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Ying, W. (2018). Research on the Adaptability of Building Materials Application in Exterior

Exterior Design of Buildings. IOP Conference Series: Earth and Environmental Science,

189, 032009. https://doi.org/10.1088/1755-1315/189/3/032009

The article explores building outdoor structures; the research of Wu Ying focuses on the

flexibility of building materials. Advances in building technology have risen in line with the

growing need for better-quality building materials. To maintain the benefits of the grand design

of building materials and ensure that their design level is progressively enhanced to enhance the

exterior design of buildings, a focus on the adaptability research of building materials application

is needed. Building materials can be used in various ways; they can enhance the appearance of

modern building engineering, increase project value, and increase building field production

efficiency by examining their adaptability to the external design shape of a building (Ying,

2018).

The relevance of the resource explains how building materials are adapted to creating an

exterior of a building and help increase the production efficiency of the building field.

Perez, G., & Perini, K. (2018). Nature-Based Strategies for Urban and Building Sustainability. In

Google Books. Butterworth-Heinemann. https://books.google.co.ke/books?

id=_wIxDwAAQBAJ&dq=nature+and+sustainability+of+a+building&hl=en&sa=X&ve

d=2ahUKEwjrhdKOmZ_2AhVPUxoKHeBJDsUQ6AF6BAgKEAI

The article by Perez and Perini analyses the current state of the art on nature-based urban

and building sustainability strategies, discussed in detail. In the introduction, the editors cover

essential principles of natural components in the built environment and a strategy for their use in

buildings and cities. Part One discusses urban ecosystems and ecosystem services. In contrast,

Part Two focuses on tactics and technology, such as vertical greening systems, green roofs, and

green streets, to improve the urban environment. Aspects such as improved energy efficiency, air

quality, acoustics, water management, and biodiversity are addressed in Part Three, including

data on the project’s quantitative outcomes. Describes the many ways to incorporate nature into

the built world. Systems and approaches for incorporating nature into buildings are presented in

this article—the most up-to-date information on operations and ecosystem services research.

This collection includes new and established designs and those currently in the testing phase

(Perez & Perini, 2018).

The article is essential because It enables a great understanding of the strategies used by

Leoh Ming to integrate the city environment with the building. However, the book has no

reviews yet; the authors are researchers with Ph.D. degrees and have experience in their field of

work. This makes the source to be reliable and trustworthy.

Puspitasari, A. W., & Kwon, J. (2020). A reliable method for visibility analysis of tall buildings

and skyline: a case study of tall buildings cluster in Jakarta. Journal of Asian Architecture

and Building Engineering, 1–12. https://doi.org/10.1080/13467581.2020.1787839

High-rise and skyline visibility analysis is the subject of this essay. Decisions concerning

the skylines of modern cities, dominated by skyscrapers, must take visibility into account. Using

a targeted isovist is the cornerstone of the visibility approach, which refers to the visible portion

of a tall structure’s target area. Analysis of tall tower clusters visible from adjacent streets and the

effect they have on the city’s skyline is presented in this article, which uses Jakarta as an

opportunity to illustrate how this approach may be applied to other cities. To replicate the

modeling techniques in the background, Grasshopper was utilized to create the algorithm for

visualizing the content. To illustrate the results, a color section is used to depict the fraction of

viewable viewpoints and the visible space of a structure’s front, both of which are essential

metrics. According to the results, building height combinations, structure placement, building-to-

street relationships, and perspective distances all had a substantial influence on the rate of

visibility. Because of how well they can be seen, tall building cluster visibility affects its skyline.

The techniques provided here for analyzing visibility are essential for the design and

construction of tall buildings in a distributed organization and, as a result, for predicting how

future cities’ skylines will look(Puspitasari & Kwon, 2020).

The significance of the article will enable me to understand the position of structures,

the relationship between the buildings and the street, the distances between different

perspectives what significant impact they play on the rate of visibility.

Abdelhameed, W., & Saputra, W. (2020). Integration of building service systems in architectural

design. Journal of Information Technology in Construction, 25, 109–122. https://doi.org/

10.36680/j.itcon.2020.007

It examines the importance of structure service systems (BSS) and how they’re being

considered at the earliest phases of architectural design. If these technologies are included in the

structure’s design rather than after being built, it will save money and time. The late inclusion of

BSS may have a detrimental impact on both the structure’s exterior and inside. Since it may

enhance design outcomes while also identifying and eliminating service system incompatibilities

and conflicts. BSS integration is becoming more common in the construction sector, notably

plumbing systems and the design itself, and between the design and the design, all benefit from

3D digital modeling. 3D digital modeling is critical in spotting possible conflicts. All service

systems are coordinated using various methods studied in the literature. Additional data from the

construction industry is also being collected and evaluated to offer a more objective perspective.

BSS are integrated into the architectural design throughout the conceptual phases of the design

process, using a variety of regional construction projects and research on the construction

industry as examples(Abdelhameed & Saputra, 2020).

The article is relevant since it explores how to improve design results while also detecting

and avoiding service system incompatibilities and conflicts.

Bradecki, T., & Uherek-Bradecka, B. (2017). Work Models in the Design Process for House

Interior and Exterior: Physical or Virtual? IOP Conference Series: Materials Science and

Engineering, 245, 052033. https://doi.org/10.1088/1757-899x/245/5/052033

The results of a study into several kinds of single-family and multifamily housing models

are presented in this article. The outside layout and internal functional arrangement heavily

influence the design outcome. Models are essential tools for architects to use while showcasing

their work and educating the public about their concepts. Even though 3D models may depict

anything, specific individuals still cannot grasp the concept of the planned place. The

researchers’ goal is to find a way to stimulate both the inside and outside of a vehicle in a single

model. In the article, a variety of home models are shown. We used a combination of actual

models, 3D models, and hand drawings to create each of the case studies we’ve done.

The resource’s importance with the models was to get a clear picture of how planned

future homes would feel in terms of openness. According to the study’s findings, synthetic

models may aid in the design process.

The URBAN model research group, which includes academic researchers and architects,

researches relevance. The authors gained a plethora of architectural expertise via theoretical

models, building projects, and construction site monitoring. The following information may be

of interest to builders, designers, interior designers, and academics in architecture. (Bradecki &

Uherek-Bradecka, 2017).

Reference

Ying, W. (2018). Research on the Adaptability of Building Materials Application in Exterior

Exterior Design of Buildings. IOP Conference Series: Earth and Environmental Science,

189, 032009. https://doi.org/10.1088/1755-1315/189/3/032009

Perez, G., & Perini, K. (2018). Nature-Based Strategies for Urban and Building Sustainability. In

Google Books. Butterworth-Heinemann. https://books.google.co.ke/books?

id=_wIxDwAAQBAJ&dq=nature+and+sustainability+of+a+building&hl=en&sa=X&ve

d=2ahUKEwjrhdKOmZ_2AhVPUxoKHeBJDsUQ6AF6BAgKEAI

Puspitasari, A. W., & Kwon, J. (2020). A reliable method for visibility analysis of tall buildings

and skyline: a case study of tall buildings cluster in Jakarta. Journal of Asian Architecture

and Building Engineering, 1–12. https://doi.org/10.1080/13467581.2020.1787839

Abdelhameed, W., & Saputra, W. (2020). Integration of building service systems in architectural

design. Journal of Information Technology in Construction, 25, 109–122. https://doi.org/

10.36680/j.itcon.2020.007

Bradecki, T., & Uherek-Bradecka, B. (2017). Work Models in the Design Process for House

Interior and Exterior: Physical or Virtual? IOP Conference Series: Materials Science and

Engineering, 245, 052033. https://doi.org/10.1088/1757-899x/245/5/052033

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