Search Books
Air Pollution Control Equip… Broken Arrow Of Time: Rethi…

Signal Processing in Magnetic Resonance Spectroscopy with Biomedical Applications

Author Dzevad Belkic, Karen Belkic
Publisher CRC Press
Category Science
📄 Viewing lite version Full site ›
🌎 Shop on Amazon — choose country
159.95 USD
🛒 Buy New on Amazon 🇺🇸 🏷 Buy Used — $89.94

✓ Usually ships in 24 hours

Share:
Book Details
PublisherCRC Press
ISBN / ASIN1439806446
ISBN-139781439806449
AvailabilityUsually ships in 24 hours
Sales Rank4,856,796
CategoryScience
MarketplaceUnited States 🇺🇸

Description

Uses the FPT to Solve the Quantification Problem in MRS
An invaluable tool in non-invasive clinical oncology diagnostics

Addressing the critical need in clinical oncology for robust and stable signal processing in magnetic resonance spectroscopy (MRS), Signal Processing in Magnetic Resonance Spectroscopy with Biomedical Applications explores cutting-edge theory-based innovations for obtaining reliable quantitative information from MR signals for cancer diagnostics. By defining the natural framework of signal processing using the well-established theory of quantum physics, the book illustrates how advances in signal processing can optimize MRS.

The authors employ the fast Padé transform (FPT) as the unique polynomial quotient for the spectral analysis of MR time signals. They prove that residual spectra are necessary but not sufficient criteria to estimate the error invoked in quantification. Instead, they provide a more comprehensive strategy that monitors constancy of spectral parameters as one of the most reliable signatures of stability and robustness of quantification. The authors also use Froissart doublets to unequivocally distinguish between genuine and spurious resonances in both noise-free and noise-corrupted time signals, enabling the exact reconstruction of all the genuine spectral parameters. They show how the FPT resolves and quantifies tightly overlapped resonances that are abundantly seen in MR spectra generated using data from encoded time signals from the brain, breast, ovary, and prostate.

Written by a mathematical physicist and a clinical scientist, this book captures the multidisciplinary nature of biomedicine. It examines the remarkable ability of the FPT to unambiguously quantify isolated, tightly overlapped, and nearly confluent resonances.

Low and High Dielectric Constant Materials and Their A…
View
From Biology to Sociopolitics: Conceptual Continuity i…
View
Reviews of Plasma Chemistry: Volume 2
View
Application of Short-Term Bioassays in the Fractionati…
View
The Molecular Immunology of Complex Carbohydrates - 2 …
View
Structure, Function and Biogenesis of Energy Transfer …
View
The Interacting Boson Model (Cambridge Monographs on M…
View
Heavy Quark Physics (Cambridge Monographs on Particle …
View
An Introduction to Theoretical Chemistry
View