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add parameter table

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Motiejus Jakštys 2021-05-03 15:14:06 +03:00
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30
IV/bib.bib
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@ -182,3 +182,33 @@
issn={1436-5081},
doi={10.1007/BF01742852},
}
@online{mappingunits,
author={Aileen Buckley},
title={Guidelines for minimum size for text and symbols on maps},
year={2008},
month={1},
day={16},
url={https://www.esri.com/arcgis-blog/products/product/mapping/guidelines-for-minimum-size-for-text-and-symbols-on-maps/},
organization={Esri},
urldate={2021-05-03},
}
@online{cartoucheMinimalDimensions,
author={CartouCHe},
title={Cartographic Design for Screen Maps},
subtitle={Minimum Dimensions},
year={2012},
month={1},
day={26},
url={http://www.e-cartouche.ch/content_reg/cartouche/cartdesign/en/html/GenRules_learningObject3.html},
organization={CartouCHe},
urldate={2021-05-03},
}
@online{epsg3857,
author={MapTiler Team},
title={WGS 84 / Pseudo-Mercator},
url={https://epsg.io/3857},
urldate={2021-05-03},
}

62
IV/mj-msc.tex
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@ -16,6 +16,7 @@
\usepackage[toc,page,title]{appendix}
\usepackage{caption}
\usepackage{subcaption}
\usepackage{dcolumn}
\usepackage{gensymb}
\usepackage{units}
\usepackage{varwidth}
@ -545,6 +546,66 @@ NOTE: explain how different river segments are merged into a single line. This
is not explained in the {\WM} paper, but is a necessary prerequisite. This is
implemented in \texttt{aggregate-rivers.sql}.
\subsection{Bend scaling and dimensions}
\label{sec:bend-scaling-and-dimensions}
{\WM} accepts a single input parameter: the diameter of a half-circle. If the
bend's adjusted size (explained in detail in
section~\onpage{sec:shape-of-a-bend}) is greater than the area of the
half-circle, then the bend will be left untouched. If the bend's adjusted size
is smaller than the area of the provided half-circle, the bend will be
simplified: either exaggerated, combined or eliminated.
The half-circle's diameter depends on the desired scale of the target map: it
should be small enough to retain small but visible bends,
The extent of line simplification depends on the desired target scale.
Simplification should be more aggressive for smaller target scales, and
less aggressive for larger scales. This section goes through the process
of finding the correct variable to {\WM} algorithm.
What is the minimal, but still eligible figure that can should be displayed on
the map?
According to \titlecite{cartoucheMinimalDimensions}, the map is typically held
at a distance of 30cm. Recommended minimum symbol size given viewing distance
of 45cm (1.5 feet) is 1.5mm, as analyzed in \titlecite{mappingunits}.
In our case, our target is line bend, rather than a symbol. Assume 1.5mm is a
diameter of the bend. A semi-circle of 1.5mm diameter is depicted in
figure~\ref{fig:half-circle}. In other words, a bend of this size or larger,
when adjusted to scale, will not be generalized.
\begin{figure}[h]
\centering
\begin{tikzpicture}[x=1mm,y=1mm]
\draw[] (-10, 0) -- (-.75,0) arc (225:-45:.75) -- (10, 0);
\end{tikzpicture}
\caption{Smallest feature that will be not generalized.}
\label{fig:half-circle}
\end{figure}
{\WM} algorithm does not have a notion of scale, but it does have a notion of
distance. Assuming measurement units in projected coordinate system are meters
(for example, \titlecite{epsg3857}), conversion is depicted in
table~\ref{table:scale-halfcirlce-diameter}.
\newcolumntype{d}[1]{D{.}{.}{#1} }
\begin{table}[h]
\centering
\begin{tabular}{|c @{:}l | D{.}{.}{1} |}
\hline
\multicolumn{2}{|c|}{Scale} & \multicolumn{1}{c|}{Diameter (m)} \\ \hline
1 & 10000 & 15 \\ \hline
1 & 25000 & 37.5 \\ \hline
1 & 50000 & 50 \\ \hline
1 & 250000 & 250 \\ \hline
\end{tabular}
\caption{{\WM} parameter table for popular scales.}
\label{table:scale-halfcirlce-diameter}
\end{table}
\subsection{Definition of a Bend}
\label{sec:definition-of-a-bend}
@ -754,6 +815,7 @@ Other than that, once this section is implemented, each bend will have a list
of properties, upon which actions later will be performed.
\subsection{Shape of a Bend}
\label{sec:shape-of-a-bend}
This section introduces \textsc{adjusted size}, which trivially derives from
\textsc{compactness index} $cmp$ and shape's area $A$:

2
IV/wm.sql
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@ -627,7 +627,7 @@ begin
bends = wm_detect_bends(lines[i], dbgname, gen);
bends = wm_fix_gentle_inflections(bends, dbgname, gen);
select * from wm_self_crossing(bends) into bends, mutated;
select * from wm_self_crossing(bends, dbgname, gen) into bends, mutated;
if mutated then
lines[i] = st_linemerge(st_union(bends));