Jan Rozhon scite author profile

In recent years, noticeable progress has been made in the development of quantum equipment, reflected through the number of successful demonstrations of Quantum Key Distribution (QKD) technology. Although they showcase the great achievements of QKD, many practical difficulties still need to be resolved. Inspired by the significant similarity between mobile ad-hoc networks and QKD technology, we propose a novel quality of service (QoS) model including new metrics for determining the states of public and quantum channels as well as a comprehensive metric of the QKD link. We also propose a novel routing protocol to achieve high-level scalability and minimize consumption of cryptographic keys. Given the limited mobility of nodes in QKD networks, our routing protocol uses the geographical distance and calculated link states to determine the optimal route. It also benefits from a caching mechanism and detection of returning loops to provide effective forwarding while minimizing key consumption and achieving the desired utilization of network links. Simulation results are presented to demonstrate the validity and accuracy of the proposed solutions.

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Prediction model of QoS for Triple play services

Frnda

Vozňák

Rozhon

et al. 2013

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The aim of this work is to design an application utilizing the QoS prediction model for Triple play services, the input parameters of which are used QoS policies and network state. In order to analyze the efficiency of individual policies designed for serving the packet queues, it was necessary to perform practical measurements in an overloaded network and monitor the total network delay, Jitter and packet loss. Results of the measurements after the conformance check were used for purposes of creating QoS prediction models for each type of service (voice, video and data).

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Deep Learning Serves Voice Cloning: How Vulnerable Are Automatic Speaker Veriﬁcation Systems to Spooﬁng Trials?

et al. 2020

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Efficient Matching-Based Parallel Task Offloading in IoT Networks

Malik

Javed

Frnda

et al. 2022

Sensors

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Fog computing is one of the major components of future 6G networks. It can provide fast computing of different application-related tasks and improve system reliability due to better decision-making. Parallel offloading, in which a task is split into several sub-tasks and transmitted to different fog nodes for parallel computation, is a promising concept in task offloading. Parallel offloading suffers from challenges such as sub-task splitting and mapping of sub-tasks to the fog nodes. In this paper, we propose a novel many-to-one matching-based algorithm for the allocation of sub-tasks to fog nodes. We develop preference profiles for IoT nodes and fog nodes to reduce the task computation delay. We also propose a technique to address the externalities problem in the matching algorithm that is caused by the dynamic preference profiles. Furthermore, a detailed evaluation of the proposed technique is presented to show the benefits of each feature of the algorithm. Simulation results show that the proposed matching-based offloading technique outperforms other available techniques from the literature and improves task latency by 52% at high task loads.

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Security Analysis System to Detect Threats on a SIP VoIP Infrasctructure Elements

Rezac¹,

Vozňák²,

Tomala³

et al. 2011

AEEE

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Jan Rozhon

A Novel Approach to Quality-of-Service Provisioning in Trusted Relay Quantum Key Distribution Networks

Prediction model of QoS for Triple play services

Deep Learning Serves Voice Cloning: How Vulnerable Are Automatic Speaker Veriﬁcation Systems to Spooﬁng Trials?

Efficient Matching-Based Parallel Task Offloading in IoT Networks

Security Analysis System to Detect Threats on a SIP VoIP Infrasctructure Elements

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