The growing importance of cyberspace to modern society, and its increasing use as an arena for dispute, is becoming a national security concern for governments and armed forces globally. The special characteristics of cyberspace, such as its asymmetric nature, the lack of attribution, the low cost of entry, the legal ambiguity, and its role as an efficient medium for protest, crime, espionage and military aggression, makes it an attractive domain for nation-states as well as non-state actors in cyber conflict.
This paper studies the various non-state actors who coexist in cyberspace, examines their motives and incitements, and analyzes how and when their objectives coincide with those of nation-states. Literature suggests that many nations are currently pursuing cyberwarfare capabilities, oftentimes by leveraging criminal organizations and irregular forces. Employment of such non-state actors as hacktivists, patriot hackers, and cybermilitia in state-on-state cyberspace operations has also proved to be a usable model for conducting cyberattacks. The paper concludes that cyberspace is emerging as a new tool for state power that will likely reshape future warfare. However, due to the lack of concrete cyberwarfare experience, and the limited encounters of legitimate cyberattacks, it is hard to precisely assess future effects, risks and potentials.
Summary. Disasters are characterised by their devastating effect on human lives and the society's ability to function. Unfortunately, rescue operations and the possibility to re-establish a working society after such events is often hampered by the lack of functioning communication infrastructures. This paper 3 describes the challenges ahead in creating new communication networks to support post-disaster operations, and sets them in the context of the current issues in protection of critical infrastructures. The analysis reveals that while there are some common concerns there are also fundamental differences. The paper serves as an overview of some promising research directions and pointers to existing works in these areas.
Abstract-Reconfigurable Radio Systems (RRS), based on Software Defined Radio (SDR) and Mobile Ad-hoc Network (MANET) technologies, offer considerable advantages for military operations, such as increased network survivability and interoperability. The RRS-based Common Tactical Radio System (GTRS), currently in development by the Swedish Armed Forces, is designed for use in diverse geographical settings and for purposes varying from international combat missions to national contingency operations. However, protecting these networks from attacks and safeguarding the carried information against leaks is an ongoing research challenge, especially in combined scenarios where tactical data may flow across organizational boundaries.
This paper presents a best-effort approach to Data Leakage Prevention (DLP) for inter-organizational RRS-based networks.The proposed architecture makes use of data mining techniques and an efficient n-dimensional clustering algorithm which has previously been successfully used for real-time anomaly detection in critical infrastructure protection. The DLP architecture is developed as an extension to the GTRS system, modeled and simulated in OPNET™ Modeler. Our results show that common data leaks can be efficiently identified by the proposed scheme, while keeping the important false positive rate at a very low level.
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