In history-books you often have timeline, where events and periods are marked on a line in the correct relative distance to each other. How is it possible to create something similar in LaTeX?
10 Answers
There is a new chronology.sty by Levi Wiseman. The documentation (pdf) says:
Most timeline packages and solutions for LATEX are used to convey a lot of information and are therefore designed vertically. If you are just attempting to assign labels to dates, a more traditional timeline might be more appropriate. That's what chronology is for.
Here is some example code:
\documentclass{article}
\usepackage{chronology}
\begin{document}
\begin{chronology}[5]{1983}{2010}{3ex}[\textwidth]
\event{1984}{one}
\event[1985]{1986}{two}
\event{\decimaldate{25}{12}{2001}}{three}
\end{chronology}
\end{document}
Which produces this output:
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2It should be noted that this package appears to only support one timeline per document. At least for me, I get the error "command \c@step already defined" when I try to have more than one. Jan 15, 2012 at 17:40
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4I tried to modify the chronology.sty file in order to get a vertical timeline but didn't quite succeed. Is there a vertical version of it? Nov 20, 2012 at 9:50
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1
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2For those experiencing a "missing number" error on compiling this example, see the following question: tex.stackexchange.com/questions/233781/… (remove
{3ex}
).– badroitOct 4, 2016 at 1:00 -
2@highsciguy I succeeded with
\begin{turn}{90}
then the chonology and close with\end{turn}
– Max NMar 21, 2017 at 1:03
The tikz package seems to have what you want.
\documentclass{article}
\usepackage{tikz}
\usetikzlibrary{snakes}
\begin{document}
\begin{tikzpicture}[snake=zigzag, line before snake = 5mm, line after snake = 5mm]
% draw horizontal line
\draw (0,0) -- (2,0);
\draw[snake] (2,0) -- (4,0);
\draw (4,0) -- (5,0);
\draw[snake] (5,0) -- (7,0);
% draw vertical lines
\foreach \x in {0,1,2,4,5,7}
\draw (\x cm,3pt) -- (\x cm,-3pt);
% draw nodes
\draw (0,0) node[below=3pt] {$ 0 $} node[above=3pt] {$ $};
\draw (1,0) node[below=3pt] {$ 1 $} node[above=3pt] {$ 10 $};
\draw (2,0) node[below=3pt] {$ 2 $} node[above=3pt] {$ 20 $};
\draw (3,0) node[below=3pt] {$ $} node[above=3pt] {$ $};
\draw (4,0) node[below=3pt] {$ 5 $} node[above=3pt] {$ 50 $};
\draw (5,0) node[below=3pt] {$ 6 $} node[above=3pt] {$ 60 $};
\draw (6,0) node[below=3pt] {$ $} node[above=3pt] {$ $};
\draw (7,0) node[below=3pt] {$ n $} node[above=3pt] {$ 10n $};
\end{tikzpicture}
\end{document}
I'm not too expert with tikz, but this does give a good timeline, which looks like:
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The output looks good. The syntax is not as simple as I hoped, but I think I can create some commands to simplify the stuff. Thank you for this suggestion.– MnementhOct 21, 2008 at 11:19
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Also the package chronosys provides a nice solution. Here's an example from the user manual:
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5thanks! strange though, the guy who wrote the documentation keeps calling the timeline a "frieze" as if that is the same thing as a timeline. just putting that here in case anybody else reads the documentation. Nov 5, 2013 at 17:22
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7@JonathanKomar it's from French frise, from medieval Latin frisium. It refers to a broad horizontal band of sculpted or painted decoration, or also a horizontal paper strip.– GeorgesMar 27, 2019 at 23:03
Just an update.
The present TiKZ package will issue: Package tikz Warning: Snakes have been superseded by decorations. Please use the decoration libraries instead of the snakes library on input line. . .
So the pertaining part of code has to be changed to:
\documentclass{article}
\usepackage{tikz}
\usetikzlibrary{decorations}
\begin{document}
\begin{tikzpicture}
%draw horizontal line
\draw (0,0) -- (2,0);
\draw[decorate,decoration={snake,pre length=5mm, post length=5mm}] (2,0) -- (4,0);
\draw (4,0) -- (5,0);
\draw[decorate,decoration={snake,pre length=5mm, post length=5mm}] (5,0) -- (7,0);
%draw vertical lines
\foreach \x in {0,1,2,4,5,7}
\draw (\x cm,3pt) -- (\x cm,-3pt);
%draw nodes
\draw (0,0) node[below=3pt] {$ 0 $} node[above=3pt] {$ $};
\draw (1,0) node[below=3pt] {$ 1 $} node[above=3pt] {$ 10 $};
\draw (2,0) node[below=3pt] {$ 2 $} node[above=3pt] {$ 20 $};
\draw (3,0) node[below=3pt] {$ $} node[above=3pt] {$ $};
\draw (4,0) node[below=3pt] {$ 5 $} node[above=3pt] {$ 50 $};
\draw (5,0) node[below=3pt] {$ 6 $} node[above=3pt] {$ 60 $};
\draw (6,0) node[below=3pt] {$ $} node[above=3pt] {$ $};
\draw (7,0) node[below=3pt] {$ n $} node[above=3pt] {$ 10n $};
\end{tikzpicture}
\end{document}
HTH
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6I think this has now become:
\usetikzlibrary{decorations.pathmorphing}
. Also, do\documentclass[tikz]{standalone}
if you want a tightly cropped picture to insert in another document.– PatrickTFeb 11, 2014 at 11:38
Tim Storer wrote a more flexible and nicer looking timeline.sty
(Internet Archive Wayback Machine link, as original is gone). In addition, the line is horizontal rather than vertical. So for instance:
\begin{timeline}{2008}{2010}{50}{250}
\MonthAndYearEvent{4}{2008}{First Podcast}
\MonthAndYearEvent{7}{2008}{Private Beta}
\MonthAndYearEvent{9}{2008}{Public Beta}
\YearEvent{2009}{IPO?}
\end{timeline}
produces a timeline that looks like this:
2008 2010
· · April, 2008 First Podcast ·
· July, 2008 Private Beta
· September, 2008 Public Beta
· 2009 IPO?
Personally, I find this a more pleasing solution than the other answers. But I also find myself modifying the code to get something closer to what I think a timeline should look like. So there's not definitive solution in my opinion.
Firstly, I prefer tikz
guided solution, because it gives you more freedom. Secondly, I'm not posting anything totally new. It is obviously similar to Zoe Gagnon's answer, because he showed the way.
I needed some year timeline and it took me some time (what a surprise!) to do it, so I'm sharing the results. I hope you'll like it.
\documentclass[tikz]{standalone}
\usepackage{verbatim}
\begin{document}
\newlength\yearposx
\begin{tikzpicture}[scale=0.57] % timeline 1990-2010->
% define coordinates (begin, used, end, arrow)
\foreach \x in {1990,1992,2000,2002,2004,2005,2008,2009,2010,2011}{
\pgfmathsetlength\yearposx{(\x-1990)*1cm};
\coordinate (y\x) at (\yearposx,0);
\coordinate (y\x t) at (\yearposx,+3pt);
\coordinate (y\x b) at (\yearposx,-3pt);
}
% draw horizontal line with arrow
\draw [->] (y1990) -- (y2011);
% draw ticks
\foreach \x in {1992,2000,2002,2004,2005,2008,2009}
\draw (y\x t) -- (y\x b);
% annotate
\foreach \x in {1992,2002,2005,2009}
\node at (y\x) [below=3pt] {\x};
\foreach \x in {2000,2004,2008}
\node at (y\x) [above=3pt] {\x};
\begin{comment}
% for use in beamer class
\only<2> {\fill (y1992) circle (5pt);}
\only<3-5> {\fill (y2000) circle (5pt);}
\only<4-5> {\fill (y2002) circle (5pt);}
\only<5> {\fill[red] (y2004) circle (5pt);}
\only<6> {\fill (y2005) circle (5pt);}
\only<7> {\fill[red] (y2005) circle (5pt);}
\only<8-11> {\fill (y2008) circle (5pt);}
\only<11> {\fill (y2009) circle (5pt);}
\end{comment}
\end{tikzpicture}
\end{document}
As you can see, it's tailored to beamer presentation (select part and also scale option), but if you really want to test it in a presentation, then you should move \newlength\yearposx
outside of the frame definition, because otherwise you'll get error veritably stating that command \yearposx
is already defined (unless you remove the selection part and any other frame-splitting commands from your frame).
There is timeline.sty floating around.
The syntax is simpler than using tikz:
%%% In LaTeX:
%%% \begin{timeline}{length}(start,stop)
%%% .
%%% .
%%% .
%%% \end{timeline}
%%%
%%% in plain TeX
%%% \timeline{length}(start,stop)
%%% .
%%% .
%%% .
%%% \endtimeline
%%% in between the two, we may have:
%%% \item{date}{description}
%%% \item[sortkey]{date}{description}
%%% \optrule
%%%
%%% the options to timeline are:
%%% length The amount of vertical space that the timeline should
%%% use.
%%% (start,stop) indicate the range of the timeline. All dates or
%%% sortkeys should lie in the range [start,stop]
%%%
%%% \item without the sort key expects date to be a number (such as a
%%% year).
%%% \item with the sort key expects the sort key to be a number; date
%%% can be anything. This can be used for log scale time lines
%%% or dates that include months or days.
%%% putting \optrule inside of the timeline environment will cause a
%%% vertical rule to be drawn down the center of the timeline.
I've used python's datetime.data.toordinal to convert dates to 'sort keys' in the context of the package.
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The link is dead, here is a github repo with a similar name : github.com/ArneMeier/timeline The syntax is a bit different.– GowachinOct 21, 2021 at 7:54
I have been struggling to find a proper way to create a timeline, which I could finally do with this modification. Usually while creating a timeline the problem was that I could not add a text to explain each date clearly with a longer text. I modified and further utilized @Zoe Gagnon's latex script. Please feel free to see the following:
\documentclass{article}
\usepackage{tikz}
\usetikzlibrary{snakes}
\usepackage{rotating}
\begin{document}
\begin{center}
\begin{tikzpicture}
% draw horizontal line
\draw (-5,0) -- (6,0);
% draw vertical lines
\foreach \x in {-5,-4,-3,-2, -1,0,1,2}
\draw (\x cm,3pt) -- (\x cm,-3pt);
% draw nodes
\draw (-5,0) node[below=3pt] {$ 0 $} node[above=3pt] {$ $};
\draw (-4,0) node[below=3pt] {$ 1 $} node[above=3pt] {$\begin{turn}{45}
All individuals vote
\end{turn}$};
\draw (-3,0) node[below=3pt] {$ 2 $} node[above=3pt] {$\begin{turn}{45}
Policy vector decided
\end{turn}$};
\draw (-2,0) node[below=3pt] {$ 3 $} node[above=3pt] {$\begin{turn}{45} Becoming a bureaucrat \end{turn} $};
\draw (-1,0) node[below=3pt] {$ 4 $} node[above=3pt] {$\begin{turn}{45} Bureaucrats' effort choice \end{turn}$};
\draw (0,0) node[below=3pt] {$ 5 $} node[above=3pt] {$\begin{turn}{45} Tax evasion decision made \end{turn}$};
\draw (1,0) node[below=3pt] {$ 6$} node[above=3pt] {$\begin{turn}{45} $p(x_{t})$ tax evaders caught \end{turn}$};
\draw (2,0) node[below=3pt] {$ 7 $} node[above=3pt] {$\begin{turn}{45} $q_{t}$ shirking bureaucrats \end{turn}$};
\draw (3,0) node[below=3pt] {$ $} node[above=3pt] {$\begin{turn}{45} Public service provided \end{turn} $};
\end{tikzpicture}
\end{center}
\end{document}
Longer texts are not allowed, unfortunately. It will look like this:
If you are looking for UML sequence diagrams, you might be interested in pkf-umlsd, which is based on TiKZ. Nice demos can be found here.
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No, I was more interested in a timeline like in a history-book. But thanks nevertheless, UML-diagrams in LaTeX may come up too in another project.– MnementhJun 26, 2009 at 10:20
It was a struggle to find a proper way to create a stylish timeline, but with a little bit of imagination and the TikZ package, I have created the following timeline. I have created two TikZ diagrams that can be used depending on the person's preference. In each case, the code is straightforward once you understand what is happening (additional comments were added to help). P.S. One needs to adjust the diagram depending on the requirements. Hope this will help!
\documentclass{article}
%Load necesary libraries
\usepackage{tikz}
\usetikzlibrary{fit, calc, decorations.markings}
\begin{document}
%Straight Timeline
\begin{tikzpicture}[remember picture, overlay, shift={(0,-3.5)}]
% Starting point at (0,0) on the page
\coordinate (start) at (0,0);
% Draw the first line: 25 degrees, 9cm length
\draw[color = blue!40, line join=round, line cap=round, shading angle=25, opacity=0.5, top color=blue!10, bottom color=blue!60] (start) -- ++(-30:9cm) coordinate (end1);
% Draw the second line: -20 degrees, 9.5cm length
\draw[color = blue!40, line join=round, line cap=round, shading angle=-20, opacity=0.5, top color=blue!10, bottom color=blue!60] (start) -- ++(-26:9.5cm) coordinate (end2);
% Fill the space between the lines with blue and reduced opacity
\begin{scope}
\path[clip] (start) -- (end1) -- (end2) -- cycle;
\shade[bottom color=blue!10, top color=blue!60, opacity=0.5] (start) rectangle (end2|-end1);
\end{scope}
% Draw ovals at the starting point
\draw[color = red, fill = red, opacity = 0.8, line width=0.01cm] (start) ++(-28:0.3cm) ellipse [x radius=0.05cm, y radius=0.012cm];
\draw[color = orange, fill = orange, opacity = 0.8, line width=0.01cm] (start) ++(-28:2.2cm) ellipse [x radius=0.115cm, y radius=0.055cm];
\draw[color = yellow, fill = yellow, opacity = 0.8, line width=0.01cm] (start) ++(-28:3.8cm) ellipse [x radius=0.18cm, y radius=0.11cm];
\draw[color = green, fill = green, opacity = 0.8, line width=0.01cm] (start) ++(-27.95:6.2cm) ellipse [x radius=0.355cm, y radius=0.15cm];
\draw[color = teal, fill = teal, opacity = 0.8, line width=0.01cm] (start) ++(-27.95:8cm) ellipse [x radius=0.42cm, y radius=0.21cm];
% Draw ovals around the existing ovals
\draw[color = red, line width = 0.005cm] (start) ++(-28:0.3cm) ellipse [x radius=0.05*1.5cm, y radius=0.012cm*1.5];
\draw[color = orange, line width = 0.005cm] (start) ++(-28:2.2cm) ellipse [x radius=0.115cm*1.5, y radius=0.055cm*1.5];
\draw[color = yellow, line width = 0.005cm] (start) ++(-28:3.8cm) ellipse [x radius=0.18cm*1.5, y radius=0.11cm*1.5];
\draw[color = green, line width = 0.005cm] (start) ++(-27.95:6.2cm) ellipse [x radius=0.355cm*1.5, y radius=0.15cm*1.5];
\draw[color = teal, line width = 0.005cm] (start) ++(-27.95:8cm) ellipse [x radius=0.42cm*1.3, y radius=0.21cm*1.3];
% Draw perpendicular lines going up 3cm
\draw[color = red, dashed, opacity=0.8] (start) ++(-28:0.3cm) -- ++(90:3.5cm) node[right, scale = 0.9, color = red] {1997};
\draw[color = orange, dashed, opacity=0.8] (start) ++(-28:2.2cm) -- ++(90:3.5cm) node[right, scale=0.9, color = orange] {2004};
\draw[color = yellow, dashed, opacity=0.8] (start) ++(-28:3.8cm) -- ++(90:3.5cm) node[right, scale=0.9, color = yellow] {2005};
\draw[color = green, dashed, opacity=0.8] (start) ++(-27.95:6.2cm) -- ++(90:3.5cm) node[right, scale=0.9, color = green] {2007};
\draw[color = teal, dashed, opacity=0.8] (start) ++(-27.95:8cm) -- ++(90:3.5cm) node[right, scale=0.9, color = teal] {2010};
% Add text under the years
\node[right, color = black, scale = 0.5] (1) at ($(start) + (-28:0.4cm) + (90:3cm)$) {Lorem};
\node[right, color = black, scale = 0.5] (2) at ($(start) + (-28:0.4cm) + (90:2.8cm)$) {ipsum dolor};
\node[right, color = black, scale = 0.5] (3) at ($(start) + (-28:2.3cm) + (90:3cm)$) {Lorem};
\node[right, color = black, scale = 0.5] (4) at ($(start) + (-28:2.3cm) + (90:2.8cm)$) {ipsum dolor};
\node[right, color = black, scale = 0.5] (5) at ($(start) + (-28:3.9cm) + (90:3cm)$) {Lorem ipsum};
\node[right, color = black, scale = 0.5] (6) at ($(start) + (-28:3.9cm) + (90:2.8cm)$) {dolor sit};
\node[right, color = black, scale = 0.5] (7) at ($(start) + (-28:3.9cm) + (90:2.6cm)$) {amet};
\node[right, color = black, scale = 0.5] (8) at ($(start) + (-28:6.3cm) + (90:3cm)$) {Lorem};
\node[right, color = black, scale = 0.5] (9) at ($(start) + (-28:6.3cm) + (90:2.8cm)$) {ipsum};
\node[right, color = black, scale = 0.5] (10) at ($(start) + (-28:8.1cm) + (90:3cm)$) {Lorem};
\node[right, color = black, scale = 0.5] (11) at ($(start) + (-28:8.1cm) + (90:2.8cm)$) {ipsum dolor};
\node[right, color = black, scale = 0.5] (12) at ($(start) + (-28:8.1cm) + (90:2.6cm)$) {sit amet};
% Draw a box around the text nodes with the same opacity
\node[draw, line width = 0.005cm, rounded corners, scale = 0.8, fit={(1) (2)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.8, fit={(3) (4)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.8, fit={(5) (6) (7)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.8, fit={(8) (9)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.8, fit={(10) (11) (12)}] {};
\end{tikzpicture}
\newpage
%Curved Timeline
\begin{tikzpicture}[remember picture, overlay, shift={(8,-3)}]
%Define control points for the first S-shaped curve
\coordinate (start) at (-4, 0);
\coordinate (control1) at (6, -3);
\coordinate (middle) at (0, -7);
\coordinate (end1) at (-6, -11);
% Draw the first S-shaped curve
\draw(start) .. controls (control1) .. (middle) .. controls (middle) and (end1) .. (end1);
% Optional: Add labels to the control points for the first curve
%\filldraw [purple] (start) circle (2pt) node[below] {Start};
%\filldraw [red] (control1) circle (2pt) node[left] {Control 1};
%\filldraw [red] (middle) circle (2pt) node[above] {Middle};
%\filldraw [red] (end1) circle (2pt) node[below] {End 1};
% Define control points for the second S-shaped curve
\coordinate (control3) at (8, -2.5);
\coordinate (middle2) at (4, -6.5);
\coordinate (end2) at (-3, -14);
% Draw the second S-shaped curve with an arrow at the end
\draw (start) .. controls (control3) .. (middle2) .. controls (middle2) and (end2) .. (end2);
% Optional: Add labels to the control points for the second curve
%\filldraw [blue] (control3) circle (2pt) node[right] {Control 3};
%\filldraw [blue] (middle2) circle (2pt) node[below] {Middle 2};
%\filldraw [blue] (end2) circle (2pt) node[above] {End 2};
%General coordinates
\coordinate (arrow1) at ($(end1) + (-1, +1)$);
\coordinate (arrow2) at ($(end2) + (+1, -1)$);
\coordinate (arrow3) at ($(arrow2) + (-5.3, 0)$);
% Optional: Add labels to the control points for the arrow head
%\filldraw [green] (arrow1) circle (2pt) node[below] {Arrow 1};
%\filldraw [green] (arrow2) circle (2pt) node[above] {Arrow 2};
%\filldraw [green] (arrow3) circle (2pt) node[above] {Arrow 3};
%Draw the arrow head
\draw (end1) -- (arrow1) -- (arrow3) -- (arrow2) -- (end2);
%Shade the region between the two curves
\begin{scope}
\shade[bottom color=blue!10, top color=blue!60, opacity=0.8]
(arrow3) -- (arrow2) -- (end2) -- (middle2) .. controls (control3) .. (start) .. controls (control1) .. (middle) .. controls (middle) and (end1) .. (end1) -- (arrow1) -- (arrow3) -- cycle;
\end{scope}
% Define control points for the curved path
\coordinate (pathControl) at ($(control1)!0.5!(control3)$);
\coordinate (pathMiddle) at ($(middle)!0.5!(middle2)$);
\coordinate (pathEnd) at (arrow3);
\coordinate (pathEnd2) at ($(end1)!0.5!(end2)$);
% Draw the curved path
%\filldraw [yellow] (pathControl) circle (2pt) node[below] {Path Control};
%\filldraw [yellow] (pathMiddle) circle (2pt) node[below] {Path Middle};
%\filldraw [yellow] (pathEnd) circle (2pt) node[below] {Path End};
%\filldraw [yellow] (pathEnd2) circle (2pt) node[below] {Path End2};
%\draw[red] (start) .. controls (pathControl) .. (pathMiddle) .. controls (pathMiddle) and (pathEnd) .. (pathEnd2);
%\draw[blue] (pathEnd2) -- (pathEnd);
% Draw ovals at the starting point
\draw[color = red, fill = red, opacity = 0.8, line width=0.01cm] ($(start) + (0.806, -0.2)$) ellipse [x radius=0.098cm, y radius=0.0225cm];
\draw[color = orange, fill = orange, opacity = 0.8, line width=0.01cm] ($(start) + (4.2, -1.074)$) ellipse [x radius=0.436cm, y radius=0.155cm];
\draw[color = yellow, fill = yellow, opacity = 0.8, line width=0.01cm] ($(start) + (6.85, -1.84)$) ellipse [x radius=0.77cm, y radius=0.27cm];
\draw[color = green, fill = green, opacity = 0.8, line width=0.01cm] ($(start) + (9.23, -3.55)$) ellipse [x radius=1.135cm, y radius=0.5cm];
\draw[color = teal, fill = teal, opacity = 0.8, line width=0.01cm] ($(start) + (7.31, -5.8)$) ellipse [x radius=1.22cm, y radius=0.65cm];
\draw[color = blue, fill = blue, opacity = 0.8, line width=0.01cm] ($(start) + (5.02, -7.7)$) ellipse [x radius=1.72cm, y radius=0.75cm];
\draw[color = purple, fill = purple, opacity = 0.8, line width=0.01cm] ($(start) + (2.1, -10.111)$) ellipse [x radius=2.36cm, y radius=0.95cm];
% Draw ovals around the existing ovals with the same ratios
\draw[color=red, line width=0.005cm] ($(start) + (0.806, -0.2)$) ellipse [x radius=0.098cm*1.575, y radius=0.0225cm*1.575];
\draw[color=orange, line width=0.005cm] ($(start) + (4.2, -1.074)$) ellipse [x radius=0.436cm*1.5, y radius=0.155cm*1.5];
\draw[color = yellow, line width = 0.005cm] ($(start) + (6.85, -1.84)$) ellipse [x radius=0.77cm*1.3, y radius=0.27cm*1.3];
\draw[color = green, line width = 0.005cm] ($(start) +(9.23, -3.55)$) ellipse [x radius=1.135cm*1.3, y radius=0.5cm*1.3];
\draw[color = teal, line width = 0.005cm] ($(start) + (7.31, -5.8)$) ellipse [x radius=1.22cm*1.3, y radius=0.65cm*1.3];
\draw[color = blue, line width = 0.005cm] ($(start) + (5.02, -7.7)$) ellipse [x radius=1.72cm*1.25, y radius=0.75cm*1.25];
\draw[color = purple, line width = 0.005cm] ($(start) + (2.1, -10.111)$) ellipse [x radius=2.36cm*1.2, y radius=0.95cm*1.2];
% Draw perpendicular lines going up 3cm
\draw[color = red, dashed, opacity = 1] ($(start) + (0.806, -0.2)$) -- ++(90:3.5cm) node[right, scale = 0.9, color = red] {1997};
\draw[color = orange, dashed, opacity = 1] ($(start) + (4.2, -1.074)$) -- ++(90:3.5cm) node[right, scale = 0.9, color = orange] {2004};
\draw[color = yellow, dashed, opacity = 1] ($(start) + (6.85, -1.84)$) -- ++(90:3.5cm) node[right, scale = 0.9, color = yellow] {2005};
\draw[color = green, dashed, opacity = 1] ($(start) + (9.23, -3.55)$) -- ++(-90:3.5cm) node[right, scale = 0.9, color = green] {2007};
\draw[color = teal, dashed, opacity = 1] ($(start) + (7.31, -5.8)$) -- ++(-90:3.5cm) node[right, scale = 0.9, color = teal] {2010};
\draw[color = blue, dashed, opacity = 1] ($(start) + (5.02, -7.7)$) -- ++(-90:4.5cm) node[right, scale = 0.9, color = blue] {2013};
\draw[color = purple, dashed, opacity = 1] ($(start) + (2.1, -10.111)$) -- ++(-90:4.5cm) node[right, scale = 0.9, color = purple] {2017};
% Add text under the years
\node[right, color = black, scale = 1] (1) at ($(start) + (0.87, -0.2) + (90:2.8cm)$) {Lorem};
\node[right, color = black, scale = 1] (2) at ($(start) + (0.87, -0.32) + (90:2.4cm)$) {ipsum dolor};
\node[right, color = black, scale = 1] (3) at ($(start) + (4.27, -1.074) + (90:2.8cm)$) {Lorem};
\node[right, color = black, scale = 1] (4) at ($(start) + (4.27, -1.074) + (90:2.4cm)$) {ipsum dolor};
\node[right, color = black, scale = 1] (5) at ($(start) + (6.95, -1.84) + (90:2.8cm)$) {Lorem};
\node[right, color = black, scale = 1] (6) at ($(start) + (6.95, -1.84)+ (90:2.4cm)$) {dolor sit};
\node[right, color = black, scale = 1] (7) at ($(start) + (6.95, -1.84) + (90:2cm)$) {amet};
\node[right, color = black, scale = 1] (8) at ($(start) + (9.38, -3.55) + (-90:2.4cm)$) {Lorem};
\node[right, color = black, scale = 1] (9) at ($(start) + (9.38, -3.55) + (-90:2.8cm)$) {ipsum};
\node[right, color = black, scale = 1] (10) at ($(start) + (7.36, -5.8) + (-90:2cm)$) {Lorem ipsum};
\node[right, color = black, scale = 1] (11) at ($(start) + (7.36, -5.8) + (-90:2.4cm)$) {dolor sit};
\node[right, color = black, scale = 1] (12) at ($(start) + (7.36, -5.8) + (-90:2.8cm)$) {amet};
\node[right, color = black, scale = 1] (13) at ($(start) + (5.09, -7.7) + (-90:3cm)$) {Lorem ipsum};
\node[right, color = black, scale = 1] (14) at ($(start) + (5.09, -7.7) + (-90:3.4cm)$) {dolor sit};
\node[right, color = black, scale = 1] (15) at ($(start) + (5.09, -7.7) + (-90:3.8cm)$) {amet};
\node[right, color = black, scale = 1] (16) at ($(start) + (2.25, -10.111) + (-90:3.4cm)$) {Lorem};
\node[right, color = black, scale = 1] (17) at ($(start) + (2.25, -10.111) + (-90:3.8cm)$) {ipsum};
% Draw a box around the text nodes with the same opacity
\node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(1) (2)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(3) (4)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(5) (6) (7)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(8) (9)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(10) (11) (12)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(13) (14) (15)}] {};
\node[draw, line width = 0.005cm, rounded corners, scale = 0.85, fit={(16) (17)}] {};
\end{tikzpicture}
\end{document}
Which looks likes: