Call for Papers


The aim of the workshop is to provide a forum for researchers from both academia and industry to present the high-quality results in the area of resilient networks design and modeling.

The authors are encouraged to submit via EDAS papers describing original, previously unpublished research results, not currently under review by another conference or journal. All submitted papers will be reviewed. Paper length should not exceed 7 pages formatted according to the IEEE two-column conference template (US Letter format).



The topics cover, but are not necessarily limited to the following:
  • AI/ML techniques for resilience of networked systems,
  • business aspects of resilience,
  • cost evaluation of network resilience,
  • disaster-resilience of communication networks,
  • data plane resilience methods,
  • end-to-end network resilience,
  • energy efficiency in survivable networks,
  • fault and disruption tolerance evaluation,
  • fault management, control, and monitoring,
  • green networks resilience,
  • methods for measurement, evaluation, or validation of resilience,
  • metrics for network resilience,
  • modeling different types of failures,
  • modeling malicious behavior or attacks on networks,
  • models and algorithms of survivable networks design and modeling,
  • multilayer network resilience,
  • network dependability,
  • network redundancy optimization,
  • network resilience vs. economy-related issues,
  • new and emerging threats in cloud computing and content-oriented networks,
  • optical network survivability,
  • optimization issues in resilient network design,
  • QoS and QoE in resilient communications,
  • performance evaluation of resilient networks,
  • resilient cloud computing architectures/solutions,
  • resilient content-oriented network architectures and solutions,
  • resilience and coherence between heterogeneous components of 5G+ and 6G infrastructures,
  • resilience of 5G+ and 6G networked systems,
  • resilience of energy distribution networks,
  • resilience of data centers,
  • resilience of emerging communication technologies,
  • resilience of Industrial Control Systems,
  • resilience of interdependent networks,
  • resilience of multi-domain communications,
  • resilience of non-terrestrial networks,
  • resilience of Operational Technology (OT),
  • resilience of Software-Defined Networks (SDN),
  • resilience of vehicle-to-vehicle communications,
  • resilience of wireless networks,
  • resilience of wireless-wired communications,
  • security-related issues in resilient network design,
  • simulation/emulation techniques for network resilience,
  • standardization of network resilience,
  • survivability of Content Delivery Networks,
  • theory of network resilience,
  • wireless access networks survivability.