this is for holding javascript data
Joe Corneli fix outline in introduction
about 9 years ago
Commit id: f85504c3ea8dd6e62abf5923513288cec0906b50
deletions | additions
diff --git a/by-example.tex b/by-example.tex
index 379d61a..544894c 100644
--- a/by-example.tex
+++ b/by-example.tex
...
\subsection{Serendipity by example}
\label{sec:connections-to-formal-definition} \label{sec:by-example}
In this section, we illustrate the key condition, components,
dimensions, and environmental factors that support serendipity, using
diff --git a/introduction.tex b/introduction.tex
index ef22c85..6efb1f2 100644
--- a/introduction.tex
+++ b/introduction.tex
...
\end{quote}
We believe that serendipity is not so mystical as such statements
might seem to imply, and in Section \ref{sec:discussion} we indicate
van Andel's that ``patterns of serendipity''
like those collected by van Andel
are likely to
be highly applicable in computational settings.
First, in
Section \ref{sec:literature-review}, we survey the broad literature on
serendipity. serendipity, and examine prior applications of concept of serendipity in a computing context. Then in Section \ref{sec:background} we present our formal
definition of serendipity,
and examine related work that has applied
the concept of serendipity in a computational context. Section \ref{sec:connections-to-formal-definition} makes drawing connections
from with historical examples
of
serendipitous discovery
and
invention to our formal model. presenting standards for evaluation. Section
\ref{sec:computational-serendipity} then presents case studies and
thought experiments in terms of this model. Section
\ref{sec:discussion} offers recommendations for researchers working in