WreckSight: Revealing our Submerged Maritime Heritage

IEEE Conference on Visual Analytics Science and Technology Pub Date : 2010-09-21 DOI:10.2312/VAST/VAST10/039-045

C. Rowland, John Anderson

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引用次数: 3

Abstract

This paper describes WreckSight, an interactive application for viewing aesthetically considered, accurate, 3D visualisations of historic shipwrecks on the seabed. Maritime heritage sites around the world, especially historic shipwrecks, are typically difficult to access by the general public. In many cases they are beyond the reach of traditional maritime archaeological investigation due to depth and low visibility. Historically significant wrecks have been successfully raised to the surface for research and public exposition in recent years. The Mary Rose raised in 1982 from Portsmouth harbour (UK) and the wreck of the US Civil War submarine Hunley recovered in 2000 from Charleston Bay, are on public display along with many artefacts recovered from the wrecks. However, the majority of historic shipwrecks lie at the site of their sinking, on the seabed, hidden from the public view. Recent improvements in multibeam sonar technologies have resulted in new opportunities to gather very high definition, 3D point cloud data from submerged historic shipwreck sites, therefore offering the potential to create highly accurate 3D images for public exposition. Traditional maritime archaeological methods for displaying this data can be improved by addressing a number of known problems. These are: · Gaps between points allow data to show through from the other side of the wreck, potentially misrepresenting the structure of the wreck. · Point cloud data contains no inherent colour information. Traditional display methods apply arbitrary colour ramps to the data which often does not enhance the viewer's interpretation of the wreck. · Points are rendered at the same size regardless of their distance from the viewer The WreckSight application resolves these problems by utilising occlusion objects, locally oriented colour ramps (Locoramps) and digital cinematography. This 3D visualisation tool also has applications beyond heritage, e.g. in the marine salvage industry, recreational dive planning and environmental management.

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沉船景观:揭示我们的水下海洋遗产

本文描述了一个交互式应用程序，用于观看美学考虑，准确的，海底历史沉船的3D可视化。世界各地的海洋遗产，尤其是历史沉船，一般来说都很难让公众进入。在许多情况下，由于深度和低能见度，它们超出了传统海洋考古调查的范围。近年来，具有历史意义的沉船已经成功地浮出水面进行研究和公开展览。1982年在英国朴茨茅斯港打捞的“玛丽·罗斯”号和2000年在查尔斯顿湾打捞的美国内战时期的“亨利”号潜艇残骸，以及从残骸中打捞出来的许多文物都在向公众展出。然而，大多数历史沉船都躺在沉船的地方，在海床上，公众看不到。最近多波束声呐技术的改进为从沉没的历史沉船遗址收集高清晰度3D点云数据带来了新的机会，因此为公共展览提供了创建高精度3D图像的潜力。通过解决一些已知问题，可以改进显示这些数据的传统海上考古方法。·点之间的间隙允许数据从残骸的另一边显示出来，可能会歪曲残骸的结构。·点云数据不包含固有的颜色信息。传统的显示方法对数据采用任意的颜色渐变，这往往不能增强观看者对沉船的解释。·无论与观看者的距离远近，点都以相同的尺寸呈现。通过利用遮挡对象、面向局部的颜色坡道(Locoramps)和数字电影技术，visualsight应用程序解决了这些问题。这款3D可视化工具还可以应用于遗产之外的领域，例如海洋打捞行业、休闲潜水规划和环境管理。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Conference on Visual Analytics Science and Technology

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