latex: Match with Overleaf current work

latex/frontmatter/notations.tex

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+% --- Glossary Definitions ---
+% Note: Descriptions are based on the provided Indonesian text but translated to English
+% for typical glossary conventions. You can adjust the language as needed.
+
+\newglossaryentry{not:signal}{
+    name={\ensuremath{S}},
+    description={vektor sinyal akselerometer berdimensi 1$\times$262144},
+    sort={s},
+    type=notation,
+}
+
+\newglossaryentry{not:sampling_freq}{
+    name={\ensuremath{f_s}},
+    description={frekuensi dengan nilai \textit{sampling} ($s$) di mana sinyal kontinu didigitalkan},
+    sort={fs},
+    type=notation,
+}
+
+\newglossaryentry{not:time_length}{
+    name={\ensuremath{t}},
+    description={panjang waktu data dalam detik},
+    sort={t},
+    type=notation,
+}
+
+\newglossaryentry{not:dataset_A}{
+    name={\ensuremath{\mathcal{A}}},
+    description={matriks dataset A},
+    sort={adataset},
+    type=notation,
+}
+
+\newglossaryentry{not:dataset_B}{
+    name={\ensuremath{\mathcal{B}}},
+    description={matriks dataset B},
+    sort={bdataset},
+    type=notation,
+}
+
+\newglossaryentry{not:damage_file}{
+    name={\ensuremath{\mathbf{D}}},
+    description={matriks akselerometer untuk setiap berkas dengan bentuk $262144\times30$},
+    sort={filedamage},
+    type=notation,
+}
+\newglossaryentry{not:joint_index}{
+    name={\ensuremath{n}},
+    description={indeks atau nomor kerusakan \textit{joint}},
+    sort={indexjoint},
+    type=notation,
+}
+\newglossaryentry{not:damage_file_set_case}{
+    name={\ensuremath{\mathbf{d}}},
+    description={set matriks kerusakan},
+    sort={damagefilesetcase},
+    type=notation,
+}
+
+\newglossaryentry{not:k}{
+  name={$k$},
+  description={Index for measurement nodes, an integer ranging from 0 to 29.},
+  sort={k},
+  type=notation,
+}
+
+\newglossaryentry{not:Fk}{
+  name={$F_{k}$},
+  description={Filename string for the raw time-domain signal from node $k$. The specific format mentioned is \texttt{zzzAD}$k$\texttt{.TXT}.},
+  sort={Fk},
+  type=notation,
+}
+
+\newglossaryentry{not:nkFk}{
+  name={$n_{k}^{F_{k}}$},
+  description={Represents the measurement \textit{node} with index $k$. The raw time-domain signal data from this node, $x_k$, has a length of $L=262144$ samples.},
+  sort={nkFk},
+  type=notation,
+}
+
+\newglossaryentry{not:i}{
+  name={$i$},
+  description={Index for ``damage-case'' folders, an integer ranging from 0 to 5.},
+  sort={i},
+  type=notation,
+}
+
+\newglossaryentry{not:di}{
+  name={$d_{i}$},
+  description={Set representing the $i$-th damage scenario, containing data from five consecutive nodes: $\bigl\{\,n_{5i}^{F_{5i}},\;n_{5i+1}^{F_{5i+1}},\;\dots,\;n_{5i+4}^{F_{5i+4}}\bigr\}$. Cardinality: $|d_i|=5$ nodes.},
+  sort={di},
+  type=notation,
+}
+
+\newglossaryentry{not:diTD}{
+  name={$d_{i}^{\mathrm{TD}}$},
+  description={Time-domain subset of nodes from damage case $d_i$, containing only the first and last nodes: $\bigl\{\,n_{5i}^{F_{5i}},\;n_{5i+4}^{F_{5i+4}}\bigr\}$. Cardinality: $|d_{i}^{\mathrm{TD}}| = 2$ nodes.},
+  sort={diTD},
+  type=notation,
+}
+
+\newglossaryentry{not:calT}{
+  name={$\mathcal{T}$},
+  description={Short-Time Fourier Transform (STFT) operator. It maps a raw time-domain signal $n_k^{F_k}$ (or $x_k$) from $\mathbb{R}^{L}$ (with $L=262144$) to a magnitude spectrogram matrix $\widetilde{n}_k^{F_k}$ in $\mathbb{R}^{513 \times 513}$.},
+  sort={Tcal},
+  type=notation,
+}
+
+\newglossaryentry{not:L}{
+  name={$L$},
+  description={Length of the raw time-domain signal, $L=262144$ samples.},
+  sort={L},
+  type=notation,
+}
+
+\newglossaryentry{not:Nw}{
+  name={$N_{w}$},
+  description={Length of the Hanning window used in the STFT, $N_{w}=1024$ samples.},
+  sort={Nw},
+  type=notation,
+}
+
+\newglossaryentry{not:Nh}{
+  name={$N_{h}$},
+  description={Hop size (or step size) used in the STFT, $N_{h}=512$ samples.},
+  sort={Nh},
+  type=notation,
+}
+
+\newglossaryentry{not:wn}{
+  name={$w[n]$},
+  description={Value of the Hanning window function at sample index $n$. The window spans $N_w$ samples.},
+  sort={wn},
+  type=notation,
+}
+
+\newglossaryentry{not:n_summation}{
+  name={$n$},
+  description={Sample index within the Hanning window and for the STFT summation, an integer ranging from $0$ to $N_w-1$.},
+  sort={n_summation},
+  type=notation,
+}
+
+\newglossaryentry{not:xkm}{
+  name={$x_k[m]$}, % Or x_k if it's treated as the whole signal vector
+  description={Represents the raw time-domain signal for node $k$. As a discrete signal, it consists of $L=262144$ samples. $x_k[m]$ would be the $m$-th sample.},
+  sort={xkm},
+  type=notation,
+}
+
+\newglossaryentry{not:Skpt}{
+  name={$S_k(p,t)$},
+  description={Complex-valued result of the STFT for node $k$ at frequency bin $p$ and time frame $t$. This is a scalar value for each $(p,t)$ pair.},
+  sort={Skpt},
+  type=notation,
+}
+
+\newglossaryentry{not:p}{
+  name={$p$},
+  description={Frequency bin index in the STFT or spectrogram, an integer ranging from $0$ to $512$.},
+  sort={p},
+  type=notation,
+}
+
+\newglossaryentry{not:t_stft}{ % Differentiating t for STFT time frame and t for feature vector time slice if necessary
+  name={$t$},
+  description={Time frame index in the STFT or spectrogram, an integer ranging from $0$ to $512$. Also used as the time slice index for extracting feature vectors $\mathbf{x}_{i,s,r,t}$ from spectrograms.},
+  sort={t},
+  type=notation,
+}
+
+\newglossaryentry{not:ntildekFk}{ % New entry for the matrix
+  name={$\widetilde{n}_k^{F_k}$},
+  description={The magnitude spectrogram matrix for node $k$, obtained by applying the STFT operator $\mathcal{T}$ to the time-domain signal $n_k^{F_k}$. This matrix is an element of $\mathbb{R}^{513 \times 513}$.},
+  sort={ntildekFk},
+  type=notation,
+}
+
+\newglossaryentry{not:ntildekFkpt}{ % Modified entry for the element
+  name={$\widetilde{n}_k^{F_k}(p,t)$},
+  description={Scalar value representing the magnitude of the STFT for node $k$ at frequency bin $p$ and time frame $t$; specifically, $\widetilde{n}_k^{F_k}(p,t) = |S_k(p,t)|$. This is an element of the spectrogram matrix $\widetilde{n}_k^{F_k}$.},
+  sort={ntildekFkpt},
+  type=notation,
+}
+
+\newglossaryentry{not:R}{
+  name={$\mathbb{R}$},
+  description={The set of real numbers. Used to denote vector spaces like $\mathbb{R}^{N}$ (N-dimensional real vectors) or $\mathbb{R}^{M \times N}$ (M-by-N real matrices).},
+  sort={Rbb},
+  type=notation,
+}
+
+\newglossaryentry{not:diFD}{
+  name={$d_{i}^{\mathrm{FD}}$},
+  description={Frequency-domain subset for damage case $i$. It contains two spectrogram matrices: $\bigl\{\,\widetilde{n}_{5i}^{F_{5i}},\; \widetilde{n}_{5i+4}^{F_{5i+4}}\,\bigr\}$, where each spectrogram $\widetilde{n}$ is in $\mathbb{R}^{513 \times 513}$. Cardinality: $|d_{i}^{\mathrm{FD}}| = 2$ spectrograms.},
+  sort={diFD},
+  type=notation,
+}
+
+\newglossaryentry{not:r_repetition}{
+  name={$r$},
+  description={Repetition index within a single damage case, an integer ranging from $0$ to $4$.},
+  sort={r_repetition},
+  type=notation,
+}
+
+\newglossaryentry{not:xboldisr}{
+  name={$\mathbf{x}_{i,s,r,t}$},
+  description={Feature vector (a row or column, often referred to as a time slice) taken from the $r$-th spectrogram repetition, for damage case $i$ and sensor side $s$, at time slice $t$. This vector is an element of $\mathbb{R}^{513}$.},
+  sort={xisrt_bold},
+  type=notation,
+}
+
+\newglossaryentry{not:s_sensor}{
+  name={$s$},
+  description={Index representing the sensor side (e.g., identifying Sensor A or Sensor B).},
+  sort={s_sensor},
+  type=notation,
+}
+
+\newglossaryentry{not:yi}{
+  name={$y_{i}$},
+  description={Scalar label for the damage case $i$, defined as $y_i = i$. This is an integer value from 0 to 5.},
+  sort={yi},
+  type=notation,
+}
+
+\newglossaryentry{not:Lambda}{
+  name={$\Lambda(i,s,r,t)$},
+  description={Slicing function that concatenates a feature vector $\mathbf{x}_{i,s,r,t} \in \mathbb{R}^{513}$ with its corresponding damage case label $y_i \in \mathbb{R}$, resulting in a combined vector $\bigl[\,\mathbf{x}_{i,s,r,t}, \;y_{i}\bigr] \in \mathbb{R}^{514}$.},
+  sort={Lambda},
+  type=notation,
+}
+
+\newglossaryentry{not:calDs}{
+  name={$\mathcal{D}^{(s)}$},
+  description={The complete dataset for sensor side $s$. It is a collection of $15390$ data points, where each point is a vector in $\mathbb{R}^{514}$ (513 features + 1 label). Thus, the dataset can be viewed as a matrix of size $15390 \times 514$.},
+  sort={Dcal_s},
+  type=notation,
+}
+
+% --- End Glossary Definitions ---