Jan Cudzik scite author profile

Contemporary climate challenges are changing the architect’s awareness, which results in a broader spectrum of interest. The available software enables the design of vegetation, but it is often very limited and requires specialist knowledge. The available software allows the creation of individual solutions based on visual algorithms or writing scripts; however, they are still not common methods used in architecture and urban planning. The study proposes a new complex digital method of selection and design of greenery based on a new parameter spreadsheet. The proposition is supported by the review and investigation of the software used by designers identifying a range of tools for the design of greenery. The study proposes a theoretical model for automated plant selection and variations of possible greenery scenarios that could be integrated into the design process at the early stages of concept development.

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Reasons for Implementing Movement in Kinetic Architecture

Cudzik

Nyka

2017

IOP Conf. Ser.: Mater. Sci. Eng.

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Computer-Aided Greenery Design—Prototype Green Structure Improving Human Health in Urban Ecosystem

Sędzicki

Cudzik

Nyka

2023

IJERPH

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Increasing population and urbanization, with climate change consequences, such as rising temperatures, influence public health and well-being. The search to improve the quality of life in cities becomes one of the priority objectives. A solution can be found in the role of greenery in an urban environment and its impact on human health. This opens a path toward experimentation on microclimate green structures that can be inserted into dense urban spaces providing human and environmental benefits. The article proposes an automated greenery design method combined with rapid prototyping for such interventions. A theoretical analysis of the problem preceded the introduction of the method. The research process was developed in accordance with the main objectives of the CDIO framework (Conceive, Design, Implement, and Operate) with the SiL (Software in the Loop) and HiL (Hardware in the Loop) methods. Moreover, the applied test model allows for complex evaluation in order to ensure quality and directions for further development.

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Environmental Impact of Construction. Methods of Conscious Shaping Architecture in Terms of Ecological Solutions

Cudzik¹,

Kruk²

2022

piF

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Shaping an ecologically conscious society is a process that also affects architecture. Currently, designers are eagerly looking for solutions that are beneficial in terms of carbon footprint. For the proper multi-criteria assessment and selection of adequate solutions, it is necessary to use appropriate tools such as, for example, the Life Cycle Assessment (LCA) method or the rules of ecological certification (BREEAM and LEED). The work presents a review of tools and methods for the objective selection of ecological solutions in the process of architectural design.

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Jan Cudzik

Artificial Intelligence Aided Architectural Design

Computer-Aided Automated Greenery Design—Towards a Green BIM

Reasons for Implementing Movement in Kinetic Architecture

Computer-Aided Greenery Design—Prototype Green Structure Improving Human Health in Urban Ecosystem

Environmental Impact of Construction. Methods of Conscious Shaping Architecture in Terms of Ecological Solutions

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