The aim of web-based 3d visualization of monitoring over materials haulage to rock-fill dam is to achieve 3d visual expression on internet for transporting vehicles and the surroundings, which is hydropower project co...
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ISBN:
(纸本)9783037853191
The aim of web-based 3d visualization of monitoring over materials haulage to rock-fill dam is to achieve 3d visual expression on internet for transporting vehicles and the surroundings, which is hydropower project construction site layout. On the basis of analysis on 3dvisualization process based on 3dS MAX and principles of web-based 3d visualizationbased on ActiveX technology, the implementation scheme of web-based 3d visualization of monitoring over materials haulage to dam is designed and its implementation methods are analyzed in detail. The real-time motoring and analysis system of materials haulage to rock-fill dam with network, digitalization andvisualization, which is developed in B/S architecture, provides supports to engineering construction management.
The solid geometry of archaeological deposits is fundamental to the interpretation of their chronological sequence. However, such stratigraphic sequences are generally viewed as static two-dimensional diagrammatic rep...
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The solid geometry of archaeological deposits is fundamental to the interpretation of their chronological sequence. However, such stratigraphic sequences are generally viewed as static two-dimensional diagrammatic representations which are difficult to manipulate or to relate to real layers. The AdS 3d Viewer is a web-based resource for the management and analysis of archaeological data. The viewer was developed to take advantage of recent developments in web technology, namely the adoption of webGL (web Graphics Library) by current web browsers. The AdS 3d Viewer combines the potential of the 3d Heritage Online Presenter (3dHOP), a software package for the web-basedvisualization of 3d geometries, with the infrastructure of the Archaeology data Service (AdS) repository, in the attempt to create a platform for the visualization and analysis of 3ddata archived by the AdS. Two versions of the viewer have been developed to answer the needs of different users. The first version, the Object Level 3d Viewer, was implemented to extend the browsing capability of AdS project archives by enabling the visualization of single 3d models. The second version, the Stratigraphy 3d Viewer, is an extension which allows the exploration of a specific kind of aggregateddata: the multiple layers of an archaeological stratigraphic sequence. This allows those unable to participate directly in the fieldwork to access, analyse and re-interpret the archaeological context remotely. This has the potential to transform the discipline, allowing inter-disciplinary, cross-border and 'at-distance' collaborative workflows, and enabling easier access to and analysis of archaeological data. (C) 2016 Elsevier Ltd. All rights reserved.
A web-browser allows discovering and navigating between the bas-reliefs. This latter part of the exhibition represents the main novelty and it will be deepening during the dissertation. The importance of the whole set...
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ISBN:
(纸本)9783319609287;9783319609270
A web-browser allows discovering and navigating between the bas-reliefs. This latter part of the exhibition represents the main novelty and it will be deepening during the dissertation. The importance of the whole set of data gathered is twofold: first of all a complete metrical reconstruction of the site provides conservators with a fundamental starting point for restoration works;secondly, these data provide the possibility to create a virtual corner for their exposition, moving from the scheme of a classical exposition of findings towards a digital and interactive visualization.
The Jet Propulsion Laboratory's Mission Control Systems Section and Mobility and Robotic Systems Section have partnered to developed a high-performance telemetry visualization system, based on our mature, web-base...
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ISBN:
(纸本)9781728185606
The Jet Propulsion Laboratory's Mission Control Systems Section and Mobility and Robotic Systems Section have partnered to developed a high-performance telemetry visualization system, based on our mature, web-based, 3dvisualization software technology, that provides mission trajectory designers, operations personnel and reconstruction analysts with a highly accurate, re-usable, multi-mission solution to interactively visualize results from Entry, descent and Landing (EdL) simulations, real-time mission test beds, live telemetry streams during critical mission events, such as landing, as well as post-event reconstruction analysis. This work builds on previous mission visualization systems that we have deployed for a variety of flight missions and JPL organizations including NASA's Mars Science Laboratory (MSL), NASA'S Low density Supersonic decelerator (LdSd), NASA's Soil Moisture Active Passive (SMAP), JPL's MoonRise Lunar sample return proposal. JPL's mission design teams, JPL's Office of Naval Research tasks, and JPL's Education and Public Outreach Office.
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