An Individual Trip Dynamic Visualization method using Smartcard Data

This chapter proposes a new educational methodology for theoretical contents. It aims to effectively transmit theoretical content meanings. Here, the effects of content visualization enhance the transmission of meaning. By processing visual information, the human brain can immediately understand the mutual relationships between elements in addition to the whole meaning. Comprehension becomes increasingly effective when movement is added to static information. The new educational methodology proposed here is based on such visualization. It is called “The Dynamic Visualization Method.” It is designed so students can visually set allowable conditions before processing them. This selective freedom enables students to extract their hidden leaning interests. Mathematical processes were used to verify the effectiveness of this methodology. A variety of items were thus adopted ranging from the elementary-school to university levels. The contents of those items are visualized in this chapter. The educational effects are then discussed.

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A 3D dynamic visualization method coupled with an urban drainage model

Journal of Hydrology ◽

10.1016/j.jhydrol.2019.123988 ◽

2019 ◽

Vol 577 ◽

pp. 123988

Author(s):

Guozheng Zhi ◽

Zhenliang Liao ◽

Wenchong Tian ◽

Xin Wang ◽

Juxiang Chen

Keyword(s):

Urban Drainage ◽

Dynamic Visualization ◽

Visualization Method

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Determination of inhomogeneous medium structure by the dynamic visualization method

10.1190/1.1893696 ◽

1983 ◽

Author(s):

A. S. Alekseev ◽

G. F. Zhernyak

Keyword(s):

Inhomogeneous Medium ◽

Dynamic Visualization ◽

Visualization Method

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An Advanced Dynamic Visualization Method of Global Ocean Tide with Multi-core Processor Based on OpenGL

Proceedings of the ICA ◽

10.5194/ica-proc-4-73-2021 ◽

2021 ◽

Vol 4 ◽

pp. 1-4

Author(s):

Hao Meng ◽

Wei-Ming Xu ◽

Tian-Yang Liu ◽

Zhi-Yuan Shi ◽

Zhou-Yang Dong

Keyword(s):

High Efficiency ◽

Global Ocean ◽

Ocean Tide ◽

Dynamic Visualization ◽

Visualization Method ◽

Multicore Processor ◽

Large Display ◽

Tide Height ◽

Speedup Ratio ◽

Multi Core Processor

Abstract. In terms of ocean tide visualization, to meet the requirement of both display range and operational efficiency, an advanced method is proposed, in which the tide height is rapidly computed with global tide model EOT10a, and dynamically displayed by OpenGL. Aiming at the large amounts of calculation of global tide height, the feature of multicore processor is integrated into the method. The experiment shows that, compared to a single-core processor, when using a 6-core processor, the speedup ratio is about 5.4, parallel efficiency reaches 90%, and 880 000 tide heights can be calculated per second. Eventually, the result would be output as a tide height graph by OpenGL. This method could be a useful tool for marine cartography due to the large display range and the high efficiency.

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