The 10th ACM International Workshop on Foundations of Mobile Computing

PDF version of the call for papers: FOMC 2014 CFP

Overview

With the growing ubiquity of mobile communication devices in our daily lives, mobile computing is emerging as an important new field in computer science. This increasing interaction between mobility, communication and computing has generated a number of challenging algorithmic issues in diverse areas, including coverage, mobility, routing, cooperation, capacity planning, scheduling, and power control.

The Foundations of Mobile Computing (FOMC) workshop is dedicated to these issues. It covers contributions both in the design and analysis of discrete/distributed algorithms, and in the system modeling of mobile, wireless and similarly dynamic networks. It aims to bring together the practitioners and theoreticians of the field to foster cooperation between research in mobile computing and algorithms.

Details

FOMC 2014 will be held on August 11, 2014 in Philadelphia, PA, USA, and will be co-located with the 15th ACM International Symposium on Mobile Ad Hoc Networking and Computing (MobiHoc 2014). Previous workshops (under the name DIALM-POMC through 2010) have been co-located with the Annual Symposium on Principles of Distributed Computing (PODC), the International Conference on Mobile Computing and Networking (MOBICOM), and the International Symposium on Distributed Computing (DISC).

Topics

FOMC covers all areas related to mobile and wireless computing and communications where discrete algorithms and methods are used. Specific topics include, but are not limited to the following:

  • Models of mobility and dynamic networks, and algorithmic
       aspects of mobility, including:
    • autonomous agents
    • population protocols
    • natural algorithms for mobile agents
    • dynamic graph algorithms
    • local algorithms
    • distributed optimization
  • Game-theoretic and economic aspects of mobility:
       incentives and cooperation
  • Cryptographic and combinatorial methods for mobility
  • Gossiping and information diffusion
  • Communication protocols, including routing, multicast and
       broadcast
  • Scheduling and network capacity
  • Data link protocols: MAC, channel allocation, cognitive
       radio networks
  • Topology discovery, localization and clock synchronization
  • Location- and context-aware distributed applications,
       sensor networks
  • Emerging networks, including delay-tolerant networks,
       mobile social applications, vehicular networks
  • Fault tolerance and security
  • Energy saving methods and protocols