4th Workshop on Knowledge Graphs and Linked Data Applications in Robotics and Industry 4.0, Karlsruhe, Deutschland

KLARI &#8211; 4th Workshop on Knowledge Graphs and Linked Data Applications in Robotics and Industry 4&#046;0<br>9&#046;9&#046;2019, Karlsruhe, Germany<br>Co&#8211;located with SEMANTiCS 2019 &#8211; The Linked Data Conference<br>https://klari&#046;fhstp&#046;ac&#046;at<br>===================<br>Topi… of Interest<br>===================<br>The overall goal of the KLARI workshop is to identify challenges and limitations in Robotics and Industry 4&#046;0 and discuss with experts from the knowledge graph and linked data community how knowledge graphs and linked data can be effectively applied addressing the synergies and solution approaches&#046; Industry 4&#046;0 is a collective term (created in Germany) for the technological concepts of cyber&#8211;physical systems, the Internet of Things and the Internet of Services, leading to the vision of the Smart Factory&#046; Within a modular structured Smart Factory, cyber&#8211;physical systems monitor physical processes, and make decentralized decisions&#046; Over the Internet of Things, cyber&#8211;physical systems communicate and cooperate with each other and humans in real time&#046; As identified in both academia and industry, there are several design principles in Industry 4&#046;0, which support companies in identifying and implementing Industry 4&#046;0 scenarios:<br>&#8211; Interoperability: the ability of cyber&#8211;physical systems (i&#046;e&#046; workpiece carriers or assembly stations) and humans to connect and communicate via the Internet of Things<br>&#8211; Virtualization: linking sensor data (from monitoring physical processes) with virtual plant models and simulation models<br>&#8211; Decentralization: the ability of cyber&#8211;physical systems within Smart Factories to make decisions on their own<br>&#8211; Real&#8211;Time Capability: the capability to collect and analyze data and provide the derived insights immediately<br>&#8211; Service Orientation: offering of services (cyber&#8211;physical systems, humans or Smart Factories)<br>&#8211; Modularity: flexible adaptation of Smart Factories to changing requirements by replacing or expanding individual modules<br>In addition, one of the aims in robotics is to build smarter robots that can communicate, collaborate and operate more naturally and safely&#046; Increasing a robot’s knowledge and intelligence is a vital for the successful implementation of Industry 4&#046;0, since traditional approaches are not flexible enough to respond to the rapidly changing demands of new production processes and their growing complexity&#046; Knowledge graphs and linked data represents a promising approach to overcome limitations of the state&#8211;of the&#8211; art solutions&#046; The following list of topics is indicative, but other topics are also welcome:<br>&#8211; Knowledge Representation for Robotics<br>&#8211; Data integration<br>&#8211; Motion and task planning<br>&#8211; Manipulation and grasping<br>&#8211; Object and place recognition<br>&#8211; Human&#8211;Robot and Robot&#8211;Robot Interaction<br>&#8211; Navigation<br>&#8211; Databases for robotics applications<br>&#8211; Multidisciplinary Topics<br>