and limitations of each experiment, we reflect on core questions and perspectives of ML for architectural fabrication: the nature of data to be used, the capacity of these algorithms to encode complexity and generalize results, their task-specificness versus their adaptability and the tradeoffs of using them with respect to conventional explicit analytical modelling.

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Reduced-order urban wind interference

Cited by 9 publications

References 31 publications

The State of the Art in Visual Analytics for 3D Urban Data

The State of the Art in Visual Analytics for 3D Urban Data

CFD Simulation and Visualization Based Investigation of Small Wind Turbine Potential: A Case Study “Neuer Stöckach” for Stuttgart

Towards machine learning for architectural fabrication in the age of industry 4.0

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