A study of image registration for 2D and 3D applications
A fundamental task in many image processing applications is image registration. Image registration can be defined as the process of aligning or matching two images such that the two images can be transformed into one coordinate system. The images can be from different viewpoints, different time a...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2015
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/64902 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | A fundamental task in many image processing applications is image registration.
Image registration can be defined as the process of aligning or matching two images
such that the two images can be transformed into one coordinate system. The images
can be from different viewpoints, different time and also from different sensors,
sensing different regions across the electromagnetic spectrum.
Image registration algorithms defined in literature have been very specific to an
application and hence most surveys conducted revolve around a particular application.
The need of the hour is an image registration technique which is universal, accurate,
robust and yet be computationally efficient. This dissertation accomplishes a survey of
existing image registration techniques for both two dimensional and three dimensional
image processing applications and presents a qualitative and quantitative analysis on a
range of test data to determine the generalization aspects of these registration
techniques.
The dissertation also explores an important class of applications requiring the three
dimensional image registration process known as the 3D volume reconstruction. The
dissertation proposes a technique to compute the real-world volume of an object from
its three dimensional model. This has far ranging applications from healthcare to
interactive gaming. For example in a hospital, when the patient is immobile and
his/her weight has to be recorded and traditional techniques may be intrusive.
Therefore, a non-intrusive approach is highly desirable and this dissertation proposes
an approach for the volume generation of an object from its 3D model. The
dissertation also documents the important challenges which have to be overcome to
obtain a robust and accurate volume estimate of the 3D model. |
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