Visual design of green information in urban environment based on global similarity calculation and multi-dimensional visualization technology
In recent years, the escalating prevalence of elevated consumption and carbon emissions within urban operations has reached a disconcerting extent. This surge in resource depletion and environmental pollution exerts an adverse influence on the well-being of individuals, while impeding societal progr...
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Format: | Article |
Language: | English |
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PeerJ Inc.
2023-09-01
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Series: | PeerJ Computer Science |
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Online Access: | https://peerj.com/articles/cs-1614.pdf |
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author | Junru Wang |
author_facet | Junru Wang |
author_sort | Junru Wang |
collection | DOAJ |
description | In recent years, the escalating prevalence of elevated consumption and carbon emissions within urban operations has reached a disconcerting extent. This surge in resource depletion and environmental pollution exerts an adverse influence on the well-being of individuals, while impeding societal progress and hindering the enhancement of overall quality of life. Within the domain of urban environmental design, the integration of visual displays emerges as a superior approach to facilitate the assimilation and analysis of green and low-carbon information. However, urban environmental data usually contains multiple dimensions, so it is a problem to realize the data representation of multiple dimensions while maintaining the correlation and interactivity between data. To surmount the challenge of visualizing such intricate information, this investigation initially employs a sophisticated memory-based clustering algorithm for information extraction, accompanied by a global similarity algorithm that meticulously computes attribute component quantities within specific dimensions of the vector. Furthermore, leveraging the inherent power of Vue’s bidirectional data binding capabilities, the study adopts the esteemed MVVM (Model-View-View-Model) pattern, fostering seamless two-way interaction through the established logical relationship. As a result, the amalgamation of multidimensional visualization technology empowers comprehensive data mining through a captivating visual augmentation. Concurrently, the application of data visualization dimension control delivers tailored displays tailored to green and low-carbon scenarios within urban environmental design. Experimental results impeccably validate the effectiveness of the proposed algorithm, substantiated by a mere 1.77% false alarm rate for data stream difference detection and a clustering difference of 1.34%. The aforementioned algorithm accentuates the efficacy of visual displays, thus engendering a profound synergy between the industrial and supply chains. Moreover, it facilitates the design, production, and utilization of environmentally friendly products and energy sources. This, in turn, serves as a catalyst, propelling the widescale adoption of green and low-carbon practices throughout the entire industrial chain, fueled by the seamless integration of multimedia data. |
first_indexed | 2024-03-11T20:45:12Z |
format | Article |
id | doaj.art-39b2ecfdd3f44b07bf2da6e316a23d90 |
institution | Directory Open Access Journal |
issn | 2376-5992 |
language | English |
last_indexed | 2024-03-11T20:45:12Z |
publishDate | 2023-09-01 |
publisher | PeerJ Inc. |
record_format | Article |
series | PeerJ Computer Science |
spelling | doaj.art-39b2ecfdd3f44b07bf2da6e316a23d902023-10-01T15:05:20ZengPeerJ Inc.PeerJ Computer Science2376-59922023-09-019e161410.7717/peerj-cs.1614Visual design of green information in urban environment based on global similarity calculation and multi-dimensional visualization technologyJunru WangIn recent years, the escalating prevalence of elevated consumption and carbon emissions within urban operations has reached a disconcerting extent. This surge in resource depletion and environmental pollution exerts an adverse influence on the well-being of individuals, while impeding societal progress and hindering the enhancement of overall quality of life. Within the domain of urban environmental design, the integration of visual displays emerges as a superior approach to facilitate the assimilation and analysis of green and low-carbon information. However, urban environmental data usually contains multiple dimensions, so it is a problem to realize the data representation of multiple dimensions while maintaining the correlation and interactivity between data. To surmount the challenge of visualizing such intricate information, this investigation initially employs a sophisticated memory-based clustering algorithm for information extraction, accompanied by a global similarity algorithm that meticulously computes attribute component quantities within specific dimensions of the vector. Furthermore, leveraging the inherent power of Vue’s bidirectional data binding capabilities, the study adopts the esteemed MVVM (Model-View-View-Model) pattern, fostering seamless two-way interaction through the established logical relationship. As a result, the amalgamation of multidimensional visualization technology empowers comprehensive data mining through a captivating visual augmentation. Concurrently, the application of data visualization dimension control delivers tailored displays tailored to green and low-carbon scenarios within urban environmental design. Experimental results impeccably validate the effectiveness of the proposed algorithm, substantiated by a mere 1.77% false alarm rate for data stream difference detection and a clustering difference of 1.34%. The aforementioned algorithm accentuates the efficacy of visual displays, thus engendering a profound synergy between the industrial and supply chains. Moreover, it facilitates the design, production, and utilization of environmentally friendly products and energy sources. This, in turn, serves as a catalyst, propelling the widescale adoption of green and low-carbon practices throughout the entire industrial chain, fueled by the seamless integration of multimedia data.https://peerj.com/articles/cs-1614.pdfData miningVisualizationLow-carbonUrban environmentMultidimensional data |
spellingShingle | Junru Wang Visual design of green information in urban environment based on global similarity calculation and multi-dimensional visualization technology PeerJ Computer Science Data mining Visualization Low-carbon Urban environment Multidimensional data |
title | Visual design of green information in urban environment based on global similarity calculation and multi-dimensional visualization technology |
title_full | Visual design of green information in urban environment based on global similarity calculation and multi-dimensional visualization technology |
title_fullStr | Visual design of green information in urban environment based on global similarity calculation and multi-dimensional visualization technology |
title_full_unstemmed | Visual design of green information in urban environment based on global similarity calculation and multi-dimensional visualization technology |
title_short | Visual design of green information in urban environment based on global similarity calculation and multi-dimensional visualization technology |
title_sort | visual design of green information in urban environment based on global similarity calculation and multi dimensional visualization technology |
topic | Data mining Visualization Low-carbon Urban environment Multidimensional data |
url | https://peerj.com/articles/cs-1614.pdf |
work_keys_str_mv | AT junruwang visualdesignofgreeninformationinurbanenvironmentbasedonglobalsimilaritycalculationandmultidimensionalvisualizationtechnology |