Dynamic Simulation and Virtual Reality in Hydrology and Water Resources Management

Teegavarapu, Ramesh S. V., Chandramouli, Chandramouli V.

  • 出版商: CRC
  • 出版日期: 2023-07-24
  • 售價: $2,280
  • 貴賓價: 9.5$2,166
  • 語言: 英文
  • 頁數: 182
  • 裝訂: Quality Paper - also called trade paper
  • ISBN: 1032043253
  • ISBN-13: 9781032043258
  • 相關分類: VR/AR
  • 下單後立即進貨 (約2~4週)

相關主題

商品描述

Dynamic Simulation and Virtual Reality in Hydrology and Water Resources Management focuses on the understanding, use, and application of system dynamics simulation and virtual reality approaches for modeling the spatial and temporal behavior of natural and managed hydro-environmental systems.

The book discusses concepts of systems thinking and system dynamics approach, and it furthers understanding of the dynamic behavior of natural and engineering systems using feedbacks and dynamic simulation. Numerous examples of models built using different system dynamics simulation modeling environments are provided. It also introduces concepts related to computer animation and virtual reality-based immersive modeling. Applications of systems dynamics, simulation with animation, and virtual reality approaches for modeling and management of hydro-environmental systems are illustrated through case studies.

This text is ideal for water resources professionals, graduate students, hydrologic modelers, and engineers who are interested in systems thinking, dynamic simulation, and virtual reality modeling approaches. It will serve as a valuable reference for engineering professionals who model, manage, and operate hydrosystems. Engineering educators will find the book immensely useful to enhance the learning experiences of students.

 

Dr. Ramesh S. V. Teegavarapu is a professor at Florida Atlantic University with expertise in modeling water resources and environmental systems, hydroinformatics, and climate change.

Dr. Chandramouli V. Chandramouli is a professor at Purdue University Northwest. His expertise is in water resources and environmental modeling integrating artificial intelligence techniques. 

商品描述(中文翻譯)

《水文學與水資源管理中的動態模擬與虛擬實境》專注於理解、使用和應用系統動力學模擬和虛擬實境方法,以模擬自然和管理的水文環境系統的時空行為。

本書討論了系統思維和系統動力學方法的概念,並通過反饋和動態模擬進一步理解自然和工程系統的動態行為。書中提供了使用不同系統動力學模擬建模環境構建模型的眾多示例。它還介紹了與計算機動畫和基於虛擬實境的沉浸式建模相關的概念。通過案例研究,展示了系統動力學、動畫模擬和虛擬實境方法在水文環境系統建模和管理中的應用。

本書適合水資源專業人士、研究生、水文模型師和對系統思維、動態模擬和虛擬實境建模方法感興趣的工程師。對於模擬、管理和運營水系統的工程專業人員來說,本書將是一本有價值的參考資料。工程教育者將發現本書對於提升學生的學習體驗非常有用。

Ramesh S. V. Teegavarapu博士是佛羅里達大西洋大學的教授,擅長於水資源和環境系統建模、水資訊學和氣候變化。

Chandramouli V. Chandramouli博士是普渡大學西北分校的教授,他的專長是水資源和環境建模,並整合人工智能技術。

作者簡介

Dr. Ramesh S.V. Teegavarapu (Dr. T.) is a professor, Fulbright scholar, and graduate program director in the Department of Civil, Environmental and Geomatics Engineering and founder of the Hydro systems Research Laboratory (HRL) at Florida Atlantic University. His main research interests include climate change and variability, hydroclimatic extremes, water, and environmental systems modeling and management, spatial hydrology, and hydrometeorology. Dr. T is an author, co-editor, and sole editor of several books on these topics.

Dr. Chandramouli V. Chandramouli is a Professor at Purdue University Northwest where he teaches hydrology and hydraulics courses. His expertise is in water resources and environmental modeling integrating artificial intelligence techniques, and his focus areas include reservoir operation and climate studies, flood modeling, and regional water quality analysis. He collaborated with the Center for Innovation and Visualization Center at Purdue University Northwest and developed virtual 3D lab modules for flooding in a real-world system, as well as groundwater contamination movement for classroom teaching.

作者簡介(中文翻譯)

Dr. Ramesh S.V. Teegavarapu(Dr. T.)是佛羅里達大西洋大學土木、環境和測繪工程系的教授、富布萊特學者和研究生課程主任,也是水系統研究實驗室(HRL)的創始人。他的主要研究興趣包括氣候變化和變異性、水文氣候極端事件、水和環境系統建模與管理、空間水文學和水文氣象學。Dr. T是這些主題的多本書的作者、合編者和獨立編輯。

Dr. Chandramouli V. Chandramouli是普渡大學西北分校的教授,教授水文學和水力學課程。他的專業領域是水資源和環境建模,並整合人工智能技術,他的研究重點包括水庫運營和氣候研究、洪水建模和區域水質分析。他與普渡大學西北分校的創新和可視化中心合作,開發了用於真實系統洪水的虛擬3D實驗室模塊,以及用於課堂教學的地下水污染運動模擬。