44,600 research outputs found
Exploring the Dynamics of Identity Based Conflict and the Possibility for its Sustainable Management: A Study of the Persistent Ethno-Religious Conflict in Wukari Area of Taraba State, Nigeria
This article explores the dynamics of identity-based conflict and the possibility for its management. The study in particular focuses on the persistent ethno-religious conflicts in the Wukari Area of Taraba State, Nigeria. The real issues precipitating the persistent ethno-religious conflicts and the costs of the conflicts were clearly brought to the fore. The study proposes a new paradigm for managing social conflicts at the community level through the \u27use of community solutions for community problems\u27 which will involve the constructive participation of all of the stakeholders in the community. This paper concludes by making a proposal for the establishment of a Truth and Reconciliation Committee (TRC) and a power sharing arrangement as strategies that could bring about lasting peace between the Jukun Christians/ Traditionalist Jukun and the Jukun Muslims/Hausa Muslims who are the warring parties in the persistent ethno-religious conflicts ravaging Wukari Local Government Area of Taraba State, Nigeria
Tuning Windowed Chi-Squared Detectors for Sensor Attacks
A model-based windowed chi-squared procedure is proposed for identifying
falsified sensor measurements. We employ the widely-used static chi-squared and
the dynamic cumulative sum (CUSUM) fault/attack detection procedures as
benchmarks to compare the performance of the windowed chi-squared detector. In
particular, we characterize the state degradation that a class of attacks can
induce to the system while enforcing that the detectors do not raise alarms
(zero-alarm attacks). We quantify the advantage of using dynamic detectors
(windowed chi-squared and CUSUM detectors), which leverages the history of the
state, over a static detector (chi-squared) which uses a single measurement at
a time. Simulations using a chemical reactor are presented to illustrate the
performance of our tools
Impact Assessment of Hypothesized Cyberattacks on Interconnected Bulk Power Systems
The first-ever Ukraine cyberattack on power grid has proven its devastation
by hacking into their critical cyber assets. With administrative privileges
accessing substation networks/local control centers, one intelligent way of
coordinated cyberattacks is to execute a series of disruptive switching
executions on multiple substations using compromised supervisory control and
data acquisition (SCADA) systems. These actions can cause significant impacts
to an interconnected power grid. Unlike the previous power blackouts, such
high-impact initiating events can aggravate operating conditions, initiating
instability that may lead to system-wide cascading failure. A systemic
evaluation of "nightmare" scenarios is highly desirable for asset owners to
manage and prioritize the maintenance and investment in protecting their
cyberinfrastructure. This survey paper is a conceptual expansion of real-time
monitoring, anomaly detection, impact analyses, and mitigation (RAIM) framework
that emphasizes on the resulting impacts, both on steady-state and dynamic
aspects of power system stability. Hypothetically, we associate the
combinatorial analyses of steady state on substations/components outages and
dynamics of the sequential switching orders as part of the permutation. The
expanded framework includes (1) critical/noncritical combination verification,
(2) cascade confirmation, and (3) combination re-evaluation. This paper ends
with a discussion of the open issues for metrics and future design pertaining
the impact quantification of cyber-related contingencies
Preventing Advanced Persistent Threats in Complex Control Networks
An Advanced Persistent Threat (APT) is an emerging attack against Industrial Control and Automation Systems, that is executed over a long period of time and is difficult to detect. In this context, graph theory can be applied to model the interaction among nodes and the complex attacks affecting them, as well as to design recovery techniques that ensure the survivability of the network. Accordingly, we leverage a decision model to study how a set of hierarchically selected nodes can collaborate to detect an APT within the network, concerning the presence of changes in its topology. Moreover, we implement a response service based on redundant links that dynamically uses a secret sharing scheme and applies a flexible routing protocol depending on the severity of the attack. The ultimate goal is twofold: ensuring the reachability between nodes despite the changes and preventing the path followed by messages from being discovered.Universidad de Málaga. Campus de Excelencia Internacional AndalucĂa Tech
On the Round Complexity of Randomized Byzantine Agreement
We prove lower bounds on the round complexity of randomized Byzantine agreement (BA) protocols, bounding the halting probability of such protocols after one and two rounds. In particular, we prove that:
1) BA protocols resilient against n/3 [resp., n/4] corruptions terminate (under attack) at the end of the first round with probability at most o(1) [resp., 1/2+ o(1)].
2) BA protocols resilient against n/4 corruptions terminate at the end of the second round with probability at most 1-Theta(1).
3) For a large class of protocols (including all BA protocols used in practice) and under a plausible combinatorial conjecture, BA protocols resilient against n/3 [resp., n/4] corruptions terminate at the end of the second round with probability at most o(1) [resp., 1/2 + o(1)].
The above bounds hold even when the parties use a trusted setup phase, e.g., a public-key infrastructure (PKI).
The third bound essentially matches the recent protocol of Micali (ITCS\u2717) that tolerates up to n/3 corruptions and terminates at the end of the third round with constant probability
An effective simulation analysis of transient electromagnetic multiple faults
Embedded encryption devices and smart sensors are vulnerable to physical attacks. Due to the continuous shrinking of chip size, laser injection, particle radiation and electromagnetic transient injection are possible methods that introduce transient multiple faults. In the fault analysis stage,
the adversary is unclear about the actual number of faults injected. Typically, the single-nibble fault analysis encounters difficulties. Therefore, in this paper, we propose novel ciphertext-only impossible differentials that can analyze the number of random faults to six nibbles. We use the impossible differentials to exclude the secret key that definitely does not exist, and then gradually obtain the
unique secret key through inverse difference equations. Using software simulation, we conducted 32,000 random multiple fault attacks on Midori. The experiments were carried out to verify the theoretical model of multiple fault attacks. We obtain the relationship between fault injection and information content. To reduce the number of fault attacks, we further optimized the fault attack method. The secret key can be obtained at least 11 times. The proposed ciphertext-only impossible differential analysis provides an effective method for random multiple faults analysis, which would
be helpful for improving the security of block ciphers
Theoretical Developments in the Light of Macroeconomic Policy and Empirical Research
The paper surveys the macroeconomic literature of the last decade with emphasis on the implications of the New Classical and Rational Expectations critiques for the Keynesian paradigm and the role of macro policies. This is done on the background of the main macro developments of the l970'a and 1980's as well as the specific lessons of recent high (chronic) inflation processes. The paper takes an eclectic view emphasizing a synthesis that is emerging in which the basic Keynesian view of the existence of market and price co-ordination failures as well as room for Pareto improving policy intervention are maintained. At the same time the theoretical underpinnings are undergoing substantial change mainly due to a 'rational expectations' (rather than 'new classical') reformulation. The new Theory of Economic Policy is also discussed and illustrated in terms of recent stabilization experience.
A Touch of Evil: High-Assurance Cryptographic Hardware from Untrusted Components
The semiconductor industry is fully globalized and integrated circuits (ICs)
are commonly defined, designed and fabricated in different premises across the
world. This reduces production costs, but also exposes ICs to supply chain
attacks, where insiders introduce malicious circuitry into the final products.
Additionally, despite extensive post-fabrication testing, it is not uncommon
for ICs with subtle fabrication errors to make it into production systems.
While many systems may be able to tolerate a few byzantine components, this is
not the case for cryptographic hardware, storing and computing on confidential
data. For this reason, many error and backdoor detection techniques have been
proposed over the years. So far all attempts have been either quickly
circumvented, or come with unrealistically high manufacturing costs and
complexity.
This paper proposes Myst, a practical high-assurance architecture, that uses
commercial off-the-shelf (COTS) hardware, and provides strong security
guarantees, even in the presence of multiple malicious or faulty components.
The key idea is to combine protective-redundancy with modern threshold
cryptographic techniques to build a system tolerant to hardware trojans and
errors. To evaluate our design, we build a Hardware Security Module that
provides the highest level of assurance possible with COTS components.
Specifically, we employ more than a hundred COTS secure crypto-coprocessors,
verified to FIPS140-2 Level 4 tamper-resistance standards, and use them to
realize high-confidentiality random number generation, key derivation, public
key decryption and signing. Our experiments show a reasonable computational
overhead (less than 1% for both Decryption and Signing) and an exponential
increase in backdoor-tolerance as more ICs are added
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