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<h1>Robotics DSL Zoo</h1>

<h2>Subdomain „Sensing and Estimation“</h2>
<p>Sensing and Estimation ranges from robot-state estimation for feedback control to task-oriented interpretation of sensor data of any kind.
        Apart from estimation techniques, this category also covers different kinds of information representations.
        This subdomain corresponds to Part A, Chapter 4 in the Handbook of Robotics.</p>
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        <div id="chart_div_year" style="width: 550px; height: 200px; float:left;"></div><h3>Functional Design</h3>
<p>In the Functional Design phase, hardware requirements and top-level functionalities are derived based on the scenario definition.
Furthermore, top-level functionalities are decomposed and dependencies among them are identified.
Also an initial functional design stating which functionalities interact with each other is developed.</p>

<table class="sortable">
<thead><tr><th>Key</th><th>Title</th><th>Authors</th><th width="10%">Year</th><th>Formalism</th></tr></thead><tbody><tr style="border-top:1px solid #000;">
              <td><a href="#gordillo1991high" id="gordillo1991high">gordillo1991high<a/></td><td style="font-weight:bold;">LE: a high level language for specifying vision verification tasks</td><td>Gordillo, Jose L</td><td>1991</td>
              <td>unknown</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#henderson1984logical" id="henderson1984logical">henderson1984logical<a/></td><td style="font-weight:bold;">Logical sensor systems</td><td>Henderson, Tom and Shilcrat, Esther</td><td>1984</td>
              <td>(E)BNF</td>
              </tr>

</tbody></table><br />
<h3>Platform Building</h3>
<p>In the Platform Building phase, the robot hardware is determined. This includes the selection and potential configuration of robot's sensors and actuators meeting the requirements defined in the functional design phase.</p>

<table class="sortable">
<thead><tr><th>Key</th><th>Title</th><th>Authors</th><th width="10%">Year</th><th>Formalism</th></tr></thead><tbody><tr style="border-top:1px solid #000;">
              <td><a href="#fryer1998resource" id="fryer1998resource">fryer1998resource<a/></td><td style="font-weight:bold;">Resource modelling and combination in modular robotics systems</td><td>Fryer, J Andrew and McKee, Gerard T</td><td>1998</td>
              <td>unknown</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#hochgeschwender2014declarative" id="hochgeschwender2014declarative">hochgeschwender2014declarative<a/></td><td style="font-weight:bold;"><a href="http://dx.doi.org/10.1007/978-3-319-11900-7_25">Declarative Specification of Robot Perception Architectures</a></td><td>Hochgeschwender, Nico and Schneider, Sven and Voos, Holger and Kraetzschmar, Gerhard K</td><td>2014</td>
              <td>ecore</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#kilgo2012visual" id="kilgo2012visual">kilgo2012visual<a/></td><td style="font-weight:bold;"><a href="http://rd.springer.com/chapter/10.1007%2F978-3-642-34327-8_14">A Visual Modeling Language for RDIS and ROS Nodes Using AToM3</a></td><td>Kilgo, Paul and Syriani, Eugene and Anderson, Monica</td><td>2012</td>
              <td></td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#ljungkrantz2007implementing" id="ljungkrantz2007implementing">ljungkrantz2007implementing<a/></td><td style="font-weight:bold;">Implementing a control system framework for automatic generation of manufacturing cell controllers</td><td>Ljungkrantz, Oscar and Akesson, K and Richardsson, Johan and Andersson, Kristin</td><td>2007</td>
              <td>XSD</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#ramaswamy2014solution" id="ramaswamy2014solution">ramaswamy2014solution<a/></td><td style="font-weight:bold;">Solution space modeling for robotic systems</td><td>Ramaswamy, Arun Kumar and Monsuez, Bruno and Tapus, Adriana</td><td>2014</td>
              <td>ecore</td>
              </tr>

</tbody></table><br />
<h3>Capability Building</h3>
<p>In the Capability Building phase, basic and composite components are constructed up to the application-level and constraints for their deployment are specified.
This also includes the specification and eventually generation of additional knowledge required for component execution such as knowledge bases and training data.</p>

<table class="sortable">
<thead><tr><th>Key</th><th>Title</th><th>Authors</th><th width="10%">Year</th><th>Formalism</th></tr></thead><tbody><tr style="border-top:1px solid #000;">
              <td><a href="#fleury1994design" id="fleury1994design">fleury1994design<a/></td><td style="font-weight:bold;">Design of a modular architecture for autonomous robot</td><td>Fleury, Sara and Herrb, Matthieu and Chatila, Raja</td><td>1994</td>
              <td>unknown</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#gordillo1991high" id="gordillo1991high">gordillo1991high<a/></td><td style="font-weight:bold;">LE: a high level language for specifying vision verification tasks</td><td>Gordillo, Jose L</td><td>1991</td>
              <td>unknown</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#henderson1984logical" id="henderson1984logical">henderson1984logical<a/></td><td style="font-weight:bold;">Logical sensor systems</td><td>Henderson, Tom and Shilcrat, Esther</td><td>1984</td>
              <td>(E)BNF</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#hochgeschwender2014declarative" id="hochgeschwender2014declarative">hochgeschwender2014declarative<a/></td><td style="font-weight:bold;"><a href="http://dx.doi.org/10.1007/978-3-319-11900-7_25">Declarative Specification of Robot Perception Architectures</a></td><td>Hochgeschwender, Nico and Schneider, Sven and Voos, Holger and Kraetzschmar, Gerhard K</td><td>2014</td>
              <td>ecore</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#kilgo2012visual" id="kilgo2012visual">kilgo2012visual<a/></td><td style="font-weight:bold;"><a href="http://rd.springer.com/chapter/10.1007%2F978-3-642-34327-8_14">A Visual Modeling Language for RDIS and ROS Nodes Using AToM3</a></td><td>Kilgo, Paul and Syriani, Eugene and Anderson, Monica</td><td>2012</td>
              <td></td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#ljungkrantz2007implementing" id="ljungkrantz2007implementing">ljungkrantz2007implementing<a/></td><td style="font-weight:bold;">Implementing a control system framework for automatic generation of manufacturing cell controllers</td><td>Ljungkrantz, Oscar and Akesson, K and Richardsson, Johan and Andersson, Kristin</td><td>2007</td>
              <td>XSD</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#nilas2004innovative" id="nilas2004innovative">nilas2004innovative<a/></td><td style="font-weight:bold;">An innovative high-level human-robot interaction for disabled persons</td><td>Nilas, Phongchai and Rani, Pramila and Sarkar, Nilanjan</td><td>2004</td>
              <td>unknown</td>
              </tr>
<tr style="border-top:1px solid #000;">
              <td><a href="#ramaswamy2014solution" id="ramaswamy2014solution">ramaswamy2014solution<a/></td><td style="font-weight:bold;">Solution space modeling for robotic systems</td><td>Ramaswamy, Arun Kumar and Monsuez, Bruno and Tapus, Adriana</td><td>2014</td>
              <td>ecore</td>
              </tr>

</tbody></table><br />
<h3>Product Maintenance</h3>
<p>In the Product Maintenance phase, the robot application is operated and maintained. This includes eventually the analysis of log files and the tuning of system parameters.</p>

<table class="sortable">
<thead><tr><th>Key</th><th>Title</th><th>Authors</th><th width="10%">Year</th><th>Formalism</th></tr></thead><tbody><tr style="border-top:1px solid #000;">
              <td><a href="#hochgeschwender2014declarative" id="hochgeschwender2014declarative">hochgeschwender2014declarative<a/></td><td style="font-weight:bold;"><a href="http://dx.doi.org/10.1007/978-3-319-11900-7_25">Declarative Specification of Robot Perception Architectures</a></td><td>Hochgeschwender, Nico and Schneider, Sven and Voos, Holger and Kraetzschmar, Gerhard K</td><td>2014</td>
              <td>ecore</td>
              </tr>

</tbody></table><br />
</div>

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    <hr />
    <p style="font-size:85%; color:#555;">An important DSL is missing? Here is how to <a href="./contribute.html">contribute</a>! When using content of the Robotics DSL Zoo or referring to it, pleace consider citing our survey paper:
    <pre>
@article{nordmann2016survey,
  author       = {Nordmann, Arne and Hochgeschwender, Nico and Wigand, Dennis Leroy and Wrede, Sebastian},
  journal      = {Journal of Software Engineering in Robotics (JOSER)},
  number       = {1},
  pages        = {75--99},
  title        = {{A Survey on Domain-Specific Modeling and Languages in Robotics}},
  volume       = {7},
  year         = {2016},
}
    </pre>
    <br />
    <a style="font-size:85%; color:#555;" title="A Survey on Domain-Specific Modeling and Languages in Robotics" href="http://joser.unibg.it/index.php?journal=joser&page=article&op=view&path%5B%5D=100">A. Nordmann, N. Hochgeschwender, D. Wigand and S. Wrede, “A Survey on Domain-Specific Modeling Languages in Robotics”, Journal of Software Engineering for Robotics (JOSER), 2016</a>
    </p>
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