Respiratory Motion Tracking in Magnetic Resonance Imaging with Pilot Tone Technology

Lenk, Mary Claire

20 December 2018

No description available.

Electrical Engineering

Pilot Tone

motion compensation

MRI

CMR

Bandwidth Efficiency and Power Efficiency Issues for Wireless Transmissions

Chen, Ning

31 March 2006

As wireless communication becomes an ever-more important and pervasive part of our everyday life, system capacity and quality of service issues are becoming more critical. In order to increase the system capacity and improve the quality of service, it is necessary that we pay closer attention to bandwidth and power efficiency issues. Orthogonal Frequency Division Multiplexing (OFDM) is a multicarrier modulation technique for high speed data transmission and is generally regarded as bandwidth efficient. However, OFDM signals suffer from high peak-to-average power ratios (PARs) which lead to power inefficiency in the RF portion of the transmitter. Moreover, in OFDM, the well-known pilot tone assisted modulation (PTAM) technique utilizes a number of dedicated training pilots to acquire the channel state information (CSI), resulting in somewhat reduced bandwidth efficiency. In this dissertation, we will address the above mentioned bandwidth and power efficiency issues in wireless transmissions. To avoid bandwidth efficiency loss due to dedicated training, we will first develop a superimposed training framework that can be used to track the frequency selective as well as the Doppler shift characteristics of a channel. Later on, we will propose a generalized superimposed training framework that allows improved channel estimates. To improve the power efficiency, we adopt the selected mapping (SLM) framework to reduce the PARs for both OFDM and forward link Code Division Multiple Access (CDMA). We first propose a dynamic SLM algorithm to greatly reduce the computational requirement of SLM without sacrificing its PAR reducing capability. We propose a number of blind SLM techniques for OFDM and for forward link CDMA; they require no side information and are easy to implement. Our proposed blind SLM technique for OFDM is a novel joint channel estimation and PAR reduction algorithm, for which bandwidth efficiency power efficiency - complexity - bit error rate tradeoffs are carefully considered.

Crest factor

Doubly selective

Channel estimation

Blind selected pilot tone modulation

Peak factor

Power amplifier linearization

Predistortion

Basis expansion

Power analysis

Power allocation

Equalization

Test beds

PSAM

PTAM

Pilot symbol

Pushbutton 4D Flow Imaging

Pruitt, Aaron Andrew

January 2021

No description available.

Biomedical Engineering

Medical Imaging

Cardiovascular MRI

medical imaging

CMR

phase-contrast

hemodynamics

4D flow

5D flow

self-gating

soft-gating

physiological motion

motion correction

respiratory-resolved

undersampling

compressed sensing

Bayesian

eddy currents

background phase correction

Pilot Tone

exercise stress

ferumoxytol

contrast agent

Cartesian