Modeling Radiation Transport in Biomimetic Configuration of Solar Cells for Enhanced Sunlight Capture Using the Monte Carlo Method

Verma, Navni

15 September 2014

No description available.

Mechanical Engineering

sunlight capture

solar energy

solar tree

photovoltaic

Monte Carlo simulation

computational modeling

Analysis of Methods for Estimating Water Demand in Buildings

Omaghomi, Toritseju O.

13 October 2014

No description available.

Environmental Engineering

Water demand

Peak water demand estimation

Monte Carlo simulation

Probability

Hunters curve

Wistorts method

Modeling Path Dependent Derivatives Using CUDA Parallel Platform

Sterle, Lance

21 September 2017

No description available.

Mathematics

Finance

Parallel Computing

Derivatives Pricing

Stochastic Calculus

Monte Carlo Simulation

Evaluation of Large Area Polycrystalline CdTe Detector for Diagnostic X-ray Imaging

Jin, Xiance

January 2011

No description available.

Medical Imaging

polycrystalline CdTe

diagnostic x-ray imaging

DQE

Monte Carlo simulation

TASMIP

SIMULATION-BASED TOLERANCE STACKUP ANALYSIS IN MACHINING

MUSA, RAMI ADNAN

02 September 2003

No description available.

tolerance stackup

setup planning

process planning

Monte Carlo simulation

worst case tolerance stackup

ANALYSIS OF HIGH-FREQUENCY CHARACTERISTICS OF PLANAR COLD CATHODES

KRISHNAN, RAJESH

02 September 2003

No description available.

negative electron affinity

shot noise effect

cold cathode

AC equivalent circuit

Monte Carlo simulation

Probability modeling of industrial situations using transform techniques

Hu, Xiaohong

January 1995

No description available.

Engineering, Industrial

Probability Modeling Techniques

Polygon Approximation Algorithms

Three Essays on Application of Optimization Modeling and Monte Carlo Simulation to Consumer Demand and Carbon Sequestration

Kim, Yoon Hyung

02 September 2010

No description available.

Economics

Monte Carlo Simulation

Biofuel policy

Indirect land use effects

Forest carbon sequestration

DEVELOPMENT OF A MONTE CARLO SIMULATION TOOL FOR LIGHT TRANSPORT INSIDE SCINTILLATION CRYSTALS

Yang, Xin

10 1900

<p>The scintillation crystal is a critical component in positron emission tomography (PET) systems. It impacts a number of PET system performance parameters, including spatial, energy, and time resolution. Our goal is to develop a new simulation tool to achieve improved accuracy by addressing several limitations in the existing packages, including more advanced surface treatments, temporal dependency of photon arrival, and rigorous experimental validations. The comparison of preliminary Monte Carlo simulation results and analytical calculations for specular reflection suggest that the simulation model is working well. The time-resolved light output was studied for various crystal surface treatment configurations. The measured energy resolutions are in the range of approximately 10% to 15%, which are in good agreement with published literatures. Based on the simulation and experimental results, the polished surface treatment, used together with an external specular reflector, is able to provide the best energy resolution and timing resolution for a LYSO (3x3x20 mm³) and SiPM assembly we tested. The AsCut surface with external diffusion reflector is not desired due to its inferior energy and timing resolutions. The direction and recommendation of improvements of simulation regarding surface models and wavelength dependency, as well as potential optimization of experiment such as timing pickoff methods, are discussed.</p> / Master of Science (MSc)

positron emission tomography

Monte Carlo simulation

Scintillation Crystals

Optics

Medical Biophysics

Medical Biophysics

Performance optimization of a PET insert for simultaneous breast PET/MR imaging

Liang, Yicheng

10 1900

<p>Our group aims to develop a dedicated PET/MR system for breast cancer imaging. In order to evaluate and optimize the performance of the PET component, Monte Carlo simulation was made to help us choose the configuration parameters for hardware design. A resolution modeling method was also proposed and implemented on the GPU device to not only improve the spatial resolution of the reconstructed images but also accelerate the reconstruction speed. The PET component is configured with a ring shape composed of LYSO+SiPM detectors. Such design is compatible to MRI, and feasible for time of flight PET. Several aspects are included to be investigated in the simulation which are geometry configuration, counting performance and image quality. From the simulation result, the system configured using 2x2x20mm3 LYSO crystal with two DOI layers and 3 detector rings results in 6.2% photon sensitivity. The Noise equivalent count rate is improved with better time resolution, the peak NEC is found to be 7886 cps with 250 ps time resolution. The system is able to achieve 2.0 mm spatial resolution which is found to be more uniform with the addition of DOI layers. With the help of TOF, the lesion is visualizable with shorter scan time than the non-TOF system. The resolution modeling method is based on the coincidence detection response function modeling and multiray projection. It is found to improve the spatial resolution uniformity and contrast recovery. At the same time it reduces the position offset and background noise. The speed and accuracy improvement for this model is also discussed.</p> / Master of Science (MSc)

PET

Monte Carlo simulation

image reconstruction

resolution modeling

performance optimization

Biological Engineering

Other Physics

Biological Engineering