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% !TeX program = xelatex
% !TeX encoding = utf8
% !TeX root = Fading.tex
% vim: set ts=2 sw=2 noet:
\documentclass[
% show when a line is too long (drafting)
overfullrule,
% page size and margins
paper = a4, twoside, openright, BCOR = 5mm,
headinclude, footexclude,
% font size
fontsize = 11pt,
% style of empty pages (after chapters)
cleardoublepage = empty,
% extra sections
titlepage, abstract = on,
% header and footers
automark,
]{scrreprt}
%% Language configuration
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% Use a different font for german
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%% Custom packages
\usepackage{tex/docmacros}
\usepackage[draft]{tex/docstyle}
%% Pretty figures
\usepackage{circuitikz} % Electric diagrams
\usepackage{pgfplots} % Pretty plots
\usepackage{tikz} % Pretty drawings
\usepackage{tikz-3dplot} % More dimensions!
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\usepackage{graphicx} % Include pictures
\usepackage{subcaption} % Subfigures
%% Placeholders
\usepackage{skeldoc}
%% Nicer tables
\usepackage{tabularx}
\usepackage{booktabs}
%% Writing units
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% this one is for siunitx v3, debian and older systems
% still have only siunitx v2 installed
% \sisetup{uncertainty-mode = separate}
\sisetup{separate-uncertainty}
%% List of acronyms
% \usepackage{acronym}
%% Load bibliography
\addbibresource{Fading.bib}
%% Recompute page margins
\KOMAoptions{DIV=default}
%% Metadata
\title{Multipath Fading Demonstration Platform using Software Defined Radio}
\author{Naoki Sean Pross \and Sara Cinzia Halter}
\date{Fall semester 2021}
\begin{document}
\hypersetup{pageanchor = false}
%% TODO: create a proper titlepage
\maketitle
% \include{tex/titlepage}
\begin{abstract}
%% TODO: write abstract
\skelpar
\end{abstract}
\cleardoublepage
\pagenumbering{roman}
\setcounter{page}{1}
\tableofcontents
\cleardoublepage
%% TODO: move in a separate file
\chapter*{List of symbols}
\noindent %
\begin{tabularx}{\linewidth}{>{\(}c<{\)} X}
\toprule
% \textbf{Notation} & \bfseries Description \\
% \midrule
\multicolumn{2}{l}{\itshape Mathematics} \\
\vec{v},\, \vec{m} & Vector quantity \\
\phi^* & Complex conjugate of \(\phi\) \\
\midrule
\multicolumn{2}{l}{\itshape Physical quantities} \\
t & Time \\
T & Period \\
\tau & Convolution time \\
f & Frequency in Hz \\
\omega & Frequency in radians per second \\
\Omega & Digital frequency in radians per sample \\
\midrule
\multicolumn{2}{l}{\itshape Modulation schemes} \\
n(t) & Additive white Gaussian noise (AWGN) \\
f(t) & Multiplicative fading noise \\
p(t) & Pulse function \\
m(n) & Message samples \\
m(t) & Message waveform \\
\phi(t) & Carrier signal \\
s(t) & Signal waveform \\
s(n) & Signal samples \\
r(t) & Received signal \\
r(m) & Received samples \\
\midrule
\multicolumn{2}{l}{\itshape Channel modelling} \\
h(t) & LTI impluse response, \(h(\tau, t\) for the LTV IR \\
h(m) & LTI discrete time impulse response, \(h_l(m)\) for the LTV discrete time IR \\
H(f) & LTI Frequency response, \(H(f, t)\) for the LTV frequency response \\
c_k & Tap attenuation \\
\tau_k & Tap delay \\
T_d & Delay spread \\
B_c & Coherence bandwidth \\
R_{xy} & Correlation between \(x\) and \(y\) \\
\bottomrule
\end{tabularx}
\chapter*{List of Acronyms}
\noindent
\begin{tabularx}{\linewidth}{l X}
\toprule
\bfseries Acronym & \bfseries Description \\
\midrule
API & Application Programming Interface \\
AWGN & Additive White Gaussian Noise \\
BER & Bit Error Rate \\
CAZAC & Constant Amplitude Zero Autocorrelation Waveform \\
CIR & Channel Impulse Response \\
CMA & Constant Modulus Adaptive filter \\
DPG & Dear PyGUI \\
ETSI & European Telecommunication Standards Insitite \\
FIR & Finite Impulse Response \\
GR & GNU Radio \\
GRC & GNU Radio Companion \\
GSM & Global System for Mobile communication \\
IMGUI & Immediate Graphical User Interface \\
IP & Internet Protocol \\
IR & Impulse Response \\
IoT & Internet of Things \\
LMS-DD & Least Mean Square Decision-Directed equalizer \\
LOS & Line of Sight \\
LTI & Linear Time Invariant \\
LTV & Linear Time-Varying \\
MSB & Most Significant Bit \\
NLOS & No Line Of Sight \\
PDP & Power Delay Profile \\
PSK & Phase Shift Keying \\
QAM & Quadrature Amplitude \\
QPSK & Quadrature Phase Shift Keying \\
SDR & Software Defined radio \\
UDP & User Datagram Protocol \\
US & Uncorrelated Scattering \\
WSS & Wide Sense Stationary \\
WSSUS & Wide Sense Stationary Uncorrelated Scaterring \\
\bottomrule
\end{tabularx}
\cleardoublepage
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\setcounter{page}{1}
\pagestyle{scrheadings}
\include{chapters/introduction}
\include{chapters/theory}
\include{chapters/implementation}
\include{chapters/conclusions}
%% TODO: remove in final version
\printskelnotes
\printbibliography
\end{document}
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