Deformable Registration using Navigator Channels and a Population Motion Model

Nguyen, Thao-Nguyen

15 February 2010

Radiotherapy is a potential curative option for liver cancer; however, respiratory motion creates uncertainty in treatment delivery. Advances in imaging and registration techniques can provide information regarding changes in respiratory motion. Currently image registration is challenged by computation and manual intervention. A Navigator Channel (NC) technique was developed to overcome these limitations. A population motion model was generated to predict patient-specific motion, while a point motion detection technique was developed to calculate the patient-specific liver edge motion from images. An adaptation technique uses the relative difference between the population and patient calculated liver edge motion to determine the patient's liver volume motion. The NC technique was tested on patient 4D-CT images for initial validation to determine the accuracy. Accuracy was less than 0.10 mm in liver edge detection and approximately 0.25 cm in predicting patient-specific motion. This technique can be used to ensure accurate treatment delivery for liver radiotherapy.

Deformable Registration

Image-Guided Radiotherapy

0760

Nonrigid Image Registration Using Physically Based Models

Yi, Zhao

January 2006

It is well known that biological structures such as human brains, although may contain the same global structures, differ in shape, orientation, and fine structures across individuals and at different times. Such variabilities during registration are usually represented by nonrigid transformations. This research seeks to address this issue by developing physically based models in which transformations are constructed to obey certain physical laws. <br /><br /> In this thesis, a novel registration technique is presented based on the physical behavior of particles. Regarding the image as a particle system without mutual interaction, we simulate the registration process by a set of free particles moving toward the target positions under applied forces. The resulting partial differential equations are a nonlinear hyperbolic system whose solution describes the spatial transformation between the images to be registered. They can be numerically solved using finite difference methods. <br /><br /> This technique extends existing physically based models by completely excluding mutual interaction and highly localizing image deformations. We demonstrate its performance on a variety of images including two-dimensional and three-dimensional, synthetic and clinical data. Deformable images are achieved with sharper edges and clearer texture at less computational cost.

Computer Science

image registration

nonrigid

physically based

Nonrigid Image Registration Using Physically Based Models

Yi, Zhao

January 2006

It is well known that biological structures such as human brains, although may contain the same global structures, differ in shape, orientation, and fine structures across individuals and at different times. Such variabilities during registration are usually represented by nonrigid transformations. This research seeks to address this issue by developing physically based models in which transformations are constructed to obey certain physical laws. <br /><br /> In this thesis, a novel registration technique is presented based on the physical behavior of particles. Regarding the image as a particle system without mutual interaction, we simulate the registration process by a set of free particles moving toward the target positions under applied forces. The resulting partial differential equations are a nonlinear hyperbolic system whose solution describes the spatial transformation between the images to be registered. They can be numerically solved using finite difference methods. <br /><br /> This technique extends existing physically based models by completely excluding mutual interaction and highly localizing image deformations. We demonstrate its performance on a variety of images including two-dimensional and three-dimensional, synthetic and clinical data. Deformable images are achieved with sharper edges and clearer texture at less computational cost.

Computer Science

image registration

nonrigid

physically based

Transitive and Symmetric Nonrigid Image Registration

Chou, Yi-Yu

12 April 2004

The main topic of this thesis is nonrigid image registration for medical applications. We start with an overview and classification of existing registration techniques. We develop a general nonrigid image registration algorithm. It uses spline functions to describe the deformation and uses multi-scale strategy to search for the optimal transformation. Then we present a new registration operator that is transitive and symmetric. We investigate the theoretical implication of these properties and apply this operator to the registration of sequences of MR cardiac images. In the second part of the thesis, two methods, one 2D and one 3D, for validation of nonrigid image registration algorithms are proposed and compared to a manual validation strategy. Both methods provide pairs of deformed images as well as corresponding true displacement fields with known accuracy. Nonrigid registration algorithms can be run on the pairs of images and their outputs can be compared to the true displacement fields that were generated manually by five observers. While these phantom validation studies do not provide physically correct deformations, they are certainly a useful way to test the algorithm's ability to recover various deformation patterns.

Transitivity

Symmetry

Nonrigid

Image registration

Validation

Population Mobility in China after 1978

Lee, Sheng-chi

06 July 2006

After the reformation and opening, China moves from planned economy towards market economy. Active development of merchandise market and affection of loose household register system promotes the enormous population flow between town and country. However, the research found out that there are deep problems existed in population movement that need to be solved. These problems included the shifting of labor force from farming industry, the employments, managements and services of floating population in urban areas, as well as the reforms and innovations on the duality household registration system in the urban and rural areas. Particularly, it would be a good proposal to solve the ¡§Tri-Agricultural Problem¡¨ and city development at this particular period. This research probed into the increasing factors and development features of the floating population and emphasized mainly on the analysis of positive and negative influences to economic and society development. How to properly plan the population movement towards the modernized development aim of China is what this research about to discuss. The research is to discuss theories related to population flow. However, push and pull theory is commonly used in the world. In accordance with the idea of ¡§Equal emphasis on agriculture and industry, equal development of town and country¡¨ of developed economy M. Todaro Model, lifting agricultural productivity, improving rural life conditions, and shortening difference between town and country will ultimately make duality disappear and is practicable to the economic development with Chinese characteristics.

peasant workers

Population movement

household registration system

A Service Quality and Satisfaction Study of Household Registration Offices in Communities of The Kaohsiung County

Lin, Chiang-Hung

06 July 2007

The globalization and frequent contact with other nations not only change the private enteritis but also the governments. Government offices related to the public service are seeking ways to improve their efficiency and quality of service in order to boost the competitive advantage of the country. Household Registration Offices is one of the department in the government that closely connect to people¡¦s daily life and its performance represents a part of the government performance, too. Therefore, how to improve the efficiency of administration and service quality of Household Registration Offices is one of the hottest issues currently. The goal of this paper is to investigate how to improve the service quality and satisfactions of the Household Registration Offices in communities of the Kaohsiung county area. This research is based on the survey conducted in the communities within the Kaohsiung County, Taiwan. The design of the survey employs the modified SERVQUAL measure in the PZB service quality concept model combining with 5 major aspects of the Household Registration Offices : ¡§reliability¡¨, ¡§the ability to response¡¨, ¡¨availability¡¨, ¡§assurance¡¨ and ¡§carefulness¡¨ and the other 26 attributes to measure the difference between the service quality providing to the public and the services quality expected from the communities. Moreover, we have conducted deviation analyses on the service quality awareness and satisfaction of the Household Registration Offices according to the population variables in the communities. The analyses include statistic analyses such as description analysis, T test and ANOVA. The conclusion obtained is listed as following points: 1. The expectation to the service quality of the Household Registration Offices from the communities is between important and very important. 2. The actual satisfaction of the communities reports that the service quality provided by the Household Registration Offices is above the satisfy level. 3. The analyses show that the actual service quality observed by the communities and the expected service quality is significantly different. In general, the actual service quality provided is less than the service quality expected. 4.The statistical analyses show that variables such as ¡§gender¡¨, ¡§age¡¨, ¡¨education¡¨, ¡§Household Registration Offices district¡¨ and ¡§overall satisfaction¡¨ has significant differences in the awareness of the service quality. 5. The statistical analyses show that the ¡§age¡¨, ¡§Household Registration Offices district¡¨ and ¡§overall satisfaction¡¨ variables have significant differences in the level of satisfaction. Finally, base on the conclusion of the paper, we also provide suggestions on how to improve the service quality of the Household Registration Offices and its satisfaction rate. We hope our suggestions can be served as the reference for the future studies as well as the guidelines for the government departments.

satisfaction

household registration office

service quality

communities

New similarity measures and deformation optimization comparisons for medical image registration /

So, Wai King.

January 2009

Includes bibliographical references (p. 51-54).

Spectral recomposition and multicomponent seismic image registration

Cai, Yihua, 1978-

20 July 2012

Spectral recomposition splits a seismic spectrum into Ricker components. It provides a tool for imaging and mapping temporal bed thicknesses and geologic discontinuities. I propose an application of separable, nonlinear, least-squares estimation in spectral recomposition. Employing the Gauss-Newton method, this approach estimates fundamental signal parameters such as peak frequencies and amplitudes. I applied spectral recomposition to multicomponent seismic data, which provides new perspectives of seismic attributes and multicomponent data interpretation. Correlating S-wave reflection with P -wave reflection is one of the very first steps in multicomponent data interpretation. In a given stratigraphic interval of a geologic section, registration correlates P and S-wave profiles to determine ts /tp ratios, which are equivalent to Vp /Vs ratios for vertical propagation paths. The registration process is largely driven by the availability of dipole sonic logs. However, dipole sonic logs are not as common as standard sonic logs and tend to be affected by various borehole factors. Therefore, new techniques are needed for accurate P P and P S correlation and registration. Assuming P P and P S reflection events have been correctly positioned laterally in migrated images, and the difference between P P wave image and P S wave image can be explained only by vertical transformation, I adopt a multistep approach to register PP and PS images automatically. Setting PP time as a coordinate system, I was able to squeeze P S traces accordingly while keeping the signal pattern of P S wave data. Local seismic attributes, such as the local similarity, help improve registration accuracy. / text

Spectral recomposition

Multicomponent seismic image

Registration

An Arizona Guide to Domestic Well Registration and Record-Keeping

Artiola, Janick F., Hix, Gary

05 1900

7 pp. / All Arizona wells must be registered with the ADWR. Domestic private well are not overseen or regulated by ADEQ. The well owner has the responsibility for maintaining and ownership status of the well and is also responsible for its operating performance and for checking its water quality. The purpose of this publication is to assist well owners to check the registration of their well by searching the ADWR imaged records files, and how to keep well installation and maintenance records current.

Well

Private

Domestic Institutions

Registration

Records

New Algorithms in Rigid-Body Registration and Estimation of Registration Accuracy

Hedjazi Moghari, MEHDI

28 September 2008

Rigid-body registration is an important research area with major applications in computer-assisted and image-guided surgery. In these surgeries, often the relationship between the preoperative and intraoperative images taken from a patient must be established. This relationship is computed through a registration process, which finds a set of transformation parameters that maps some point fiducials measured on a patient anatomy to a preoperative model. Due to point measurement error caused by medical measurement instruments, the estimated registration parameters are imperfect and this reduces the accuracy of the performed registrations. Medical measurement instruments often perturb the collected points from the patient anatomy by heterogeneous noise. If the noise characteristics are known, they can be incorporated in the registration algorithm in order to more reliably and accurately estimate the registration parameters and their variances. Current techniques employed in rigid-body registration are primarily based on the well-known Iterative Closest Points (ICP) algorithm. Such techniques are susceptible to the existence of noise in the data sets, and are also very sensitive to the initial alignment errors. Also, the literature offers no analytical solution on how to estimate the accuracy of the performed registrations in the presence of heterogenous noise. In an effort to alleviate these problems, we propose and validate various novel registration techniques based on the Unscented Kalman Filter (UKF) algorithm. This filter is generally employed for analyzing nonlinear systems corrupted by additive heterogenous Gaussian noise. First, we propose a new registration algorithm to fit two data sets in the presence of arbitrary Gaussian noise, when the corresponding points between the two data sets are assumed to be known. Next, we extend this algorithm to perform surface-based registration, where point correspondences are not available, but the data sets are roughly aligned. A solution to multi-body point and surface-based registration problem is then proposed based on the UKF algorithm. The outputs of the proposed UKF registration algorithms are then utilized to estimate the accuracy of the performed registration. For the first time, novel derivations are presented that can estimate the distribution of registration error at a target in the presence of an arbitrary Gaussian noise. / Thesis (Ph.D, Electrical & Computer Engineering) -- Queen's University, 2008-09-28 07:25:38.229

Registration

Maximum Likelihood

Kalman Filter

Inhomogeneous