2019

• Marc Stelzner and Immo Traupe: FCNN: Location Awareness Based on a Lightweight Hop Count Routing Body Coordinates Concept. in 6th ACM International Conference on Nanoscale Computing and Communication 2019 (ACM NanoCom`19), Dublin, Ireland, Sep, 2019
  

  @inproceedings{FCCN2019,
  author = {Marc Stelzner and Immo Traupe},
  title = {FCNN: Location Awareness Based on a Lightweight Hop Count Routing Body Coordinates Concept},
  BOOKTITLE={6th ACM International Conference on Nanoscale Computing and Communication
  2019 (ACM NanoCom'19)},
  ADDRESS={Dublin, Ireland},
  DAYS={24},
  year = {2019},
  month = {09},
  pages = {},
  isbn = {978-1-4503-6897-1},
  doi = {10.1145/3345312.3345493},
  keywords={NCN},
  ABSTRACT={Systemic administration of drugs against usually local diseases or
  injuries often leads to undesirable side effects but is a common procedure
  due to the lack of precisely applicable administration methods.
  To precisely detect and treat diseases, we present a Function
  Centric Nano-Networking approach as a lightweight localization
  method to provide a foundation for location aware monitoring and
  treatment. We present our preliminary findings of an algorithm
  based on Hop Count Routing enhanced into a concept for body
  coordinates represented by a colorized model implemented in ns-3.}
  }

2018

• Florian Büther and Immo Traupe and Sebastian 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
  

  @inproceedings{Buether2018Hop,
    author={Florian {B{\"u}ther} and Immo Traupe and Sebastian 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,NCN},
    url={https://dx.doi.org/10.1145/3233188.3233193},
    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.}
  }