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@BOOK{Schlsser:829550,
      author       = {Schlösser, Mario},
      title        = {{I}mplementierung eines {F}unk-{P}rotokolls ({IEEE}
                      802.15.4) und {E}ntwicklung eines adaptiven
                      {Z}eitsynchronisationsverfahrens für ein {N}etzwerk
                      intelligenter und autarker {S}ensoren},
      volume       = {5},
      address      = {Jülich},
      publisher    = {Forschungszentrum Jülich GmbH Zentralbibliothek, Verlag},
      reportid     = {FZJ-2017-03235},
      isbn         = {978-3-89336-519-7},
      series       = {Schriftenreihen des Forschungszentrums Jülich. Reihe
                      Gesundheit / Health},
      pages        = {77 S.},
      year         = {2008},
      abstract     = {Implementation of a RF-Protocol (IEEE 802.15.4) and
                      Development of an Adaptive Time Synchronisation Method for a
                      Network of Intelligent and Autarkic Sensors Understanding
                      the extremely precise auditory based 3D-orientation of Barn
                      Owls is an outstanding challenge in neurophysiological
                      research. For this purpose as well as for the
                      instrumentation of neurological rehabilitation and sleep
                      research our miniaturized intelligent Sensor and Actuator
                      Network for Life science Applications (iSANLA) will form a
                      solid foundation providing sample rates up to 16 kHz. Based
                      on the IEEE 802.15.4 wireless standard a compact
                      communication protocol as part of the so called intelligent
                      Network Operating Device (iNODE) has been developed and
                      implemented to run on the ultra low power microcontroller
                      platform MSP430 from Texas Instruments. Embedded into the
                      preliminary developed frame based operating system (FRABOS)
                      this protocol allows bidirectional communication between
                      each sensor node and a PC within a star topology. Therefore
                      only 7kByte flash of the MCU resources are needed to achieve
                      a net data rate of 141kBit/s. A time synchronization
                      protocol based on the Reference Broadcast Synchronization
                      (RBS) has been developed in order to merge the acquired data
                      of the distributed iNODE preserving causality. Hence the
                      time synchronous start of the data acquisition inside a
                      network of multiple sensors with a precision better than the
                      highest sample rate is a must . The development of this
                      adaptive time synchronization protocol ensures synchronous
                      measurement start and a frame based duty cycle adjustment
                      with an appropriate precision proven by a jitter below 2ps.
                      Overall the implemented Ultra Small Stack communication
                      protocol creates an avenue for live-streaming 8 kHz
                      measurements with up to 16Bit accuracy and provides enormous
                      potential for future bio medical and neurophysiological
                      applications.},
      organization  = {Jülich (Germany)},
      cin          = {ZEA-2},
      cid          = {I:(DE-Juel1)ZEA-2-20090406},
      pnm          = {344 - Clinical and Health Care Research (POF3-344)},
      pid          = {G:(DE-HGF)POF3-344},
      typ          = {PUB:(DE-HGF)3},
      url          = {https://juser.fz-juelich.de/record/829550},
}