@inproceedings{Barz2012, abstract = {Industrial plants are a vital and common asset of modern society in a various number of ways. Safety of large industrial complexes that handle hazardous chemical materials is of utter importance to prevent harm to employees, general population, our natural environment and valuable infrastructure. Therefore, beside the plant owner's own financial interest to guarantee faultless and safe operation, legal regulations have to be adhered due to strong public interest as well. An important measure to ensure safety is the implementation of regular inspection tours by maintenance personnel, who examine the often widely-stretched process infrastructure on foot and locally search for signs of beginning leakage. The Research Project RoboGasInspector was started to develop new means of aiding with the fulfillment of this essential task. This article gives an insight into this ongoing research project, where autonomous mobile robotics is combined with laser-based remote gas detection technology in order to create a proof-of-concept inspection system prototype, which can relieve humans of this monotonous and highly repetitive work.}, address = {Bonn}, author = {Barz, Thomas and Bonow, Gero and Hegenberg, Jens and Habib, Karim and Cramar, Liubov and Welle, Jochen and Schulz, Dirk and Kroll, Andreas and Schmidt, Ludger}, booktitle = {Future Security}, doi = {10.1007/978-3-642-33161-9_32}, editor = {Aschenbruck, Nils and Martini, Peter and Meier, Michael and Tölle, Jens}, interhash = {2f9b6fca76112c9f9bdf30d15c5fd58d}, intrahash = {feef2e37bff7d7ad0edf6c46ecae7f73}, isbn = {978-3-642-33160-2}, language = {english}, month = {4th -- 6th September}, mrtnote = {robogas,peer}, owner = {bonow}, pages = {216-219}, publisher = {Springer Berlin Heidelberg}, series = {Communications in Computer and Information Science}, title = {Unmanned Inspection of Large Industrial Environments -- Insights into Research Project RoboGasInspector}, url = {http://dx.doi.org/10.1007/978-3-642-33161-9_32}, volume = 318, year = 2012 } @article{Habib2013, abstract = {Im Rahmen des Förderprogramms AUTONOMIK des Bundesministeriums für Wirtschaft und Technologie wurde in einem Konsortium aus neun Projektpartnern der Prototyp eines autonomen mobilen Roboters zur Gaslecksuche in ausgedehnten Industrieanlagen entwickelt. Anhand verschiedener Sensorik zur Selbstlokalisierung und Navigation wurde die autonome Beweglichkeit des Systems für beliebige Anlagen realisiert, mit der Option anhand von Teleoperation manuell in den Prozess einzugreifen. Ausgestattet mit Video- und Gasfernmesstechnik ist der Roboter imstande, Inspektionsaufgaben in Industrieanlagen durchzuführen, ohne in mögliche Gefahrenbereiche direkt einfahren zu müssen und ohne, dass ein Mensch vor Ort anwesend ist. Der Roboter kann zur routinemäßigen Inspektion von Anlagen oder zur gezielten Untersuchung spezifischer Anlagenteile engesetzt werden. Dank der verwendeten Fernmesstechnik können auch Anlagenteile inspiziert werden, die aufgrund ihrer beschränkten Zugänglichkeit mittels herkömmlicher Messtechnik nur schwer zu inspizieren sind.}, author = {Habib, Abdelkarim and Bonow, Gero and Kroll, Andreas and Hegenberg, Jens and Schmidt, Ludger and Barz, Thomas and Schulz, Dirk}, interhash = {8d53a5cee0be4088dfe2a148d3909309}, intrahash = {14e8f65bfadedcf39b6ee041a777b783}, journal = {Technische Sicherheit}, language = {deutsch}, month = {Mai}, mrtnote = {robogas,pke,nopeer}, number = 5, owner = {bonow}, pages = {10-15}, title = {Forschungsprojekt RoboGasInspector: Gaslecksuche mit autonomen mobilen Robotern}, volume = 3, year = 2013 } @article{RGI-ExMagazin2014, abstract = {Nine project partners developed the prototype of an autonomous mobile robot for detecting gas leaks in extensive industrial plants within the context of the "AUTONOMIK" programme of the German Federal Ministry for Economic Affairs and Energy. The system's autonomous mobility was put into practice using various sensors for auto-localisation and navigation. In addition, it includes an option to intervene manually in the process using teleoperation. Equipped with video and remote gas detection technology, the robot can carry out inspections in industrial plants without having to enter possible hazard areas and without any person present on site. The robot can be used for routine inspection of plants or systematic examination of specific parts of the plant. Using remote metrology technology, it is also possible to inspect parts of the plant that are difficult to inspect using traditional measuring instruments due to limited accessibility.}, author = {Habib, Abdelkarim and Bonow, Gero and Kroll, Andreas and Hegenberg, Jens and Schmidt, Ludger and Barz, Thomas and Schulz, Dirk}, interhash = {b1310685a9a5262b364c284ed0419845}, intrahash = {3f0b39d64407d5a24ccdf568ddb0286d}, journal = {{Ex-MAGAZINE} 2014}, language = {english}, mrtnote = {robogas,pke,nopeer}, note = {ISSN 0176-2419}, owner = {duerrbaum}, pages = {91-97}, title = {Robo{G}as{I}nspector Research Project: Detecting Gas Leaks With Autonomous Mobile Robots}, url = {http://www.r-stahl.com/fileadmin/Dateien/ex-zeitschrift/2014/en/Ex_Magazine_2014_web.pdf}, volume = 40, year = 2014 } @inproceedings{Barz2012, abstract = {Industrial plants are a vital and common asset of modern society in a various number of ways. Safety of large industrial complexes that handle hazardous chemical materials is of utter importance to prevent harm to employees, general population, our natural environment and valuable infrastructure. Therefore, beside the plant owner’s own financial interest to guarantee faultless and safe operation, legal regulations have to be adhered due to strong public interest as well. An important measure to ensure safety is the implementation of regular inspection tours by maintenance personnel, who examine the often widely-stretched process infrastructure on foot and locally search for signs of beginning leakage. The Research Project RoboGasInspector was started to develop new means of aiding with the fulfillment of this essential task. This article gives an insight into this ongoing research project, where autonomous mobile robotics is combined with laser-based remote gas detection technology in order to create a proof-of-concept inspection system prototype, which can relieve humans of this monotonous and highly repetitive work.}, address = {Bonn}, author = {Barz, Thomas and Bonow, Gero and Hegenberg, Jens and Habib, Karim and Cramar, Liubov and Welle, Jochen and Schulz, Dirk and Kroll, Andreas and Schmidt, Ludger}, booktitle = {Future Security}, doi = {10.1007/978-3-642-33161-9_32}, editor = {Aschenbruck, Nils and Martini, Peter and Meier, Michael and Tölle, Jens}, interhash = {2f9b6fca76112c9f9bdf30d15c5fd58d}, intrahash = {feef2e37bff7d7ad0edf6c46ecae7f73}, isbn = {978-3-642-33160-2}, language = {english}, month = {4th – 6th September}, mrtnote = {robogas,peer}, owner = {bonow}, pages = {216-219}, publisher = {Springer Berlin Heidelberg}, series = {Communications in Computer and Information Science}, title = {Unmanned Inspection of Large Industrial Environments - Insights into Research Project RoboGasInspector}, url = {http://dx.doi.org/10.1007/978-3-642-33161-9_32}, volume = 318, year = 2012 } @techreport{Robogas01MA09023A, address = {Universität Kassel}, author = {Bonow, Gero and Cramar, Liubov and Hegenberg, Jens and Kroll, Andreas and Müller, Antonio Ordonez and Schmidt, Ludger and Soldan, Samuel}, institution = {FG Mess- und Regelungstechnik}, interhash = {f67df375d9e96385933b10db49c48e4e}, intrahash = {f40ba67e5e414b09d7416404b2ce2d99}, language = {german}, mrtnr = {RP1}, title = {Mensch-Roboter-Interaktion und Mess-/Inspektionsstrategie}, type = {Schlussbericht zum Forschungsprojekt}, year = 2013 } @article{Habib2013, abstract = {Im Rahmen des Förderprogramms AUTONOMIK des Bundesministeriums für Wirtschaft und Technologie wurde in einem Konsortium aus neun Projektpartnern der Prototyp eines autonomen mobilen Roboters zur Gaslecksuche in ausgedehnten Industrieanlagen entwickelt. Anhand verschiedener Sensorik zur Selbstlokalisierung und Navigation wurde die autonome Beweglichkeit des Systems für beliebige Anlagen realisiert, mit der Option anhand von Teleoperation manuell in den Prozess einzugreifen. Ausgestattet mit Video- und Gasfernmesstechnik ist der Roboter imstande, Inspektionsaufgaben in Industrieanlagen durchzuführen, ohne in mögliche Gefahrenbereiche direkt einfahren zu müssen und ohne, dass ein Mensch vor Ort anwesend ist. Der Roboter kann zur routinemäßigen Inspektion von Anlagen oder zur gezielten Untersuchung spezifischer Anlagenteile engesetzt werden. Dank der verwendeten Fernmesstechnik können auch Anlagenteile inspiziert werden, die aufgrund ihrer beschränkten Zugänglichkeit mittels herkömmlicher Messtechnik nur schwer zu inspizieren sind.}, author = {Habib, Abdelkarim and Bonow, Gero and Kroll, Andreas and Hegenberg, Jens and Schmidt, Ludger and Barz, Thomas and Schulz, Dirk}, interhash = {8d53a5cee0be4088dfe2a148d3909309}, intrahash = {14e8f65bfadedcf39b6ee041a777b783}, journal = {Technische Sicherheit}, language = {deutsch}, month = {Mai}, mrtnote = {robogas,pke}, number = 5, owner = {bonow}, pages = {10-15}, title = {Forschungsprojekt RoboGasInspector: Gaslecksuche mit autonomen mobilen Robotern}, volume = 3, year = 2013 } @article{RGI-ExMagazin2014, abstract = {Nine project partners developed the prototype of an autonomous mobile robot for detecting gas leaks in extensive industrial plants within the context of the "AUTONOMIK" programme of the German Federal Ministry for Economic Affairs and Energy. The system's autonomous mobility was put into practice using various sensors for auto-localisation and navigation. In addition, it includes an option to intervene manually in the process using teleoperation. Equipped with video and remote gas detection technology, the robot can carry out inspections in industrial plants without having to enter possible hazard areas and without any person present on site. The robot can be used for routine inspection of plants or systematic examination of specific parts of the plant. Using remote metrology technology, it is also possible to inspect parts of the plant that are difficult to inspect using traditional measuring instruments due to limited accessibility.}, author = {Habib, Abdelkarim and Bonow, Gero and Kroll, Andreas and Hegenberg, Jens and Schmidt, Ludger and Barz, Thomas and Schulz, Dirk}, interhash = {b1310685a9a5262b364c284ed0419845}, intrahash = {3f0b39d64407d5a24ccdf568ddb0286d}, journal = {{Ex-MAGAZINE} 2014}, language = {english}, mrtnote = {robogas,pke}, note = {ISSN 0176-2419}, owner = {duerrbaum}, pages = {91-97}, title = {Robo{G}as{I}nspector Research Project: Detecting Gas Leaks With Autonomous Mobile Robots}, url = {http://www.r-stahl.com/fileadmin/Dateien/ex-zeitschrift/2014/en/Ex_Magazine_2014_web.pdf}, volume = 40, year = 2014 } @inproceedings{ls_leimeister, address = {Cape Town, South Africa}, author = {Behrenbruch, Kay and Söllner, Matthias and Leimeister, Jan Marco and Schmidt, Ludger}, booktitle = {INTERACT 2013}, interhash = {95b51099abed3a07e20e25f303d6b3b9}, intrahash = {da65a783b2fed6a9ec45e80453691bf6}, title = {Understanding Diversity – The Impact of Personality on Technology Acceptance}, year = 2013 } @incollection{BAESSG:12, abstract = {To facilitate user-centered software engineering, developers need an easy to grasp understanding of the user. The use of personas helps to keep specific user needs in mind during the design process. Technology acceptance is of particular interest for the design of innovative applications previously unknown to potential users. Therefore, our research focuses on defining a typology of relevant user characteristics with respect to technology acceptance and transferring those findings to the description of personas. The presented work focuses on the statistical relationship between technology acceptance and personality. We apply sub-group discovery as a statistical tool. Based on the statistically derived subgroups and patterns we define the mentioned personas to help developers to understand different forms of technology acceptance. By integrating the specifically defined personas into existing methods in the field of software engineering the feasibility of the presented approach is demonstrated.}, address = {Heidelberg, Germany}, author = {Behrenbruch, Kay and Atzmueller, Martin and Evers, Christoph and Schmidt, Ludger and Stumme, Gerd and Geihs, Kurt}, booktitle = {Human-Centred Software Engineering}, interhash = {1e609af1021c5acbb5db78444c52a9e9}, intrahash = {847830846b80d4507aa4b93d1c8deb83}, pages = {259--266 }, publisher = {Springer}, series = {LNCS}, title = {{A Personality Based Design Approach Using Subgroup Discovery}}, volume = 7623, year = 2012 } @inproceedings{ls_leimeister, address = {Braunschweig, Germany}, author = {Hoberg, Sebastian and Schmidt, Ludger and Hoffmann, Axel and Söllner, Matthias and Leimeister, Jan Marco and Voigtmann, Christian and David, Klaus and Zirfas, Julia and Roßnagel, Alexander}, booktitle = {42. Jahrestagung der Gesellschaft für Informatik}, interhash = {1d3d57304e11c02ad448d10814354b33}, intrahash = {ff576c6afb50c0350ee1a74de335ea39}, note = 349, organization = {Gesellschaft für Informatik}, title = {Socially acceptable design of a ubiquitous system for monitoring elderly family members}, url = {http://pubs.wi-kassel.de/wp-content/uploads/2013/03/JML_354.pdf}, year = 2012 } @inproceedings{conf/dais/ComesEGHKLNRSSSW12, address = {Stockholm, Sweden, 2012. Lecture Notes in Computer Science. Springer, Berlin / Heidelberg, S 194-201}, author = {Comes, Diana Elena and Evers, Christoph and Geihs, Kurt and Hoffmann, Axel and Kniewel, Romy and Leimeister, Jan Marco and Niemczyk, Stefan and Roßnagel, Alexander and Schmidt, Ludger and Schulz, Thomas and Söllner, Matthias and Witsch, Andreas}, booktitle = {Distributed Applications and Interoperable Systems (DAIS 2012)}, editor = {Göschka, Karl M. and Haridi, Seif}, interhash = {b597b0d66d4140e90a1f2dc11e765078}, intrahash = {6af666cfb448581cf8f7eddcfd7cb51b}, note = 333, pages = {194-201}, series = {Lecture Notes in Computer Science}, title = {Designing Socio-technical Applications for Ubiquitous Computing - Results from a Multidisciplinary Case Study}, url = {http://pubs.wi-kassel.de/wp-content/uploads/2013/03/JML_369.pdf}, volume = 7272, year = 2012 } @inproceedings{ls_leimeister, address = {Izmir, Turkey}, author = {Geihs, Kurt and Leimeister, Jan Marco and Roßnagel, Alexander and Schmidt, Ludger}, booktitle = {3rd Workshop on Enablers for Ubiquitous Computing and Smart Services (EUCASS 2012), at 2012 IEEE/IPSJ 12th International Symposium on Applications and the Internet (SAINT)}, interhash = {3686449059940d0fd11b052c09a7c510}, intrahash = {9133610e57f2dbe6b4c60041ccc62bd2}, note = 323, title = {On Socio-technical Enablers for Ubiquitous Computing Applications}, url = {http://pubs.wi-kassel.de/wp-content/uploads/2013/03/JML_361.pdf}, year = 2012 } @inproceedings{BAKHSS:11, address = {Chemnitz}, author = {Behrenbruch, Kay and Atzmueller, Martin and Kniewel, Romy and Hoberg, Sebastian and Stumme, Gerd and Schmidt, Ludger}, booktitle = {GfA-Frühjahrskongress}, interhash = {bb1435b451f54abf143ea892375abf55}, intrahash = {addbaaba7aec8360e23284c849e216ad}, title = {Gestaltung technisch-sozialer Vernetzung in der Arbeitsorganisation: Untersuchung zur Nutzerakzeptanz von RFID-Technologie}, year = 2011 }