Optimization of image quality through online motion correction

Similar documents

High-accuracy ultrasound target localization for hand-eye calibration between optical tracking systems and three-dimensional ultrasound

Tracking Systems. Kevin Cleary, PhD

Differentiation of 3D scanners and their positioning method when applied to pipeline integrity

A Three-Dimensional Correlation Method for Registration of Medical Images in Radiology

MODELING AND IMPLEMENTATION OF THE MECHANICAL SYSTEM AND CONTROL OF A CT WITH LOW ENERGY PROTON BEAM

QUANTITATIVE IMAGING IN MULTICENTER CLINICAL TRIALS: PET

CT RADIATION DOSE REPORT FROM DICOM. Frank Dong, PhD, DABR Diagnostic Physicist Imaging Institute Cleveland Clinic Foundation Cleveland, OH

GOM Optical Measuring Techniques. Deformation Systems and Applications

Automated Pose Determination for Unrestrained, Non-anesthetized Small Animal Micro-SPECT and Micro-CT Imaging

Laue lens for Nuclear Medicine

kv-& MV-CBCT Imaging for Daily Localization: Commissioning, QA, Clinical Use, & Limitations

T-REDSPEED White paper

FOR IMMEDIATE RELEASE

1. INTRODUCTION Graphics 2

Quantitative Imaging In Clinical Trials Using PET/CT: Update

4D Scanning. Image Guided Radiation Therapy. Outline. A Simplified View of the RT Process. Outline. Steve B. Jiang, Ph.D.

ZEISS T-SCAN Automated / COMET Automated 3D Digitizing - Laserscanning / Fringe Projection Automated solutions for efficient 3D data capture

How To Improve Your Ct Image Quality

3D SCANNING: A NEW APPROACH TOWARDS MODEL DEVELOPMENT IN ADVANCED MANUFACTURING SYSTEM

High speed 3D capture for Configuration Management DOE SBIR Phase II Paul Banks

Purchasing a cardiac CT scanner: What the radiologist needs to know

Pipeline External Corrosion Analysis Using a 3D Laser Scanner

Moving Forward What does this mean for the Medical Physicist and the Imaging Community?

Image Analysis for Volumetric Industrial Inspection and Interaction

GE Healthcare. pet/ct for simulation. Precision in motion.

3D Scanner using Line Laser. 1. Introduction. 2. Theory

Data. microcat +SPECT

Optical Digitizing by ATOS for Press Parts and Tools

Introduction to Computers, Anatomy of Computers, Input and Output Devices

Prepublication Requirements

Automotive Applications of 3D Laser Scanning Introduction

Integration Services

Overview. Creation of 3D printed phantoms for clinical radiation therapy 7/7/2015. Eric Ehler, PhD Assistant Professor University of Minnesota

3D MODELING OF LARGE AND COMPLEX SITE USING MULTI-SENSOR INTEGRATION AND MULTI-RESOLUTION DATA

POLARIS OPTICAL TRACKING SYSTEMS

Rapid Modeling für bildgestützte Interventionen Prof. Dr.-Ing. Stefan Weber

Performance Comparison of Four Commercial GE Discovery PET/CT Scanners: A Monte Carlo Study Using GATE

Spiral CT: Single and Multiple Detector Systems. AAPM Refresher Course Nashville, TN July 28,1999

DAMAGED ROAD TUNNEL LASER SCANNER SURVEY

GEOScaN Remote Data Acquisition for Hydrographic, Topographic and GIS Surveying

STATE OF THE ART OF THE METHODS FOR STATIC 3D SCANNING OF PARTIAL OR FULL HUMAN BODY

International Year of Light 2015 Tech-Talks BREGENZ: Mehmet Arik Well-Being in Office Applications Light Measurement & Quality Parameters

Cone Beam Reconstruction Jiang Hsieh, Ph.D.

Cardius. XPO Series. Cardius 3 XPO

Performance testing for Precision 500D Classical R/F System

Two years ANR Post Doctorate fellowship Mathematics and Numerics of Dynamic Cone Beam CT and ROI Reconstructions

Manufacturing Process and Cost Estimation through Process Detection by Applying Image Processing Technique

Realization of a UV fisheye hyperspectral camera

Autonomous Mobile Robot-I

3D Vision An enabling Technology for Advanced Driver Assistance and Autonomous Offroad Driving

HIGH-PERFORMANCE INSPECTION VEHICLE FOR RAILWAYS AND TUNNEL LININGS. HIGH-PERFORMANCE INSPECTION VEHICLE FOR RAILWAY AND ROAD TUNNEL LININGS.

Determining the Roughness Angles of Surfaces Using Laser Scanners

Synthetic Sensing: Proximity / Distance Sensors

Robot Perception Continued

Auto Head-Up Displays: View-Through for Drivers

Sensori ottici e laser nelle applicazioni industriali

VENETOREGION ROAD NETWORK ROAD MAPPING LASER SCANNING FACILITY MANAGEMENT

I-Max Touch Range. PAN / CEPH / 3D digital panoramic unit. Evolutive 3 in 1 panoramic unit

Using angular speed measurement with Hall effect sensors to observe grinding operation with flexible robot.

Use of 3D Printers in Proton Therapy

microscope OP-Dent-5

Shape Measurement of a Sewer Pipe. Using a Mobile Robot with Computer Vision

Diagnostic Exposure Tracking in the Medical Record

3D/4D acquisition. 3D acquisition taxonomy Computer Vision. Computer Vision. 3D acquisition methods. passive. active.

THE CONTROL OF A ROBOT END-EFFECTOR USING PHOTOGRAMMETRY

Tube Control Measurement, Sorting Modular System for Glass Tube

Design and Scheduling of Proton Therapy Treatment Centers

APPLICATION OF CLOSE RANGE PHOTOGRAMMETRY IN CRIME SCENE INVESTIGATION (C.S.I.) MAPPING USING IWITNESS AND CRIME ZONE SOFTWARE

Global Business Unit Address. Siemens Medical Solutions USA, Inc N. Barrington Road Hoffman Estates, IL Telephone:

Dense Matching Methods for 3D Scene Reconstruction from Wide Baseline Images

advancing magnetic resonance imaging and medical data analysis

Tumor. An Brief Introduction to 4D CT Scanning. Outline. Three Types of Motion Artifacts. CT Artifacts in Free Breathing 3D Scan

Micro-CT for SEM Non-destructive Measurement and Volume Visualization of Specimens Internal Microstructure in SEM Micro-CT Innovation with Integrity

Description of field acquisition of LIDAR point clouds and photos. CyberMapping Lab UT-Dallas

Two hours UNIVERSITY OF MANCHESTER SCHOOL OF COMPUTER SCIENCE. M.Sc. in Advanced Computer Science. Friday 18 th January 2008.

Wii Remote Calibration Using the Sensor Bar

ROV Data Collection Results

Rb 82 Cardiac PET Scanning Protocols and Dosimetry. Deborah Tout Nuclear Medicine Department Central Manchester University Hospitals

Stunning sound and revolutionary intelligence to analyze and correct the problems in any room.

3D Laser Scanning Technology. Rugged hardware and powerful software combined with streamlined survey workflow

Application Example: Automotive Testing: Optical 3D Metrology improves Safety and Comfort

From Pixel to Info-Cloud News at Leica Geosystems JACIE Denver, 31 March 2011 Ruedi Wagner Hexagon Geosystems, Geospatial Solutions Division.

SCREENING TELEDIAGNOSTICS OF SPINAL DEFORMITIES BASED ON OPTICAL 3D SHAPE MEASUREMENT SYSTEM AND AUTOMATED DATA ANALYSIS PRELIMINARY REPORT

Hunting Bats. Diagnostic Ultrasound. Ultrasound Real-time modality

The process components and related data characteristics addressed in this document are:

M D Anderson Cancer Center Orlando TomoTherapy s Implementation of Image-guided Adaptive Radiation Therapy

3D TOPOGRAPHY & IMAGE OVERLAY OF PRINTED CIRCUIT BOARD ASSEMBLY

Transcription:

Advanced imaging technologies a revolution in diagnosis and treatment Optimization of image quality through online motion correction Oline Vinter Olesen December 10, 2010 Medical Solutions, Siemens Institute of Informatics and Mathematical Modeling, Technical University of Denmark Dept. of Clinical & Physiology and Nuclear Medicine & PET and Cyclotron Unit, Rigshospitalet Supervisors Professor, PhD, Rasmus Larsen, DTU Associate professor, PhD, Rasmus R. Paulsen, DTU Head of Simens Healthcare, Bjarne Roed, SIEMENS Head of Department, Professor, dr. med, Liselotte Højgaard, RH

Advanced imaging technologies a revolution in diagnosis and treatment Outline Patient motions induced image degeneration Motion compensation in PET brain imaging New motion tracking approach A phantom study Appetizer

Conventional PET Annihilation Modificeret fra Bailey et al., 2005 Detection Domino portræt, Ken Knowlton.

High Resolution Scanners HRRT PET scanner Octogonal geometry 2 layers of crystals 120.000 crystals Spatial resolution down to 1.4 mm

Problem Head motions end up counteracting the technological advances of high resolution scanners High Resolution Research Tomograph (HRRT), Siemens Conventional clinical PET scanner, GE Advance

Image degeneration Worst case scenario from Amsterdam, Marc C. Huisman et al. IEEE MIC 2010 Motion increases Simulation study from Manchester, J. M. Anton Rodriguez et al. IEEE MIC 2010

Something has to be done! An 15 O water study An 15 O water study

Solution! Increasingly expectations Decreasing resources Smart and effektive solutions Low cost & Time saving

State of the art: Motion tracking in PET

Serious Problems 1. Fixation of the tool 2. Stability of the system 3. Registration of the tool 4. Time consuming

New Tracking Approach Aims Design a tracking system with the following requirements: Stability No markers Sub millimeter precision Comfortable Matches the scanner geometry No interference with the PET acquisition Automatic Future perspective Having a system that can be: build into future scanners used for other applications (e.g. other image modalities and the radiation therapy)

Structured Light System System: One miniaturized DLP projector and two BW CCD cameras Capturing: 15 fps captured with two cameras tracking with 3 4 Hz

Stereo Vision System

Tracking Principle 1. Image capture (Three cosine patterns) 2. Reconstruction of 3D point clouds (Phase shifting interferometry) 3. Alignment of point clouds to triangulated reference target (Specialized ICP alg.) 4. Reference target is pre generated (Markov Random Field surface recon) Output: Rigid transformations with 6 degrees of freedom 5. Compute the rigid body transformation (Close form solution)

Comparison Experiment with the Polaris Vicra Simultaneous image capture and Polaris tracking Controlled movements in steps of 5 o from 15 o to 15 o Images were captured while the head was stationary O. V. Olesen, R. Paulsen, L. Højgaard, B. Roed, and R.Larsen, Motion tracking in narrow spaces: A structured light approach, Medical Image Computing and Computer Assisted Intervention (MICCAI), 2010, p. 253 260

Tracking Experiments Scans from the left camera at the seven positions 1. Surface of reference scan was reconstructed (0 degrees) 2. The other scans were aligned to the reference scan using ICP 3. The angles of rotations were estimated and compared with the results Position at 15 0 of Polaris and the performed motions Alignment of scan at 15 0 into the reference surface Paulsen, R., Bærentzen, J., Larsen, R.: Markov Random Field Surface Reconstruction, IEEE TVCG, 2009

Results Angle of rotation Absolute error RMSE SL = 0.11 o RMSE POL = 0.08 o Similar accuracy of the two systems 10 cm fra rotationsaksen svarer 0,1 o til 0,2 mm

NIR Structured Light System NIR light source & human scans

Advanced imaging technologies a revolution in diagnosis and treatment There are relevant motions to correct for in PET brain imaging A new tracking approach was presented designed for the HRRT PET scanner; a miniaturized structured light system A study comparing our system with a commercial system. The performed motions showed similar accuracy of the two systems Oline Vinter Olesen ovol@imm.dtu.dk

Advanced imaging technologies a revolution in diagnosis and treatment There are relevant motions to correct for in PET brain imaging A new tracking approach was presented designed for the HRRT PET scanner; a miniaturized structured light system A study comparing our system with a commercial system. The performed motions showed similar accuracy of the two systems Oline Vinter Olesen ovol@imm.dtu.dk