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1. DPUAUT: Secure Authentication Protocol With SmartNiC Integration for Trustworthy Communications in Intelligent Swarm Systems

Author

Rana Abu Bakar, Francesco Paolucci, Filippo Cugini, Piero Castoldi, and Juan Jose Vegas Olmos

Subjects
Secure network, authentication, intelligent swarm, SmartNiC, data processing unit (DPU), physical unclonable functions (PUF), Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Swarm devices are becoming increasingly prevalent in next-generation networks because they can efficiently handle large-scale distributed computing tasks. The traditional cloud-based frameworks are not suitable for swarm devices due to their low latency and scalability requirements. Moreover, these frameworks are vulnerable to security threats when communicating over unsecured networks. Edge computing addresses these challenges, but it suffers from several security issues, such as device authentication, access control, and privacy issues for swarm devices. Many authentication protocols have been proposed to protect from these attacks, but most of them are vulnerable to physical attacks due to the keys stored in device memory. Physical Unclonable Function (PUF)s can significantly enhance the physical security of these devices by generating a unique identifier for each device, making it difficult for attackers to physically clone or impersonate these devices. In this paper, we propose a provably secure authentication protocol using a Bluefield Data Processing Unit (DPU), enabling one-round mutual authentication while preserving anonymity and preventing physical attacks using PUF. We conduct security analyses comprehensively, which provide evidence of its strong resilience against attacks. Experimental evaluation confirms its dominance over existing solutions. The DPUAUT swarm authentication protocol has a low computational overhead of $6.161ms$ , and the communication overhead is $1052Bits$ .

Published
2024
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2. Falcon/Kyber and Dilithium/Kyber Network Stack on Nvidia’s Data Processing Unit Platform

Author

D. C. Lawo, R. Frantz, A. Cano Aguilera, X. Arnal I Clemente, M. P. Podles, Jose L. Imana, I. Tafur Monroy, and J. J. Vegas Olmos

Subjects
Data processing units, Dilithium, falcon, Kyber, post-quantum cryptography, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Commercially available quantum computers are expected to reshape the world in the near future. They are said to break conventional cryptographic security mechanisms that are deeply embedded in our today’s communication. Symmetric cryptography, such as AES, will withstand quantum attacks as long as the key sizes are doubled compared to today’s key lengths. Asymmetric cryptographic procedures, e.g. RSA, however are broken. It is therefore necessary to change the way we assure our privacy by adopting and moving towards post-quantum cryptography (PQC) principles. In this work, we benchmark three PQC algorithms, Falcon, Dilithium, and Kyber. Moreover, we present an implementation of a PQC stack consisting of the algorithms Dilithium/Kyber and Falcon/Kyber which use hardware accelerators for some key functions and evaluate their performance and resource utilization. Regarding a classic server-client model, the computational load of the Dilithium/Kyber stack is distributed more equally among server and client. The stack Falcon/Kyber biases the computational challenges towards the server, hence relieving the client of performing costly operations. We found that Dilithium’s advantage over Falcon is that Dilithium’s execution is faster while the workload to be performed is distributed equally among client and server, whereas Falcon’s advantage over Dilithium lies within the small signature sizes and the unequally distributed computational tasks. In a client server model with a performance limited client (i.e. Internet-of-Things - IoT - environments) Falcon could proof useful for it constrains the computational hard tasks to the server and leaves a minimal workload to the client. Furthermore, Falcon requires smaller bandwidth, making it a strong candidate for deep-edge or IoT applications.

Published
2024
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9. Hardware-Accelerated FaaS for the Edge-Cloud Continuum

Author

Nanos, Anastasios, primary, Kretsis, Aristotelis, additional, Mainas, Charalampos, additional, Ntouskos, George, additional, Ferikoglou, Aggelos, additional, Danopoulos, Dimitrios, additional, Kokkinis, Argyris, additional, Masouros, Dimosthenis, additional, Siozios, Kostas, additional, Soumplis, Polyzois, additional, Kokkinos, Panagiotis, additional, Olmos, Juan Jose Vegas, additional, and Varvarigos, Emmanouel, additional

Published
2023
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28. A Riemannian Deep Learning Representation to Describe Gait Parkinsonian Locomotor Patterns

Author

Juan, Olmos and Fabio, Martinez

Subjects
Deep Learning, Humans, Neurodegenerative Diseases, Parkinson Disease, Gait, Algorithms, Retrospective Studies
Abstract

Parkinson is the second most common neurodegenerative disease, mainly related to progressive locomotor alterations caused by dopamine deficiency. The gait kinematic is a principal disease biomarker that associates patterns like the step length, flexed posture, and bradykinesia with disease progression. Nonetheless, these patterns are analyzed from invasive setups that only capture coarse dynamics at advanced disease stages. This work introduces a very compact and robust deep representation that effectively learns a Riemannian manifold to describe locomotor parkinsonian patterns. Contrary to traditional deep strategies, the presented framework fully explores data geometry from input mean covariance matrices representing video sequences. These symmetric positive definite (SPD) matrices lie in a Riemannian manifold. Then such matrices are projected to the SPD net, which learns a bank of SPD matrices from a non-linear training, that may be exploited in a hierarchical composition from a set of layers. In a final layer, a projection in a Euclidean space allows learning the discriminatory patterns of PD w.r.t control population. In a retrospective study with a total of 22 patients (11 Parkinson's and 11 controls), the proposed approach achieves a remarkable classification between Parkinson's and control video sequences, correctly labeling all Parkinson's patients, and outperforming typical 3D convolutional representations. Clinical relevance- The study of gait parkinsonian descrip-tors computed from a Riemannian geometry, built from a deep representation.

Published
2022

34. Li-ion Battery-based Hybrid Diesel-Electric Railway Vehicle: In-depth Life Cycle Cost Analysis

Author

Olmos Amondarain, Josu, Gandiaga Ondaro, Iñigo, López, Dimas, Larrea Agirre, Xabier, Nieva Fatela, Txomin, Aizpuru, Iosu, Olmos Amondarain, Josu, Gandiaga Ondaro, Iñigo, López, Dimas, Larrea Agirre, Xabier, Nieva Fatela, Txomin, and Aizpuru, Iosu

Abstract

In this study, the life cycle costs of railway projects involving hybrid diesel-electric vehicles are analysed. Specifically, the analysis focuses on the comparison of 3 lithium-ion battery technologies (NMC, LTO and LFP) and 8 energy management strategies (including rule-based and optimization-based strategies). In order to develop this analysis, a methodology that returns the life cycle cost of each proposed case is presented. The methodology includes the optimization of the diesel generator and lithium-ion battery sizing. A scenario based on a real railway line is introduced, and the obtained results are compared to a traditional diesel-electric railway vehicle to develop a techno-economical discussion. The best lithium-ion battery technologies are found to be LTO and NMC, and the most appropriated strategy a state-machine controller optimised by a genetic algorithm approach. The best case obtains a life cycle cost reduction of the 4.0% and diesel savings of the 13.7% compared to a traditional diesel-electric railway vehicle. The proposed analysis is claimed to be potentially helpful for the cost-optimal design and operation definition of powertrains for hybrid railway vehicles.

Published
2022

35. Applications of P4-based Network Programmability in Optical Networks

Author

Cugini, F., Scano, D., Giorgetti, A., Andrea Sgambelluri, Paolucci, F., Vegas Olmos, J. J., and Castoldi, P.

Abstract

This paper presents potentials and challenges of disaggregated metro-edge networking based on open packet-optical nodes encompassing coherent pluggable modules, SONiC open operating system, and P4-based packet switching programmability.

Published
2022

37. eLearning, assessment and Higher Education in times of pandemic: A mapping of the literature

Author

José Carlos Sánchez-Prieto, Alberto Ortiz-López, and Susana Olmos-Migueláñez

Subjects
Higher education, Process (engineering), business.industry, media_common.quotation_subject, Abandonment (legal), Public relations, Market research, Pandemic, ComputingMilieux_COMPUTERSANDEDUCATION, Quality (business), Sociology, Landline, business, media_common, Educational systems
Abstract

At this time of pandemic in which society is immersed, the abandonment of presentiality and the educational transition to the digital environment have been the main line of action followed in educational institutions in Higher Education. In this transition, the evaluation must be regarded as a guarantee for the quality, continuity, effectiveness and efficiency of educational systems and their eLearning teachings. This research proposes a mapping of the literature with the aim of discovering the conditions of research on evaluation in eLearning during the pandemic in Higher Education. For this purpose, it is based on objective criteria for selecting publications, and the phases followed throughout all the process. The results show the growing trend in research and the necessary continuity in the study, and the opening of new lines that place evaluation at the centre of this new educational reality.

Published
2021

38. Open Educational Resources Repositories OERR: a Literature Review

Author

Ruth Garcia-Solano, Juan Manuel Gonzalez Calleros, and Ivan Olmos-Pineda

Subjects
business.industry, Political science, Educational resources, Public relations, business, Open educational resources, Period (music)
Abstract

The emergence of Open Educational Resources (OER) triggers specific characteristics in the repositories, which have had to adapt to the needs of OER users, identifying and creating specific typologies, addressed by recent research. This article presents a review of the literature on the use of OER and the adoption of specialized repositories of digital educational resources. The review shows clear evidence that there is a division between the Global North and South in terms of participation with open educational resources (OER). Too is possible to identify some persistent difficulties throughout the period analyzed, particularly those reported by teachers in terms of finding, conserving, and sharing OER, without find a solution applicable to various contexts.

Published
2021

39. SERRANO: Transparent Application Deployment in a Secure, Accelerated and Cognitive Cloud Continuum

Author

Aristotelis Kretsis, Panagiotis Kokkinos, Polyzois Soumplis, Juan Jose Vegas Olmos, Marcell Feher, Marton Sipos, Daniel E. Lucani, Dmitry Khabi, Dimosthenis Masouros, Kostas Siozios, Paraskevas Bourgos, Sofia Tsekeridou, Ferad Zyulkyarov, Efstathios Karanastasis, Efthymios Chondrogiannis, Vassiliki Andronikou, Aitor Fernandez Gomez, Silviu Panica, Gabriel Iuhasz, Anastassios Nanos, Charalampos Chalios, and Manos Varvarigos

Abstract

We are witnessing a wave of emerging cloud computing technologies and services that empower advanced applications from different vertical sectors, with diverse requirements. These trends give rise to a number of fundamental challenges that relate to the application deployment, the support of heterogeneous infrastructures and the provided security. In this setting, the SERRANO project steps in to define an intent-based paradigm of operating federated infrastructures consisting of edge, cloud and HPC resources, which will be realized through the SERRANO platform. Applications' high-level requirements will be translated to infrastructure-aware configuration parameters. SERRANO orchestration will then provide adaptive and efficient access to secure by design and accelerated resources. In this way, SERRANO will support cloud-native applications and services towards the cloud continuum.

Published
2021

44. SERRANO: Transparent Application Deployment in a Secure, Accelerated and Cognitive Cloud Continuum

Author

Kretsis, Aristotelis, primary, Kokkinos, Panagiotis, additional, Soumplis, Polyzois, additional, Olmos, Juan Jose Vegas, additional, Feher, Marcell, additional, Sipos, Marton, additional, Lucani, Daniel E., additional, Khabi, Dmitry, additional, Masouros, Dimosthenis, additional, Siozios, Kostas, additional, Bourgos, Paraskevas, additional, Tsekeridou, Sofia, additional, Zyulkyarov, Ferad, additional, Karanastasis, Efstathios, additional, Chondrogiannis, Efthymios, additional, Andronikou, Vassiliki, additional, Gomez, Aitor Fernandez, additional, Panica, Silviu, additional, Iuhasz, Gabriel, additional, Nanos, Anastassios, additional, Chalios, Charalampos, additional, and Varvarigos, Manos, additional

Published
2021
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47. Towards Machine-Learning-Based 5G and Beyond Intelligent Networks: The MARSAL Project Vision

Author

Vardakas, John S., primary, Ramantas, Kostas, additional, Datsika, Eftychia, additional, Payaro, Miquel, additional, Pollin, Sofie, additional, Vinogradov, Evgenii, additional, Varvarigos, Manos, additional, Kokkinos, Panagiotis, additional, Gonzalez-Sanchez, Roberto, additional, Olmos, Juan Jose Vegas, additional, Chochliouros, Ioannis, additional, Chanclou, Philippe, additional, Samarati, Pierangela, additional, Flizikowski, Adam, additional, Rahman, Md Arifur, additional, and Verikoukis, Christos, additional

Published
2021
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48. Cost-effectiveness of Opportunity Charging in Non-electrified Railway Lines

Author

Olmos Amondarain, Josu, Saez de Ibarra Martínez de Contrasta, Andoni, Gaztañaga Arantzamendi, Haizea, López, Dimas, Nieva Fatela, Txomin, Aizpuru, Iosu, Olmos Amondarain, Josu, Saez de Ibarra Martínez de Contrasta, Andoni, Gaztañaga Arantzamendi, Haizea, López, Dimas, Nieva Fatela, Txomin, and Aizpuru, Iosu

Abstract

This paper analyses the cost-effectiveness of deploying opportunity charging points in long-distance non-electrified railway lines, which are driven by battery-based hybrid diesel-electric railway vehicles. A study case based on a real railway line is presented, where potential locations for the charging points are proposed. With the aim of developing a comprehensive sensitivity analysis, for each combination of charging points locations the life cycle costs of different energy management strategies and lithium-ion battery technologies are also compared. Additionally, for each case the optimal size of the powertrain elements is calculated. In order to develop the proposed analysis, a methodology based on an optimization approach is presented. The obtained results demonstrate that deploying opportunity charging points along the route is a feasible solution, as long as appropriate strategies and battery technologies are used. In the best scenario, the life cycle cost of a base case without charging points can be reduced a 4.3%, and the cost of a traditional diesel-electric vehicle a 7.6%.

Published
2021

49. In-depth Life Cycle Cost Analysis of a Hydrogen Electric Multiple Unit

Author

Olmos Amondarain, Josu, Saez de Ibarra Martínez de Contrasta, Andoni, Gaztañaga Arantzamendi, Haizea, López, Dimas, Nieva Fatela, Txomin, Aizpuru, Iosu, Olmos Amondarain, Josu, Saez de Ibarra Martínez de Contrasta, Andoni, Gaztañaga Arantzamendi, Haizea, López, Dimas, Nieva Fatela, Txomin, and Aizpuru, Iosu

Abstract

This paper analyses the life cycle costs of railway projects involving hydrogen electric multiple units. The analysis focuses on the interrelation between the selected lithium-ion battery technology, the designed energy management strategy, and the fuel cell and battery sizes. In particular, 3 lithium-ion battery technologies and 4 strategies are proposed, leading to a sensitivity analysis composed of 12 cases. For each case, an approach for the optimal sizing of the fuel cell and battery is proposed. A scenario based on a real railway line is introduced and the obtained results are compared with the performance of a traditional diesel-electric multiple unit. The results show that a reduction of the hydrogen price is required so as the hydrogen-based option becomes competitive compared to the diesel-based one. The best result of the sensitivity analysis is obtained with an off-line optimization-based strategy and LTO batteries.

Published
2021

50. On the Design of Generalized LDPC Codes with Component BCJR Decoding

Author

Pablo M. Olmos, Yanfang Liu, and David G. M. Mitchell

Subjects
Constraint (information theory), Block code, Computer science, Component (UML), 0202 electrical engineering, electronic engineering, information engineering, 020206 networking & telecommunications, Data_CODINGANDINFORMATIONTHEORY, 02 engineering and technology, Trellis (graph), Low-density parity-check code, Algorithm, Decoding methods
Abstract

Generalized low-density parity-check (GLDPC) codes, where the single parity-check (SPC) nodes are replaced by generalized constraint (GC) nodes, are known to offer a reduced gap to capacity when compared with conventional LDPC codes, while also maintaining linear growth of minimum distance. However, for certain classes of practical GLDPC codes, there remains a gap to capacity even when utilizing blockwise decoding algorithm at GC nodes. In this work, we propose to optimize the design of GLDPC codes where the GC nodes are decoded with a trellis-based bit-wise Bahl-Cocke-Jelinek- Raviv (BCJR) component decoding algorithm. We analyze the asymptotic threshold behavior of GLDPC codes and determine the optimal proportion of the GC nodes in the GLDPC Tanner graph.We show significant performance improvements compared to existing designs with the same order of decoding complexity.

Published
2020

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