
哪位英语好的师兄师姐看到我这贴子帮我翻译一下这段文字。不胜感激!!小妹在这里先谢谢您了
1.toprocesslongerimagesequencesfullyautomatically;2.tointegratedatafromdifferentseque...
1. to process longer image sequences fully automatically;
2. to integrate data from different sequences, e.g. for the exterior and interior of a building;
3. to solve the wide baseline correspondence problem, as to ensure that the system can automatically combine information
from sequences taken from very different viewpoints;
4. to better combine the texture information contained in the different frames, e.g. to arrive at super-resolution;
5. to model different excavation strata in 3D and to integrate such information to build a detailed 3D, dynamic record of
the excavations;
6. to extend the use of 3D acquisition technology to the support of virtual or real restoration and anastylosis, i.e. to use
the 3D shapes of building blocks, sherds, and pieces in general to see how they can fit together. If the building or the
artefact to which the pieces belong is of high scientific or artistic value a real restoration can then follow.
Currently studied extensions to this technology include:
1. building a more compact, hand-held setup that is easy for use in situ;
2. the automatic crude registration of partial 3D patches, after which a traditional technique like ICP or mutual information
is used to perform the fine-registration. Now crude registration still has to be done manually;
3. to specialise the setup also for pottery sherds, which are very important in archaeology for dating the stratigraphic
layers uncovered during the excavations. 展开
2. to integrate data from different sequences, e.g. for the exterior and interior of a building;
3. to solve the wide baseline correspondence problem, as to ensure that the system can automatically combine information
from sequences taken from very different viewpoints;
4. to better combine the texture information contained in the different frames, e.g. to arrive at super-resolution;
5. to model different excavation strata in 3D and to integrate such information to build a detailed 3D, dynamic record of
the excavations;
6. to extend the use of 3D acquisition technology to the support of virtual or real restoration and anastylosis, i.e. to use
the 3D shapes of building blocks, sherds, and pieces in general to see how they can fit together. If the building or the
artefact to which the pieces belong is of high scientific or artistic value a real restoration can then follow.
Currently studied extensions to this technology include:
1. building a more compact, hand-held setup that is easy for use in situ;
2. the automatic crude registration of partial 3D patches, after which a traditional technique like ICP or mutual information
is used to perform the fine-registration. Now crude registration still has to be done manually;
3. to specialise the setup also for pottery sherds, which are very important in archaeology for dating the stratigraphic
layers uncovered during the excavations. 展开
1个回答
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1 。以过程较长的图像序列完全自动;
2 。整合数据从不同的序列,例如为内部和外部的建筑物;
3 。要解决广泛的基线函授问题,以确保该系统能自动相结合的信息序列采取从非常不同的观点;
4 。为了更好地结合起来,纹理所载的资料在不同的框架,例如到达超分辨率;
5 。模型不同的开挖地层中的三维图形和整合这些资料,以建立一个详细的三维的,动态的记录挖掘;
6 。延长使用的三维采集技术,以支持虚拟或真实的恢复和anastylosis ,即使用三维形状的积木, sherds ,并件,一般看到他们如何能够配合。若建筑或手工,这件是属于高科学或艺术价值,一个真正的恢复便可以依循。
1 。建立一个更加紧凑,手提式安装是很容易的使用在原地;
2 。自动原油登记部分的三维补丁后,传统的技术一样,电感耦合等离子体或互信息是用来执行罚款登记。现在原油注册仍然需要做手动;
3 。以专门安装,也为陶器sherds ,这是非常重要的考古学为约会地层层次的挖掘过程中挖掘。
2 。整合数据从不同的序列,例如为内部和外部的建筑物;
3 。要解决广泛的基线函授问题,以确保该系统能自动相结合的信息序列采取从非常不同的观点;
4 。为了更好地结合起来,纹理所载的资料在不同的框架,例如到达超分辨率;
5 。模型不同的开挖地层中的三维图形和整合这些资料,以建立一个详细的三维的,动态的记录挖掘;
6 。延长使用的三维采集技术,以支持虚拟或真实的恢复和anastylosis ,即使用三维形状的积木, sherds ,并件,一般看到他们如何能够配合。若建筑或手工,这件是属于高科学或艺术价值,一个真正的恢复便可以依循。
1 。建立一个更加紧凑,手提式安装是很容易的使用在原地;
2 。自动原油登记部分的三维补丁后,传统的技术一样,电感耦合等离子体或互信息是用来执行罚款登记。现在原油注册仍然需要做手动;
3 。以专门安装,也为陶器sherds ,这是非常重要的考古学为约会地层层次的挖掘过程中挖掘。
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