Nicholas Troutman scite author profile

As the number of personal computing and IoT devices grows rapidly, so does the amount of computational power that is available at the edge. Many of these devices are often idle and constitute an untapped resource which could be used for outsourcing computation. Existing solutions for harnessing this power, such as volunteer computing (e.g., BOINC), are centralized platforms in which a single organization or company can control participation and pricing. By contrast, an open market of computational resources, where resource owners and resource users trade directly with each other, could lead to greater participation and more competitive pricing.To provide an open market, we introduce MODiCuM, a decentralized system for outsourcing computation. MODiCuM deters participants from misbehaving-which is a key problem in decentralized systems-by resolving disputes via dedicated mediators and by imposing enforceable fines. However, unlike other decentralized outsourcing solutions, MODiCuM minimizes computational overhead since it does not require global trust in mediation results. We provide analytical results proving that MODiCuM can deter misbehavior, and we evaluate the overhead of MODiCuM using experimental results based on an implementation of our platform. CCS CONCEPTS• Information systems → Computing platforms; • Computing methodologies → Distributed algorithms; • Computer systems organization → Cloud computing.

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PoolParty: Efficient Blockchain-Agnostic Decentralized Mining Pool

Troutman

Lászka

2021

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Moving Target Defense for Space Systems.

Jenkins¹,

Vugrin²,

Manickam³

et al. 2021

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Space systems provide many critical functions to the military, federal agencies, and infrastructure networks. Nationstate adversaries have shown the ability to disrupt critical infrastructure through cyber-attacks targeting systems of networked, embedded computers. Moving target defenses (MTDs) have been proposed as a means for defending various networks and systems against potential cyber-attacks. MTDs differ from many cyber resilience technologies in that they do not necessarily require detection of an attack to mitigate the threat. We devised a MTD algorithm and tested its application to a real-time network. We demonstrated MTD usage with a real-time protocol given constraints not typically found in best-effort networks. Second, we quantified the cyber resilience benefit of MTD given an exfiltration attack by and adversary. For our experiment, we employed MTD which resulted in a reduction of adversarial knowledge by 97%. Even when the adversary can detect when the address changes, there is still a reduction in adversarial knowledge when compared to static addressing schemes. Furthermore, we analyzed the core performance of the algorithm and characterized its unpredictability using nine different statistical metrics. The characterization highlighted the algorithm has good unpredictability characteristics with some opportunity for improvement to produce more randomness.

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Moving Target Defense for Space Systems

Jenkins

Vugrin²,

Manickam³

et al. 2021

View full text Add to dashboard Cite

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