ieee1906-dot1-2015

This experimental YANG module is an individual contribution, and does not represent a formally sanctioned YANG module by IEE...

  • Organization:

    P1906.1.1/D1.0 Draft Standard Data Model for Nanoscale Communication Systems Working Group

  • Module:

    ieee1906-dot1-2015

  • Version:

    2016-12-20

  • File:

    ieee1906-dot1-2015@2016-12-20.yang

  • Abstract:

    This experimental YANG module is an individual contribution, and does not represent a formally sanctioned YANG module by IEE...

  • Contact:

    IEEE P1906.1.1 Working Group
    Chair: Stephen F. Bush <bushsf@research.ge.com>
    Secretary: Guillaume Mantelet <guillaume.mantelet@ge.com>

  • Check for an additional details:

    YANG Catalog

  • Description:

    This experimental YANG module is an individual contribution, and
    does not represent a formally sanctioned YANG module by IEEE.
    Therefore, this YANG module will change in incompatible ways
    from its current revision to the formally published YANG
    module for IEEE 1906.1.1 Standard Data Model for Nanoscale
    Communication Systems.

    This is the YANG model for the IEEE 1906.1-2015 - Recommended Practice for Nanoscale and Molecular Communication Framework.
    There are several objectives for this model.
    (1) From an implementation standpoint, it provides a common management and configuration model for nanoscale communication devices compliant to IEEE 1906.1-2015.
    (2) From a design standpoint, it embodies the requirements to be compliant with IEEE 1906.1-2015. Thus, it serves to help inform the design on any nanoscale communication system.
    (3) From an archival perspective, it serves to document nanoscale communication systems. By populating this YANG model for specific models and use-cases, it serves to describe the nanoscale communication system. This can be useful for keeping repositories of research into such systems.
    (4) Finally, it exercises the ability of the YANG modeling language to handle fundamental physics. Because nanoscale communication exists on a scale that necessarily relies directly upon underlying physical properties and interactions, it begins to create a direct bridge between communications and physics.
    (5) TBD: The YANG model can serve as input and monitoring for ns-3 simulation and Mathematica/MATLAB models. Features/deviations can be added for these if necessary.
    (6) TBD: The YANG model can log and track message carriers.
    (7) TBD: Notifications from the simulation/math tools can be defined.
    (8) TBD: The YANG model can serve as a self-documenting archival tool for experimental results.

    TODO:
    1. Explain to integrate with standard IETF YANG models
    2. Demonstrate using this module with use-cases
    3. Write companion paper

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