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-rw-r--r--doc/thesis/Fading.tex81
1 files changed, 40 insertions, 41 deletions
diff --git a/doc/thesis/Fading.tex b/doc/thesis/Fading.tex
index 66d3432..63c4d6a 100644
--- a/doc/thesis/Fading.tex
+++ b/doc/thesis/Fading.tex
@@ -85,7 +85,7 @@
\KOMAoptions{DIV=default}
%% Metadata
-\title{Multipath fading demonstration using software defined radio}
+\title{Multipath Fading Demonstration Platform using Software Defined Radio}
\author{Naoki Sean Pross \and Sara Cinzia Halter}
\date{Fall semester 2021}
@@ -97,15 +97,15 @@
\maketitle
% \include{tex/titlepage}
- \cleardoublepage
- \pagenumbering{roman}
- \setcounter{page}{1}
-
\begin{abstract}
%% TODO: write abstract
\skelpar
\end{abstract}
+ \cleardoublepage
+ \pagenumbering{roman}
+ \setcounter{page}{1}
+
\tableofcontents
\cleardoublepage
@@ -141,12 +141,9 @@
r(m) & Received samples \\
\midrule
\multicolumn{2}{l}{\itshape Channel modelling} \\
- h(t) & LTI impluse response \\
- h(\tau, t) & LTV impluse response \\
- h(m) & LTI discrete time impulse response \\
- h_l(m) & LTV discrete time impulse response \\
- H(f) & LTI Frequency response \\
- H(f, t) & LTV Frequency response \\
+ 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 \\
@@ -154,7 +151,6 @@
R_{xy} & Correlation between \(x\) and \(y\) \\
\bottomrule
\end{tabularx}
- \cleardoublepage
\chapter*{List of Acronyms}
\noindent
@@ -162,38 +158,41 @@
\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 \\
- 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 \\
- IoT & Internet of Things \\
- 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 \\
+ 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
-
\hypersetup{pageanchor = true}
\pagenumbering{arabic}