diff options
Diffstat (limited to 'doc')
-rw-r--r-- | doc/thesis/Fading.tex | 81 |
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} |