Publications

2019

  • M. Gehrke and T. Braun and R. Möller: Uncertain Evidence for Probabilistic Relational Models. in Proceedings of the 32nd Canadian Conference on Artificial Intelligence, Canadian AI 2019, Springer, 2019
    BibTeX
    @InProceedings{Gehrke2019e,
      author = {M. Gehrke and T. Braun and R. M\"oller}, 
      title = {{Uncertain Evidence for Probabilistic Relational Models}}, 
      booktitle = {Proceedings of the 32nd Canadian Conference on Artificial Intelligence, Canadian AI 2019},
      year = {2019},
      publisher = {Springer}
    }
  • R. Allner, D. Wilfling, K. Kidholm and J. Steinhäuser: Telemedizinprojekte im ländlichen Raum Deutschlands. Eine systematische Bewertung mit dem ,,Modell zur Evaluation von telemedizinischen Anwendungen‘‘. Z. Evid. Fortbild. Qual. Gesundh. wesen (ZEFQ), 2019
    BibTeX
    @Article{Allner2019,
      author = {R. Allner, D. Wilfling, K. Kidholm and J. Steinh{\"a}user},
      title = {Telemedizinprojekte im ländlichen Raum Deutschlands Eine systematische Bewertung mit dem ,,Modell zur Evaluation von telemedizinischen Anwendungen‘‘},
      journal = {Z. Evid. Fortbild. Qual. Gesundh. wesen (ZEFQ)},
      year = {2019},
      doi = {10.1016/j.zefq.2019.03.005},
      note = {in press}
    }
  • M. Gehrke and T. Braun and R. Möller: Relational Forward Backward Algorithm for Multiple Queries. in Proceedings of the 32nd International Florida Artificial Intelligence Research Society Conference (FLAIRS-19), AAAI Press, 2019
    BibTeX
    @InProceedings{Gehrke2019a,
      author = {M. Gehrke and T. Braun and R. M\"oller}, 
      title = {{Relational Forward Backward Algorithm for Multiple Queries}}, 
      booktitle = {Proceedings of the 32nd International Florida Artificial Intelligence Research Society Conference {(FLAIRS-19)}},
      year = {2019},
      publisher = {AAAI Press}
    }
  • M. Gehrke and T. Braun and R. Möller: Lifted Temporal Most Probable Explanation. in Proceedings of the International Conference on Conceptual Structures 2019, Springer, 2019
    BibTeX
    @InProceedings{Gehrke2019c,
      author = {M. Gehrke and T. Braun and R. M\"oller}, 
      title = {{Lifted Temporal Most Probable Explanation}}, 
      booktitle = {Proceedings of the International Conference on Conceptual Structures 2019},
      year = {2019},
      publisher = {Springer}
    }
  • M. Gehrke and T. Braun and R. Möller: Lifted Temporal Maximum Expected Utility. in Proceedings of the 32nd Canadian Conference on Artificial Intelligence, Canadian AI 2019, Springer, 2019
    BibTeX
    @InProceedings{Gehrke2019d,
      author = {M. Gehrke and T. Braun and R. M\"oller}, 
      title = {{Lifted Temporal Maximum Expected Utility}}, 
      booktitle = {Proceedings of the 32nd Canadian Conference on Artificial Intelligence, Canadian AI 2019},
      year = {2019},
      publisher = {Springer}
    }
  • M. Gehrke and T. Braun and R. Möller and A. Waschkau and C. Strumann and J. Steinhäuser: Lifted Maximum Expected Utility. in Artificial Intelligence in Health, pp. 131-141, Springer International Publishing, 2019
    BibTeX
    @InProceedings{Gehrke2019b,
      Author = {M. Gehrke and T. Braun and R. M\"oller and A. Waschkau and C. Strumann and J. Steinh{\"a}user},
      Title = {{Lifted Maximum Expected Utility}},
      booktitle = {Artificial Intelligence in Health}, 
      pages = {131--141},
      year = {2019},
      isbn ={978-3-030-12738-1},
      doi = {https://doi.org/10.1007/978-3-030-12738-1_10},
      publisher = {Springer International Publishing}
    }
  • A. Waschkau and D. Wilfling and J. Steinhäuser: Are big data analytics helpful in caring for multimorbid patients in general practice? - A scoping review.. BMC Fam Pract 2019, February, 2019
    BibTeX Link
    @Article{Waschkau2019,
      author = {A. Waschkau and D. Wilfling and J. Steinh{\"a}user},
      title = {Are big data analytics helpful in caring for multimorbid patients in general practice? - A scoping review.},
      journal = {BMC Fam Pract 2019},
      year = {2019},
      month = {February},
      doi = {10.1186/s12875-019-0928-5},
      url = {https://bmcfampract.biomedcentral.com/articles/10.1186/s12875-019-0928-5}
    }

2018

  • B. Kuhn and K.S. Kleij and S. Liersch and J. Steinhäuser and V. Amelung: Which strategies might improve local primary healthcare in Germany? An explorative study from a local government point of view. National Center for Biotechnology Information, 2018
    BibTeX Link
    @Article{Kuhn2018,
      author = {B. Kuhn and K.S. Kleij and S. Liersch and J. Steinh{\"a}user and V. Amelung},
      title = {Which strategies might improve local primary healthcare in Germany? An explorative study from a local government point of view},
      journal = {National Center for Biotechnology Information},
      year = {2018},
      url = {https://www.ncbi.nlm.nih.gov/pubmed/29262798}
    }
  • M. Gehrke and T. Braun and R. Möller: Towards Preventing Unnecessary Groundings in the Lifted Dynamic Junction Tree Algorithm. in Proceedings of KI 2018: Advances in Artificial Intelligence, Springer, 2018
    BibTeX
    @InProceedings{Gehrke2018b,
      author = {M. Gehrke and T. Braun and R. M\"oller}, 
      title = {{Towards Preventing Unnecessary Groundings in the Lifted Dynamic Junction Tree Algorithm}}, 
      booktitle = {Proceedings of {KI} 2018: Advances in Artificial Intelligence}, 
      year = {2018},
      publisher = {Springer}
      doi = {https://doi.org/10.1007/978-3-030-00111-7_4}
    }
  • M. Gehrke and T. Braun and R. Möller and A. Waschkau and C. Strumann and J. Steinhäuser: Towards Lifted Maximum Expected Utility. in Proceedings of the First Joint Workshop on Artificial Intelligence in Health in Conjunction with the 27th IJCAI, the 23rd ECAI, the 17th AAMAS, and the 35th ICML, no. 2142, pp. 93-96, CEUR-WS.org, 2018
    BibTeX Link
    @InProceedings{Gehrke2018TLMEU,
      author = {M. Gehrke and T. Braun and R. M\"oller and A. Waschkau and C. Strumann and J. Steinh{\"a}user},
      title = {{Towards Lifted Maximum Expected Utility}},
      year = {2018},
      booktitle = {Proceedings of the First Joint Workshop on Artificial Intelligence in Health in Conjunction with the 27th IJCAI, the 23rd ECAI, the 17th AAMAS, and the 35th ICML},
      series = {{CEUR} Workshop Proceedings},
      volume = {2142},
      year = {2018},
      pages = {93--96},
      publisher = {CEUR-WS.org},
      url = {http://ceur-ws.org/Vol-2142/short8.pdf}
    }
  • S. Seismann-Petersen and K. Silies and B. Gerlach and K. Balzer and S. Koepke: The Ambient Patient Room of the Future: an exploratory qualitative needs analysis. in Zukunft der Pflege : Tagungsband der 1. Clusterkonferenz 2018 - Innovative Technologien für die Pflege, pp. 207-211, BIS-Verl. der Carl von Ossietzky Universität Oldenburg, Oldenburg, 2018
    BibTeX
    @Conference{Seismann-Petersen2018,
      author = {S. Seismann-Petersen and K. Silies and B. Gerlach and K. Balzer and S. Koepke},
      title = {The Ambient Patient Room of the Future: an exploratory qualitative needs analysis},
      booktitle = {Zukunft der Pflege : Tagungsband der 1. Clusterkonferenz 2018 - Innovative Technologien f{\"u}r die Pflege},
      year = {2018},
      pages = {207-211}
      publisher = {BIS-Verl. der Carl von Ossietzky Universit{\"a}t Oldenburg},
      organization = {BIS-Verl. der Carl von Ossietzky Universit{\"a}t Oldenburg},
      isbn = {978-3-8142-2367-4},
      editor = {Susanne Boll and Andreas Hein and Wilko Heuten and Karin Wolf-Ostermann},
      address = {Oldenburg}
      note = {BMBF Projekt Activate}
    }
    
  • J. Wollgast and A. Schrader and T. Mentler: Text Input in Hospital Settings using IoT Device Ensembles. in The 20th Congress International Ergonomics Association (IEA`2018), Florence, Italy, August, 2018
    BibTeX
    @Conference{Wollgast2018,
      author = {J. Wollgast and A. Schrader and T. Mentler},
      title = {Text Input in Hospital Settings using IoT Device Ensembles},
      booktitle = {The 20th Congress International Ergonomics Association (IEA'2018)},
      year = {2018},
      month = {August},
      day = {26.-30.},
      address = { Florence, Italy},
      pages = {},
      isbn = {}
    }
  • A. Waschkau and R. Allner and S. Fischer and J. Steinhäuser: Telemedizin in der Hausarztpraxis - Aspekte der Kommunikation. Zeitschrift für Allgemeinmedizin, January, 2018
    BibTeX Link
    @Article{Waschkau2018,
      author = {A. Waschkau and R. Allner and S. Fischer and J. Steinh{\"a}user},
      title = {Telemedizin in der Hausarztpraxis -- Aspekte der Kommunikation},
      journal = {Zeitschrift f{\"u}r Allgemeinmedizin},
      number = {1},
      year = {2018},
      month = {January},
      doi = {10.3238/zfa.2018.0017-0021},
      url = {https://www.online-zfa.de/archiv/ausgabe/artikel/zfa-1-2018/49332-103238-zfa20180017-0021-telemedizin-in-der-hausarztpraxis-aspekte-der-kommunikation/}
    }
  • F. Lau and K. Stahl and S. Fischer: Techniques for the Generation of Arbitrary Three-Dimensional Shapes in Tile-Based Self-Assembly Systems. Open Journal of Internet Of Things (OJIOT), no. 4, pp. 126-134, RonPub, 2018
    BibTeX Link
    @Article{Lau2018,
      author = {F. Lau and K. Stahl and S. Fischer},
      title = {Techniques for the Generation of Arbitrary Three-Dimensional Shapes in Tile-Based Self-Assembly Systems},
      journal = {Open Journal of Internet Of Things (OJIOT)},
      issn = {2364-7108},
      year = {2018},
      volume = {4},
      number = {1},
      pages = {126--134},
      note = {Special Issue: Proceedings of the International Workshop on Very Large Internet of Things (VLIoT 2018) in conjunction with the VLDB 2018 Conference in Rio de Janeiro, Brazil.},
      url = {https://www.ronpub.com/ojiot/OJIOT_2018v4i1n10_Lau.html},
      publisher = {RonPub},
      bibsource = {RonPub},
      abstract = {A big challenge in nanorobotics is the construction of nanoscale objects. DNA is a bio-compatible tool to reliably and constructively create objects at the nanoscale. A possible tool to build nano-sized structures are tile-based self-assembly systems on the basis of DNA. It is challenging and time-consuming to efficiently design blueprints for the desired objects. This paper presents basic algorithms for the creation of tilesets for nxnxn-cubes in the aTAM model. Only few publications focus on three-dimensional DNA crystals. Three-dimensional shapes are likely to be of more use in nanorobotics. We present three variations: hollow cubes, cube-grids and filled cubes. The paper also presents a basic algorithm to create arbitrary, finite, connected, three-dimensional and predefined shapes at temperature 1, as well as ideas for more efficient algorithms. Among those are algorithms for spheres, ellipsoids, red blood cells and other promising designs. The algorithms and tilesets are tested/verified using a software that has been developed for the purpose of verifying three-dimensional sets of tiletypes and was influenced by the tool ISU TAS. Others can use the simulator and the algorithms to quickly create sets of tiletypes for their desired nanostructures. A long learning process may thus be omitted.}
    }
    
  • J.P. Kopetz and D. Wessel and K. Balzer and N. Jochems: Smart Glasses as Supportive Tool in Nursing Skills Training. in Zukunft der Pflege : Tagungsband der 1. Clusterkonferenz 2018 - Innovative Technologien für die Pflege, pp. 137-141, BIS-Verl. der Carl von Ossietzky Universität Oldenburg, Oldenburg, 2018
    BibTeX
    @Conference{Kopetz2018a,
      author = {J.P. Kopetz and D. Wessel and K. Balzer and N. Jochems},
      title = {Smart Glasses as Supportive Tool in Nursing Skills Training},
      booktitle = {Zukunft der Pflege : Tagungsband der 1. Clusterkonferenz 2018 - Innovative Technologien f{\"u}r die Pflege},
      year = {2018},
      pages = {137-141},
      publisher = {BIS-Verl. der Carl von Ossietzky Universit{\"a}t Oldenburg},
      organization = {BIS-Verl. der Carl von Ossietzky Universit{\"a}t Oldenburg},
      address = {Oldenburg},
      isbn = {978-3-8142-2367-4},
      editor = {Susanne Boll and Andreas Hein and Wilko Heuten and Karin Wolf-Ostermann},
      note = {BMBF Projekt Activate}
    }
    
  • D. Burmeister and S. Schmudde and A. Schrader: Runtime Generation and Delivery of Guidance for Smart Object Ensembles. in 9th International Conference on Applied Human Factors and Ergonomics and the Affiliated Conferences (AHFE`2018), Orlanod, Florida, USA, July 23-25, 2018
    BibTeX
    @Conference{Burmeister2018b,
      author = {D. Burmeister and S. Schmudde and A. Schrader},
      title = {Runtime Generation and Delivery of Guidance for Smart Object Ensembles},
      booktitle = {9th International Conference on Applied Human Factors and Ergonomics and the Affiliated Conferences (AHFE'2018)},
      year = {2018},
      month = {July 23-25},
      address = {Orlanod, Florida, USA},
      pages = {},
      isbn = {}
    }
  • B. Kordts and J.P. Kopetz and K. Balzer and N. Jochems: Requirements for a System Supporting Patient Communication in Intensive Care in Germany. in Zukunft der Pflege : Tagungsband der 1. Clusterkonferenz 2018 - Innovative Technologien für die Pflege, pp. 131-136, BIS-Verl. der Carl von Ossietzky Universität Oldenburg, 2018
    BibTeX
    @Conference {Kordts2018,
      author = {B. Kordts and J.P. Kopetz and K. Balzer and N. Jochems},
      title = {Requirements for a System Supporting Patient Communication in Intensive Care in Germany},
      booktitle = {Zukunft der Pflege : Tagungsband der 1. Clusterkonferenz 2018 - Innovative Technologien f{\"u}r die Pflege},
      year = {2018},
      pages = {131-136},
      publisher = {BIS-Verl. der Carl von Ossietzky Universit{\"a}t Oldenburg},
      organization = {BIS-Verl. der Carl von Ossietzky Universit{\"a}t Oldenburg},
      isbn = {978-3-8142-2367-4},
      editor = {Susanne Boll and Andreas Hein and Wilko Heuten and Karin Wolf-Ostermann},
      note = {BMBF Projekt Activate}
    }
    
  • M. Gehrke and T. Braun and R. Möller: Preventing Unnecessary Groundings in the Lifted Dynamic Junction Tree Algorithm. in Proceedings of the 31st Australasian Joint Conference on Artificial Intelligence, Springer, 2018
    BibTeX
    @InProceedings{Gehrke2018c,
      author = {M. Gehrke and T. Braun and R. M\"oller}, 
      title = {{Preventing Unnecessary Groundings in the Lifted Dynamic Junction Tree Algorithm}}, 
      booktitle = {Proceedings of the AI 2018: Advances in Artificial Intelligence}, 
      year = {2018},
      pages = {556--562},
      publisher = {Springer},
      isbn = {978-3-030-03991-2},
      doi = {https://doi.org/10.1007/978-3-030-03991-2_51}
    }
  • A. Henkel and B. Hussels and J.P. Kopetz and S. Krotsetis and N. Jochems and K. Balzer: Nutzer- und Aufgabenanalyse für ein sozio-technisches System zur Unterstützung der Kommunikation und Reorientierung beatmeter Patientinnen und Patienten in Intensivstationen: Ergebnisse und methodische Herausforderungen. in Zukunft der Pflege : Tagungsband der 1. Clusterkonferenz 2018 - Innovative Technologien für die Pflege, pp. 201-206, BIS-Verl. der Carl von Ossietzky Universität Oldenburg, Oldenburg, 2018
    BibTeX
    @Conference{Henkel2018,
      author = {A. Henkel and B. Hussels and J.P. Kopetz and S. Krotsetis and N. Jochems and K. Balzer},
      title = {Nutzer- und Aufgabenanalyse f{\"u}r ein sozio-technisches System zur Unterst{\"u}tzung der Kommunikation und Reorientierung beatmeter Patientinnen und Patienten in Intensivstationen: Ergebnisse und methodische Herausforderungen},
      booktitle = {Zukunft der Pflege : Tagungsband der 1. Clusterkonferenz 2018 - Innovative Technologien f{\"u}r die Pflege},
      year = {2018},
      pages = {201-206},
      publisher = {BIS-Verl. der Carl von Ossietzky Universit{\"a}t Oldenburg},
      organization = {BIS-Verl. der Carl von Ossietzky Universit{\"a}t Oldenburg},
      isbn = {978-3-8142-2367-4},
      editor = {Susanne Boll and Andreas Hein and Wilko Heuten and Karin Wolf-Ostermann},  
      address = {Oldenburg},
      note = {BMBF Projekt Activate}
    }
  • L. Schröder and C. Flägel and K. Goetz and J. Steinhäuser: Mobility concepts and access to health care in a rural district in Germany: a mixed methods approach. BMC Family Practice, 2018
    BibTeX Link
    @Article{Schroeder2018,
      author = {L. Schr{\"o}der and C. Fl{\"a}gel and K. Goetz and J. Steinh{\"a}user},
      title = {Mobility concepts and access to health care in a rural district in Germany: a mixed methods approach},
      journal = {BMC Family Practice},
      year = {2018},
      issn = {1471-2296},
      url = {https://bmcfampract.biomedcentral.com/articles/10.1186/s12875-018-0733-6}
    }
  • M. Gehrke and T. Braun and R. Möller: Lifted Dynamic Junction Tree Algorithm. in Proceedings of the International Conference on Conceptual Structures, pp. 55-69, Springer, 2018
    BibTeX
    @InProceedings{Gehrke2018a,
      author = {M. Gehrke and T. Braun and R. M\"oller},
      title = {{Lifted Dynamic Junction Tree Algorithm}},
      booktitle = {Proceedings of the International Conference on Conceptual Structures},
      year = {2018},
      pages = "55--69"
      publisher = {Springer},
      doi = {https://doi.org/10.1007/978-3-319-91379-7_5}
    }
  • M. Stelzner and F. Busse and S. Ebers: In-Body Nanonetwork Routing based on MANET and THz. in 5th ACM International Conference on Nanoscale Computing and Communication 2018 (ACM NanoCom`18), Reykjavik, Iceland, Sep, 2018
    BibTeX
    @InProceedings{Stelzner2018,
      author = {M. Stelzner and F. Busse and S. Ebers},
      title = {In-Body Nanonetwork Routing based on {MANET} and {THz}},
      booktitle = {5th ACM International Conference on Nanoscale Computing and Communication 2018 (ACM NanoCom'18)},
      address = {Reykjavik, Iceland},
      year = {2018},
      month = {Sep},
      days = {5},
      numpages = {6},
      doi = {10.1145/3233188.3233197},
      isbn = {978-1-4503-5711-1/18/09},
      keywords = {Routing; Nanonetworks; Algorithm; Hop Count; Identity-Free},
      abstract = {Devices at the nanoscale are envisioned to be used in medical applications
    	to detect and treat diseases within a human body. However,
    	due to its severe resource constraints, a nanoscale device might not
    	execute complex tasks on its own. For this, we envision a medical
    	nanonetwork, comprising an in-body network built of nanonodes
    	and a Body Area Network (BAN) built of macroscale devices coordinating
    	and controlling the nanonodes. Due to the characteristics
    	of the in-body network and its nodes, conventional routing protocols
    	for macroscale mobile ad-hoc networks (MANET) are not directly
    	applicable and novel approaches are needed. However, since
    	a nanonetwork shares some characteristics of macroscale MANETs,
    	we identied promising protocols and evaluated their suitability for
    	nanonetworks using THz communication. We define requirements
    	for their applicability and compared their performance.}
    }
  • J.P. Kopetz and A.-K. Vandereike and S. Burgsmüller and M. Sengpiel and N. Jochems: How should `BIRDY` look and feel? Designing a new interaction device for intensive care patients based on user preferences. in 20th Congress of International Ergonomics Association - IEA 2018, Florence, 2018
    BibTeX
    @Conference{Kopetz2018b,
      author = {J.P. Kopetz and A.-K. Vandereike and S. Burgsm\"uller and M. Sengpiel and N. Jochems},
      title = {{How should `BIRDY' look and feel? Designing a new interaction device for intensive care patients based on user preferences}},
      booktitle = {20th Congress of International Ergonomics Association - IEA 2018},
      year = {2018},
      address = {Florence}
    }
    
  • F. Büther and I. Traupe and S. Ebers: Hop Count Routing: A Routing Algorithm for Resource Constrained, Identity-Free Medical Nanonetworks. in 5th ACM International Conference on Nanoscale Computing and Communication 2018 (ACM NanoCom`18), Reykjavik, Iceland, Sep, 2018
    BibTeX
    @InProceedings{Buether2018,
      author = {F. {B{\"u}ther} and I. Traupe and S. Ebers},
      title = {Hop Count Routing: A Routing Algorithm for Resource Constrained, {Identity-Free} Medical Nanonetworks},
      booktitle = {5th ACM International Conference on Nanoscale Computing and Communication 2018 (ACM NanoCom'18)},
      address = {Reykjavik, Iceland},
      year = {2018},
      month = {Sep},
      days = {5},
      numpages = {6},
      doi = {10.1145/3233188.3233193},
      isbn = {978-1-4503-5711-1/18/09},
      keywords = {Routing; Nanonetworks; Algorithm; Hop Count; Identity-Free},
      abstract = {Nanodevices, tiny robots operating within a human body, may help to detect and treat many kinds of diseases. As their individual abilities are limited by size, they need to work in concert. Communication provides the fundamental ability to enable this collaboration. In medicine, nanodevices act as a tool for a physician to report sensor data and receive action commands. Their communication thus flows to and from a gateway to the macro world. Routing algorithms focus on enabling these data streams. We propose a new routing algorithm for medical nanonetworks based on a network topology constructed from the hop count distance to a singular gateway. It exploits the distance as a direction indicator to deliver data towards or away from the gateway. The resource constrained nanodevices store no unique identity, but only require a single integer each. Simulation results show that a naive implementation produces exponentially many messages. We mitigate this with a second approach by removing the hop count when retrieving sensor data, which requires only a linear number of messages. Our comparison finds the latter to be more efficient in terms of transmitted messages, while the first implementation is more suitable for routing several messages in parallel.}
    }
  • D. Burmeister and B. Gerlach and A. Schrader: Formal Definition of the Smart Object Matching Problem. in The 8th International Conference on Ambient Systems, Networks and Technologies (ANT`2018), 2018
    BibTeX
    @Conference{Burmeister2018a,
      author = {D. Burmeister and B. Gerlach and A. Schrader},
      title = {Formal Definition of the Smart Object Matching Problem},
      booktitle = {The 8th International Conference on Ambient Systems, Networks and Technologies (ANT'2018)},
      year = {2018}
    }
  • S. Schiff and M. Gehrke and R. Möller: Efficient Enriching of Synthesized Relational Patient Data with Time Series Data. Procedia Computer Science, no. 141, pp. 531 - 538, Elsevier Science, 2018
    BibTeX
    @Article{Schiff2018,
      author = {S. Schiff and M. Gehrke and R. M\"oller}, 
      title = {{Efficient Enriching of Synthesized Relational Patient Data with Time Series Data}}, 
      journal = {Procedia Computer Science},
      volume = {141},
      pages = {531 - 538},
      year = {2018},
      note = {The 8th International Conference on Current and Future Trends of Information and Communication Technologies in Healthcare (ICTH-2018) / Affiliated Workshops},
      issn = {1877-0509},
      doi = {https://doi.org/10.1016/j.procs.2018.10.130},
      publisher = {Elsevier Science}
    }
    
  • R. Geyer and M. Stelzner and F. Büther and S. Ebers: BloodVoyagerS - Simulation of the work environment of medical nanobots. in 5th ACM International Conference on Nanoscale Computing and Communication 2018 (ACM NanoCom`18), Reykjavik, Iceland, Sep, 2018
    BibTeX
    @InProceedings{Geyer2018,
      author = {R. Geyer and M. Stelzner and F. {B{\"u}ther} and S. Ebers},
      title = {{BloodVoyagerS} - Simulation of the work environment of medical nanobots},
      booktitle = {5th ACM International Conference on Nanoscale Computing and Communication 2018 (ACM NanoCom'18)},
      address = {Reykjavik, Iceland},
      year = {2018},
      month = {Sep},
      days = {5},
      ages = {},
      isbn = {},
      keywords = {Nanonetworks; Simulation; Medical Application; Nano medicine},
      abstract = {The simulation of nanobots in their working environment is crucial to
    	promote their application in the medical context. Several simulators for
    	nanonetworks investigate new communication paradigms at nanoscale. However,
    	the influence of the environment, namely the human body, on the movement
    	and communication of nanobots was not considered so far. We propose a
    	framework for simulating medical nanonetworks, which integrates a
    	nanonetwork simulator with a body simulator. We derive requirements for a
    	body model that forms the basis for our prototypical implementation of the
    	body simulator BloodVoyagerSas part of the network simulator ns-3. An
    	evaluation shows that BloodVoyagerS successfully moves nanobots in the
    	simulated cardiovascular system. After about 7 minutes, the nanobot
    	distribution reaches a dynamic equilibrium. The prototype shows promise to
    	provide a more realistic full-body simulation to investigate movement and
    	communication of nanobots in medical applications.}
    }
  • M. Gehrke and T. Braun and R. Möller: Answering Multiple Conjunctive Queries with the Lifted Dynamic Junction Tree Algorithm. in Proceedings of the 31st Australasian Joint Conference on Artificial Intelligence, Springer, 2018
    BibTeX
    @InProceedings{Gehrke2018d,
      author = {M. Gehrke and T. Braun and R. M\"oller}, 
      title = {{Answering Multiple Conjunctive Queries with the Lifted Dynamic Junction Tree Algorithm}}, 
      booktitle = {Proceedings of the AI 2018: Advances in Artificial Intelligence}, 
      year = {2018},
      pages = {543--555},
      publisher = {Springer},
      isbn = {978-3-030-03991-2},
      doi = {https://doi.org/10.1007/978-3-030-03991-2_50}
    }

2017

  • D. Burmeister and F. Burmann and A. Schrader: The Smart Object Description Language: Modeling Interaction Capabilities for Self-Reflection. in 2017 IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops), pp. 503-508, Kona, Big Island, Hawaii, March, 2017
    BibTeX
    @InProceedings{Burmeister2017a,
      author = {D. Burmeister and F. Burmann and A. Schrader},
      title = {{The Smart Object Description Language: Modeling Interaction Capabilities for Self-Reflection}},
      booktitle = {2017 IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops)},
      year = {2017},
      pages = {503--508},
      address = {Kona, Big Island, Hawaii},
      month = {March},
      days = {13.-17.},
    }
  • J. Steinhäuser: Telemedizin: Sicherheit. focus LIVE, 2017
    BibTeX Link
    @Article{Steinhaeuser2017c,
      author = {J. Steinh{\"a}user},
      title = {Telemedizin: Sicherheit},
      journal = {focus LIVE},
      year = {2017},
      url = {https://www.copicoh.uni-luebeck.de/fileadmin/files/Veroeffentlichungen/focus_live_032017.pdf}
    }
  • J. Steinhäuser: Telemedizin in der Hausarztpraxis. E HEALTH COM, 2017
    BibTeX Link
    @Article{Steinhaeuser2017a,
      author = {J. Steinh{\"a}user},
      title = {Telemedizin in der Hausarztpraxis},
      journal = {E HEALTH COM},
      year = {2017},
      url = {https://www.copicoh.uni-luebeck.de/fileadmin/files/Veroeffentlichungen/EHC_6_2017_Telemedizin-Studie_Steinhaeuser.pdf}
    }
  • J. Steinhäuser: Telemedizin für die Allgemeinmedizin - Qualität statt Quantität. Allgemeinarzt-online, 2017
    BibTeX Link
    @Article{Steinhaeuser2017b,
      author = {J. Steinh{\"a}user},
      title = {Telemedizin f{\"u}r die Allgemeinmedizin - Qualit{\"a}t statt Quantit{\"a}t},
      journal = {Allgemeinarzt-online},
      year = {2017},
      url = {https://www.allgemeinarzt-online.de/a/telemedizin-fuer-die-allgemeinmedizin-qualitaet-statt-quantitaet-1830553}
    }
  • M. Stelzner and F. Dressler and S. Fischer: Function Centric Nano-Networking: Addressing nano machines in a medical application scenario. Nano Communication Networks, no. 14, pp. 29 - 39, 2017
    BibTeX Link
    @Article{Stelzner2017,
      author = {M. Stelzner and F. Dressler and S. Fischer},
      title = {Function Centric Nano-Networking: Addressing nano machines in a medical application scenario},
      journal = {Nano Communication Networks},
      year = {2017},
      volume = {14},
      pages = {29 - 39},
      number = {Supplement C},
      doi = {https://doi.org/10.1016/j.nancom.2017.09.001},
      issn = {1878-7789},
      keywords = {Addressing, Internet of Nano Things, Medical application, Nano communication},
      owner = {Marc},
      timestamp = {2017.11.23},
      url = {http://www.sciencedirect.com/science/article/pii/S1878778917300042}
    }
  • F. Lau and S. Fischer: Embedding Space-Constrained Quantum-Dot Cellular Automata in Three-Dimensional Tile-Based Self-Assembly Systems. in 4th ACM International Conference on Nanoscale Computing and Communication 2017 (ACM NanoCom`17), pp. 22:1-22:6, ACM, Washington DC, USA, August, 2017
    BibTeX
    @InProceedings{Lau2017b,
      author = {F. Lau and S. Fischer},
      title = {Embedding Space-Constrained Quantum-Dot Cellular Automata in Three-Dimensional Tile-Based Self-Assembly Systems},
      booktitle = {4th ACM International Conference on Nanoscale Computing and Communication 2017 (ACM NanoCom'17)},
      address = {Washington DC, USA},
      year = {2017},
      days = {27},
      month = {August},
      pages = {22:1--22:6},
      publisher = {ACM},
      doi = {10.1145/3109453.3109457},
      keywords = {DNA-computing;quantum-dot cellular automaton;tile-based self-assembly},
      abstract = {This paper proposes and motivates a combination of different technologies to enable the construction of arbitrary three-dimensional shapes at the nanoscale with certain a"-mounts of computational power. The aforementioned technologies are tile-based self-assembly systems  and quan"-tum-dot cellular automata. Both technologies are in theory capable of universal computation, while self-assembly systems may better be utilized for construction-purposes. Since the decrease in size of CMOS technology explained by Moores law approaches its lower bound due to quantum effects at the nanoscale, we find it necessary to analyze computational models like QCA to better incorporate future requirements. This paper explains the aforementioned mathematical models and defines a possible combination of both.}
    }
    
  • D. Burmeister and N. Petter and A. Schrader: Dynamic and Constraint-based building of Ambient Applications with Self-Reflective Smart Objects. Procedia Computer Science, no. 109, pp. 458 - 465, elsevier, 2017
    BibTeX
    @Article{Burmeister2017b,
      author = {D. Burmeister and N. Petter and A. Schrader},
      title = {{Dynamic and Constraint-based building of Ambient Applications with Self-Reflective Smart Objects }},
      journal = {Procedia Computer Science},
      year = {2017},
      volume = {109},
      pages = {458 -- 465},
      issn = {1877-0509},
      note = {8th International Conference on Ambient Systems, Networks and Technologies, ANT-2017 and the 7th International Conference on Sustainable Energy Information Technology, SEIT 2017, 16-19 May 2017, Madeira, Portugal},
      publisher = {elsevier},
    }
  • F. Lau and F. Büther and B. Gerlach: Computational Requirements for Nano-Machines: There is Limited Space at the Bottom. in 4th ACM International Conference on Nanoscale Computing and Communication 2017 (ACM NanoCom`17), pp. 11:1-11:6, ACM, Washington DC, USA, August, 2017
    BibTeX
    @InProceedings{Lau2017a,
      author = {F. Lau and F. Büther and B. Gerlach},
      title = {Computational Requirements for {Nano-Machines:} There is Limited Space at the Bottom},
      booktitle = {4th ACM International Conference on Nanoscale Computing and Communication 2017 (ACM NanoCom'17)},
      address = {Washington DC, USA},
      year = {2017},
      days = {27},
      month = {August},
      pages = {11:1--11:6},
      publisher = {ACM},
      doi = {10.1145/3109453.3109458},
      keywords = {Nanonetworks; Computational Complexity; Space-Complexity;Nano-Machines},
      abstract = {Akyildiz et al. envisioned the use of nanonetworks as a new paradigm for computation on a very small scale. Since then, many scientists researched dependent aspects like nanoscale communication. However, most research omitted specifying the computational complexity required for their respective scenarios. To close this gap, we analyzed numerous medical scenarios and extracted the formal problems to be solved. We then compared the resulting formal problems using computational complexity theory and displayed them sorted into the classes AC 0, NC 1 and L. Lastly, we describe the benefits of our results for simulation purposes and to better assess the feasibility of nanonetwork scenarios.}
    }
  • J. Steinhäuser and IHK: Chancen durch Telemedizin. wirtschaft, 2017
    BibTeX Link
    @Article{Steinhaeuser2017d,
      author = {J. Steinh{\"a}user and IHK},
      title = {Chancen durch Telemedizin},
      journal = {wirtschaft},
      year = {2017},
      url = {https://www.copicoh.uni-luebeck.de/fileadmin/files/Veroeffentlichungen/COPICOH_IHK_Wirtschaft_12-2017.pdf}
    }
  • F. Büther and F. Lau and M. Stelzner and S. Ebers: A Formal Definition for Nanorobots and Nanonetworks. in The 17th International Conference on Next Generation Wired/Wireless Advanced Networks and Systems + The 10th conference on Internet of Things and Smart Spaces (NEW2AN ruSMART 2017), Springer, St.Petersburg, Russia, Sep, 2017
    BibTeX
    @InProceedings{Buether2017,
      author = {F. Büther and F. Lau and M. Stelzner and S. Ebers},
      title = {A Formal Definition for Nanorobots and Nanonetworks},
      booktitle = {The 17th International Conference on Next Generation Wired/Wireless Advanced Networks and Systems + The 10th conference on Internet of Things and Smart Spaces (NEW2AN ruSMART 2017)},
      address = {St.Petersburg, Russia},
      days = {27},
      publisher = {Springer},
      month = {Sep},
      year = {2017},
      keywords = {Nanorobot; Nanonetwork; Definition; Nanomachine; Machine Model},
      abstract = {Nano computation and communication research examines nanosized devices like sensor nodes or robots. Over the last decade, it has attracted attention from many different perspectives, including material sciences, biomedical engineering, and algorithm design. With growing maturity and diversity, a common terminology is increasingly important. In this paper, we analyze the state of the art of nanoscale computational devices, and infer common requirements. We combine these with definitions for macroscale machines and robots to define Nanodevices, an umbrella term that includes all nanosized artificial devices. We derive definitions for Nanomachines and Nanorobots, each with a set of mandatory and optional components. Constraints concerning artificiality and purpose distinguish Nanodevices from nanoparticles and natural life forms. Additionally, we define a Nanonetwork as a network comprised of Nanodevices, and show the specific challenges for Medical Nanorobots and Nanonetworks. We integrate our def   	inition into the current research of Nanodevice components with a set of examples for electronic and biological implementations.},
      doi = {https://doi.org/10.1007/978-3-319-67380-6_20}
    }

2016

  • J. Steinhäuser: Telemedizin: Hausärzte wollen mitreden. Der Hausarzt, 2016
    BibTeX Link
    @Article{Steinhaeuser2016,
      author = {J. Steinh{\"a}user},
      title = {Telemedizin: Haus{\"a}rzte wollen mitreden},
      journal = {Der Hausarzt},
      year = {2016},
      url = {http://www.derhausarzt.eu/hausarzt/2016/20/48-49.pdf}
    }
  • M. Stelzner and F. Lau and K. Freundt and F. Büther and M. Nguyen and C. Stamme and S. Ebers: Precise Detection and Treatment of Human Diseases Based on Nano Networking. in 11th International Conference on Body Area Networks (BODYNETS 2016), pp. 58-64, EAI, Turin, Italy, December, 2016
    BibTeX Link
    @InProceedings{Stelzner2016b,
      author = {M. Stelzner and F. Lau and K. Freundt and F. Büther and M. Nguyen and C. Stamme and S. Ebers},
      title = {{Precise Detection and Treatment of Human Diseases Based on Nano Networking}},
      booktitle = {11th International Conference on Body Area Networks (BODYNETS 2016)},
      address = {Turin, Italy},
      year = {2016},
      month = {December},
      pages = {58--64},
      publisher = {EAI},
      url = {http://dl.acm.org/citation.cfm?id=3068615.3068631},
      abstract = {highlight, This paper presents an elaborate scenario to and detect,
    	motivate interdisciplinary computer science involvement in nanotechnology
    	for medical applications. Our scenario illustrates how nanotechnology
    	can be employed to and morbidity, potentially directly treat infectious
    	diseases as a paradigm for human disorders associated with high and
    	mortality. Thus, more precise techniques that monitor the presence
    	and (host-, concentration of critical marker molecules and pathogen-derived)
    	may be applicable at an earlier stage of the disease. Moreover, since
    	the concentration threshold varies from person to person, continuous
    	and diagnostic, individualized monitoring of both and detect, therapeutic
    	measures is required. To and treat diseases directly at the affected
    	location, we propose the usage of an in-body nano network build by
    	nano machines. To report ndings and receive commands from outside
    	of the body, the nano network is connected to a body area network
    	via gateways. In this paper, we discuss the capabilities of nano
    	machinery and architecture., presents the aforementioned network},
      owner = {Marc},
      timestamp = {2017.01.31}
    }
  • D. Burmeister and A. Schrader: Interusability durch ambiente Hilfestellung für Interaktion mit dem Internet der Dinge. in VDE Kongress 2016: Internet der Dinge (VDE Kongress 2016), pp. 72, VDE, Congress Center Rosengarten, Mannheim, Germany, November, 2016
    BibTeX
    @InProceedings{Burmeister2016,
      author = {D. Burmeister and A. Schrader},
      title = {{Interusability durch ambiente Hilfestellung f{\"u}r Interaktion mit dem Internet der Dinge}},
      booktitle = {VDE Kongress 2016: Internet der Dinge (VDE Kongress 2016)},
      year = {2016},
      pages = {72},
      address = {Congress Center Rosengarten, Mannheim, Germany},
      month = {November},
      publisher = {VDE},
      days = {6},
      keywords = {Internet of Things; Usability; Ambiente Hilfestellung; Reflexion},
    }
  • M. Stelzner and F. Dressler and S. Fischer: Function Centric Networking: an Approach for Addressing in In-Body Nano Networks. in 3rd ACM International Conference on Nanoscale Computing and Communication 2016 (ACM NanoCom`16), pp. 38:1-38:2, ACM, New York City, USA, September, 2016
    BibTeX
    @InProceedings{Stelzner2016a,
      author = {M. Stelzner and F. Dressler and S. Fischer},
      title = {Function Centric Networking: an Approach for Addressing in {In-Body} Nano Networks},
      booktitle = {3rd ACM International Conference on Nanoscale Computing and Communication 2016 (ACM NanoCom'16)},
      address = {New York City, USA},
      year = {2016},
      month ={September},
      pages = {38:1--38:2},
      publisher = {ACM},
      doi = {10.1145/2967446.2967479},
      abstract = {We are looking at the combination of in-body nano communication with
    	the Internet of Things (IoT) and the resulting research challenges
    	in the Internet of Nano Things (IoNT). It is this combination that
    	enables a wide range of new applications, particularly in the biomedical
    	domain. One of the many challenges in functional and non-functional
    	aspects is the addressing and naming of nodes in a nano network.
    	Our study in this area not only includes top-down techniques driven
    	from today's IoT, but also new bottom-up ideas, originating from
    	molecular level communication. In this paper we come up with a summary
    	of theoretical, simulated and realized ideas to draw conclusions
    	about implementation and performance potential before we present
    	our concept for addressing through Function Centric Networking focusing
    	on medical in-body communication scenarios. It allows us to address
    	specific groups of interchangeable and replaceable nano machines
    	in a network, while it does not rely on the durability and uniqueness
    	of individual nodes.},
      days = {28},
      timestamp = {2016.08.29}
    }