Preface: Joint Proceedings of SR and SWIT 2016 This joint volume of proceedings gathers together papers from the 3rd Stream Reasoning workshop (SR 2016) and the 1st Semantic Web Technologies for the Internet of Things workshop (SWIT 2016), held on October 17th and 18th, during the 15th International Semantic Web Conference (ISWC 2016) in Kobe, Japan. Stream Reasoning (SR 2016) The continuous growth of volume, velocity and variety of data poses new challenges for their processing, especially when it has to be done in real-time or near-real time. It happens in many scenarios, such as IoT, social media analytics and smart cities: highly dynamic flows of heterogeneous data, supplied by different actors, have to be integrated and processed to create new knowledge. Reasoning techniques are a possible solution to cope with the problem of variety in the processing of these continuous streams of information. Anyway, while reasoners scale up in the classical, static domain of ontological knowledge, reasoning upon rapidly changing information has received attention only very recently. The combination of reasoning techniques with data streams gives rise to Stream Reasoning, a high impact research area that has already started to produce results that are relevant for both the semantic and data processing communities. Moreover, an observation from the lessons learned on Stream Reasoning in these years is that the ordering of data over time is just one of the possible types of orders to harness in optimising the reasoning tasks. We perceive a trend in the community towards order-aware semantic technologies in works such as: top-k query answering techniques for Linked Data, SPARQL query answering on RDF annotated with partially ordered labels, and top-k ontological query answering in the context of Ontology Based Data Access. The workshop aimed at bringing together this growing and very active community interested in integrating stream processing, ordering and reasoning by using methods inspired by data and knowledge management. Semantic Web Technologies for the Internet of Things (SWIT 2016) Current developments on the Internet are characterised by the wider use of network-enabled devices, such as sensors, mobile phones, and wearables that serve as data providers or actuators, in the context of client applications. Even though real-life objects can finally participate in integrated scenarios, the use of individual and specific interaction mechanisms and data models lead to realising isolated islands of connected devices or to custom solutions that are not reusable. Devices are increasingly network-enabled but rely on heterogeneous network communication mechanisms, use non- standardised interfaces and introduce new data schemas for each individual type of device. This results in a lot of heterogeneity, in the lack of overall integration and in solutions that cannot easily be extended and reused for different application domains. To this end, the vision of the Internet of Things (IoT) is to leverage Internet standards in order to interconnect all types of embedded devices (e.g., patient monitors, medical sensors, congestion monitoring devices, traffic-light controls, temperature sensors, smart meters, etc.) and real-world objects, and thus to make them a part of the Internet and provide overall interoperability. Therefore, IoT aims to build a future of connected devices that is truly open, flexible, and scalable. The SWIT (SemanticWeb technologies for the IoT) workshop aims to contribute towards achieving this goal by exploring how existing well-established Semantic Web Technologies can be used to solve some of the i challenges that the IoT currently faces. In particular, the workshop aims to discover new ways to embrace the opportunities that semantic technologies offer in terms of data modelling, integration, processing, and provisioning as well as in terms of developing flexible and intelligent system solutions. Acknowledgements We would like to thank all the authors and workshop participants for their thoughtful and valuable contributions. Among them, we thank Freddy Lecue and Jeff Z. for enriching the events with their inspiring keynotes. The program committee members also deserve thanks for reviewing submissions and ensuring quality workshop programs. Finally, we would also like to thank the ISWC organizers, in particular Chiara Ghidini and Heiner Stuckenschmidt, for their support in organizing these workshops. Daniele Dell’Aglio Emanuele Della Valle Thomas Eiter Markus Krötzsch Maria Maleshkova Ruben Verborgh Federico M. Facca Michael Mrissa ii Table of contents Stream Reasoning (SR 2016) On measuring performances of C-SPARQL and CQELS 1 Xiangnan Ren, Houda Khrouf, Zakia Kazi-Aoul, Yousra Chabchoub, Olivier Curé Towards Spatial Ontology-Mediated Query Answering over Mobility Streams 13 Thomas Eiter, Josiane Xavier Parreira, Patrik Schneider Query Templates for RDF Stream Processing 25 Robin Keskisärkkä WAVES: Big Data Platform for Real-time RDF Stream Processing 37 Houda Khrouf, Badre Belabbess, Laurent Bihanic, Gabriel Kepeklian, Olivier Curé Remembering the Important Things: Semantic Importance in Stream Reasoning 49 Rui Yan, Mark T. Greaves, William P. Smith, Deborah L. McGuinness Semantic Web Technologies for the Internet of Things (SWIT 2016) Introducing Thing Descriptions and Interactions: An Ontology for the Web of Things 55 Victor Charpenay, Sebastian Käbisch, Harald Kosch Autonomy through knowledge: how IoT-O supports the management of a connected 67 apartment Nicolas Seydoux, Khalil Drira, Nathalie Hernandez, Thierry Monteil Generic semantic platform for the user-friendly development of intelligent IoT services 79 Pieter Bonte, Femke Ongenae, Filip De Turck Applying Ontologies in the Dairy Farming Domain for Big Data Analysis 91 Jack P.C. Verhoosel, Jacco Spek iii Program Committees Stream Reasoning (SR 2016) Muhammad Intizar Ali Insight Centre for Data Analytics, National University of Ireland, Galway, Ireland Darko Anicic SIEMENS, Germany Tara Athan Athan Services, USA Jean-Paul Calbimonte EPFL, Switzerland Oscar Corcho Universidad Politécnica de Madrid, Spain Minh Dao-Tran TU Wien, Austria Alasdair Gray Heriot-Watt University, United Kingdom Andreas Harth Karlsruhe Institute of Technology, Germany Manfred Hauswirth Technical University of Berlin and Fraunhofer FOKUS, Germany Fredrik Heintz Linköping University, Sweden Danh Le Phuoc Insight Centre for Data Analytics, National University of Ireland, Galway, Ireland Alessandro Margara University of Lugano (USI), Switzerland Deborah McGuinness Rensselaer Polytechnic Institute, USA Ralf Möller University of Lübeck, Germany Boris Motik University of Oxford, United Kingdom Özgür Lütfü Özcep University of Lübeck, Germany Jeff Z. Pan University of Aberdeen, United Kingdom Josiane Xavier Parreira SIEMENS, Austria Stefan Schlobach Vrije Universiteit Amsterdam, Netherlands Riccardo Tommasini Politecnico di Milano, Italy Anni-Yasmin Turhan TU Dresden, Germany Jacopo Urbani Vrije Universiteit Amsterdam, Netherlands Peter Wetz TU Wien, Austria Semantic Web Technologies for the Internet of Things (SWIT 2016) Sebastian Bader Karlsruhe Institute for Technology (KIT), Germany Sergio Fernández RedLink GmbH, Austria Andreas Harth Karlsruhe Institute for Technology (KIT), Germany Felix Leif Keppmann Karlsruhe Institute for Technology (KIT), Germany Nandana Mihindukulasooriya Universidad Politécnica de Madrid, Spain Lionel Médini LIRIS - Université Lyon 1, France Stefan Schulte TU Wien, Austria Mehdi Terdjimi LIRIS - Université Lyon 1, France Tobias Weller Karlsruhe Institute for Technology (KIT), Germany iv