+\section{\texorpdfstring{\Gls{MTASK}}{MTask} history}
+\subsection{Generating \texorpdfstring{\gls{C}/\gls{CPP}}{C/C++} code}
+A first throw at a class-based shallowly \gls{EDSL} for microcontrollers was made by \citet{plasmeijer_shallow_2016}.
+The language was called \gls{ARDSL} and offered a type safe interface to \gls{ARDUINO} \gls{CPP} dialect.
+A \gls{CPP} code generation backend was available together with an \gls{ITASK} simulation backend.
+There was no support for tasks or even functions.
+Some time later in the 2015 \gls{CEFP} summer school, an extended version was created that allowed the creation of imperative tasks, \glspl{SDS} and the usage of functions \citep{koopman_type-safe_2019}.
+The name then changed from \gls{ARDSL} to \gls{MTASK}.
+
+\subsection{Integration with \texorpdfstring{\gls{ITASK}}{iTask}}
+\Citet{lubbers_task_2017} extended this in his Master's Thesis by adding integration with \gls{ITASK} and a bytecode compiler to the language.
+\Gls{SDS} in \gls{MTASK} could be accessed on the \gls{ITASK} server.
+In this way, entire \gls{IOT} systems could be programmed from a single source.
+However, this version used a simplified version of \gls{MTASK} without functions.
+This was later improved upon by creating a simplified interface where \glspl{SDS} from \gls{ITASK} could be used in \gls{MTASK} and the other way around \citep{lubbers_task_2018}.
+It was shown by \citet{amazonas_cabral_de_andrade_developing_2018} that it was possible to build real-life \gls{IOT} systems with this integration.
+Moreover, a course on the \gls{MTASK} simulator was provided at the 2018 \gls{CEFP}/\gls{3COWS} winter school in Ko\v{s}ice, Slovakia \citep{koopman_simulation_2018}.
+
+\section{Transition to \texorpdfstring{\gls{TOP}}{TOP}}
+The \gls{MTASK} language as it is now was introduced in 2018 \citep{koopman_task-based_2018}.
+This paper updated the language to support functions, tasks and \glspl{SDS} but still compiled to \gls{CPP} \gls{ARDUINO} code.
+Later the bytecode compiler and \gls{ITASK} integration was added to the language \citep{lubbers_interpreting_2019}.
+Moreover, it was shown that it is very intuitive to write microcontroller applications in a \gls{TOP} language \citep{lubbers_multitasking_2019}.
+One reason for this is that a lot of design patterns that are difficult using standard means are for free in \gls{TOP} (e.g.\ multithreading).
+In 2019, the \gls{CEFP} summer school in Budapest, Hungary hosted a course on developing \gls{IOT} applications with \gls{MTASK} as well \citep{lubbers_writing_2019}.
+
+\subsection{\texorpdfstring{\Glsxtrshort{TOP}}{TOP}}
+In 2022, the SusTrainable summer school in Rijeka, Croatia hosted a course on developing greener \gls{IOT} applications using \gls{MTASK} as well (the lecture notes are to be written).
+Several students worked on extending \gls{MTASK} with many useful features:
+\Citet{veen_van_der_mutable_2020} did preliminary work on a green computer analysis, built a simulator and explored the possibilities for adding bounded datatypes; \citet{boer_de_secure_2020} investigated the possibilities for secure communication channels; and \citet{crooijmans_reducing_2021} added abstractions for low-power operation to \gls{MTASK} such as hardware interrupts and power efficient scheduling (resulting in a paper as well \citet{crooijmans_reducing_2022}).
+\Citet{antonova_mtask_2022} defined a preliminary formal semantics for a subset of \gls{MTASK}.
+Moreover, plans for student projects and improvements include exploring integrating \gls{TINYML} into \gls{MTASK}; and adding intermittent computing support to \gls{MTASK}.
+
+In 2023, the SusTrainable summer school in Coimbra, Portugal will host a course on \gls{MTASK} as well.
+
+\subsection{\texorpdfstring{\gls{MTASK}}{mTask} in practise}
+Funded by the Radboud-Glasgow Collaboration Fund, collaborative work was executed with Phil Trinder, Jeremy Singer, and Adrian Ravi Kishore Ramsingh.
+An existing smart campus application was developed using \gls{MTASK} and quantitively and qualitatively compared to the original application that was developed using a traditional \gls{IOT} stack \citep{lubbers_tiered_2020}.
+This research was later extended to include a four-way comparison: \gls{PYTHON}, \gls{MICROPYTHON}, \gls{ITASK} and \gls{MTASK} \citep{lubbers_could_2022}.
+Currently, power efficiency behaviour of traditional versus \gls{TOP} \gls{IOT} stacks is being compared as well adding a \gls{FREERTOS} implementation to the mix as well.
+
+\chapter{The \texorpdfstring{\gls{MTASK}}{mTask} \texorpdfstring{\glsxtrshort{DSL}}{DSL}}%