Infrared studies on the spectra and structures of novel carbon molecules

Cárdenas, Rafael.

January 2007

Thesis (Ph. D.)--Texas Christian University, 2007. / Title from dissertation title page (viewed Dec. 10, 2007). Includes abstract. Includes bibliographical references.

Hardware Implementation of Fast Fourier Transform

Tsai, Hung-Chieh

20 July 2005

In this thesis, an FFT (Fast Fourier Transform) hardware circuit is designed for OFDM systems. A new memory table permutation deletion method, which can reduce the size of memory storing twiddle factors table, is proposed. The architecture of the FFT circuit is based on the faster split-radix algorithm with SDF (Single-path Delay Feedback) pipeline structure. The bits number of the signal is carefully selected by system simulation to meet the system requirements. Based on the simulation results, a small area FFT circuit is carried out for OFDM systems.

FPGA

Fast Fourier Transform

FFT

A Computationally Efficient 1024-Point FFT Processor with Only a Subset of Non-Zero Inputs

Wu, Jian-Shiun

26 August 2008

Fast Fourier transformation (FFT) is a powerful analytical tool with wide-ranging applications in many fields. The standard FFT algorithms inherently assume that the length of the input and output sequence are equal. In practice, it is not always an accurate assumption. In certain case only some of the inputs to the transformation function are non-zero but lot of other are zero. In this thesis, a novel architecture of a 1024-point FFT, which adopts the transform decomposition (TD) algorithm, is presented to further reduce the complexity when the non-zero input data are consecutive. To implement this FFT processor, fixed point simulation is a conducted by using MATLB. The hardware implementation is realized by using the Verilog Hardware Description Language (HDL) which is taped out in TSMC0.18 Cell-Based Library for system verification.

Fast Fourier Transform

Transform Decomposition

Fourier transform of BCC andFCC lattices for MRI applications

Svenningsson, Leo

January 2015

The Cartesian Cubic lattice is known to be sub optimal when consideringband-limited signals but is still used as standard in three-dimensional medical magneticresonance imaging. The optimal sampling lattices are the body-centered cubic latticeand the face-centered cubic lattice. This report discusses the possible use of thesesampling lattices in MRI and presents verification of the non standard Fouriertransform method that is required for MR image creation for these sampling lattices.The results show that the Fourier transform is consistent with analytical models.

Fourier transform

MRI

BCC

FCC

Fourier transform infrared spectroscopy in industrial hygiene applications : assessment of emissions from and exposures in wood processing industries /

Svedberg, Urban,

January 2004

Diss. (sammanfattning) Uppsala : Univ., 2004. / Härtill 4 uppsatser.

Ultra-compact holographic spectrometers for diffuse source spectroscopy

Hsieh, Chaoray.

January 2008

Thesis (Ph. D.)--Electrical and Computer Engineering, Georgia Institute of Technology, 2008. / Committee Chair: Adibi, Ali; Committee Member: Chang, Gee-Kung; Committee Member: Ralph, Stephen; Committee Member: Trebino, Rick; Committee Member: Verriest, Erik I.

Aufbau eines Mikrowellen-Fouriertransform-Spektrometers zur Anwendung bei der quantitativen Gasanalyse

Degen, Winfried,

January 1981

Thesis (doctoral)--Tübingen, 1981.

High resolution far infrared spectra of certain light linear three and four atomic molecules

Jolma, Kalevi.

January 1985

Thesis--University of Oulu, 1985. / Includes bibliographical references (p. [21]-22).

Wave-front reconstruction of optical disturbances using digital image processing

Fiadeiro, Paulo Torrao

January 1995

This thesis is concerned with the development of a practical digital image processing system for recording and subsequent reconstruction of the magnitude and phase of an optical wave-front arriving from a coherently illuminated object disturbance. Since the wave-fronts of concern are coherent, the magnitude and phase of such waves are generally independent functions in the sense that the knowledge of one is not sufficient to uniquely deduce the other. To uniquely reconstruct and characterize optical disturbances both the magnitude and phase are required. In general, all recording media respond only to light intensity and no difficulty is encountered in recording the intensity and therefore the magnitude, because it is the square root of the intensity.

621.3994

Fourier transform; Phase retrieval

High-resolution UV-Vis-NIR fourier transform imaging spectroscopy and its applications in biology and chemistry

Li, Jianping

01 January 2010

No description available.

Fourier transform spectroscopy

Spectroscopic imaging