论文信息 - Organic Resilience for Tactical Environments

Organic Resilience for Tactical Environments

In this paper we present a tactical defense infrastructure for mission survivability based on three core inspirations from biological systems: multi-potentiation, feedback mechanisms, and redundancy. In tactical operational environments, these concepts may be realized through a combination of capabilities that include (1) dynamic allocation of resources for mission execution, (2) detection and identification of attacks and their effects, and (3) information sharing for system adaptation. As a proof-of-concept we introduce an extensible, multi-layer defense infrastructure inspired in the self-organization and resilience properties of biological systems. Two defense strategies are considered to validate the proposed model: a fast response consisting on rebooting a compromised system from a reference system image; and a slower response involving a process of identification of the attack, which then allows the node to change its base configuration and reboot to a state that is potentially immune to the same attack. Our experimental results show that the second strategy improves the overall resilience of the system for ongoing attacks after an initial exposure phase.

Carlos Perez | Marco M. Carvalho | Tom Lamkin

[1] Sok Sien. Choy,et al. Security in mobile ad hoc networks , 2000 .

[2] Marco Carvalho. A distributed reinforcement learning approach to mission survivability in tactical MANETs , 2009, CSIIRW '09.

[3] Christian Müller-Schloer,et al. Organic computing: on the feasibility of controlled emergence , 2004, CODES+ISSS '04.

[4] Yihong Zhou,et al. On MAC-layer denial of service attacks in IEEE 802.11 ad hoc networks: analysis and counter measures , 2006, Int. J. Wirel. Mob. Comput..

[5] Michalis Faloutsos,et al. Denial of service attacks at the MAC layer in wireless ad hoc networks , 2002, MILCOM 2002. Proceedings.

[6] Michal Pechoucek,et al. A Mobile Agent-Based Middleware for Opportunistic Resource Allocation and Communications , 2005, DAMAS.

[7] Jesse Kovach,et al. A cross-layer predictive routing protocol for mobile ad hoc networks , 2008, SPIE Defense + Commercial Sensing.

[8] Aniruddha S. Gokhale,et al. A multi-layered resource management framework for dynamic resource management in enterprise DRE systems , 2007, J. Syst. Softw..

[9] Jeremy Gibbons,et al. A Process Semantics for BPMN , 2008, ICFEM.

[10] Sajal K. Das,et al. Cooperative black and gray hole attacks in mobile ad hoc networks , 2008, ICUIMC '08.

[11] S. Musman,et al. Evaluating the Impact of Cyber Attacks on Missions , 2010 .