Your search keyword '"Belter, Bartosz"' showing total 16 results

1. The GEYSERS Concept and Major Outcomes

Author

Tzanakaki, Anna, Figuerola, Sergi, García-Espín, Joan A., Simeonidou, Dimitra, Ciulli, Nicola, Robinson, Philip, Rodríguez, Juan, Landi, Giada, Belter, Bartosz, Vicat-Blanc, Pascale, Biancani, Matteo, de Laat, Cees, Escalona, Eduard, Binczewski, Artur, Galis, Alex, editor, and Gavras, Anastasius, editor

Published

2013

2. NOVI Tools and Algorithms for Federating Virtualized Infrastructures

Author

Lymberopoulos, Leonidas, Grammatikou, Mary, Potts, Martin, Grosso, Paola, Fekete, Attila, Belter, Bartosz, Campanella, Mauro, Maglaris, Vasilis, Álvarez, Federico, editor, Cleary, Frances, editor, Daras, Petros, editor, Domingue, John, editor, Galis, Alex, editor, Garcia, Ana, editor, Gavras, Anastasius, editor, Karnourskos, Stamatis, editor, Krco, Srdjan, editor, Li, Man-Sze, editor, Lotz, Volkmar, editor, Müller, Henning, editor, Salvadori, Elio, editor, Sassen, Anne-Marie, editor, Schaffers, Hans, editor, Stiller, Burkhard, editor, Tselentis, Georgios, editor, Turkama, Petra, editor, and Zahariadis, Theodore, editor

Published

2012

3. Bringing Optical Networks to the Cloud: An Architecture for a Sustainable future Internet

Author

Vicat-Blanc, Pascale, Figuerola, Sergi, Chen, Xiaomin, Landi, Giada, Escalona, Eduard, Develder, Chris, Tzanakaki, Anna, Demchenko, Yuri, García Espín, Joan A., Ferrer, Jordi, López, Ester, Soudan, Sébastien, Buysse, Jens, Jukan, Admela, Ciulli, Nicola, Brogle, Marc, van Laarhoven, Luuk, Belter, Bartosz, Anhalt, Fabienne, Nejabati, Reza, Simeonidou, Dimitra, Ngo, Canh, de Laat, Cees, Biancani, Matteo, Roth, Michael, Donadio, Pasquale, Jiménez, Javier, Antoniak-Lewandowska, Monika, Gumaste, Ashwin, Domingue, John, editor, Galis, Alex, editor, Gavras, Anastasius, editor, Zahariadis, Theodore, editor, Lambert, Dave, editor, Cleary, Frances, editor, Daras, Petros, editor, Krco, Srdjan, editor, Müller, Henning, editor, Li, Man-Sze, editor, Schaffers, Hans, editor, Lotz, Volkmar, editor, Alvarez, Federico, editor, Stiller, Burkhard, editor, Karnouskos, Stamatis, editor, Avessta, Susanna, editor, and Nilsson, Michael, editor

Published

2011

4. SLICES, a scientific instrument for the networking community

Author

Fdida, Serge, Makris, Nikos, Korakis, Thanasis, Bruno, Raffaele, Passarella, Andrea, Andreou, Panayiotis, Belter, Bartosz, Crettaz, Cédric, Dabbous, Walid, Demchenko, Yuri, Knopp, Raymond, Fdida, Serge, Makris, Nikos, Korakis, Thanasis, Bruno, Raffaele, Passarella, Andrea, Andreou, Panayiotis, Belter, Bartosz, Crettaz, Cédric, Dabbous, Walid, Demchenko, Yuri, and Knopp, Raymond

Abstract

A science is defined by a set of encyclopedic knowledge related to facts or phenomena following rules or evidenced by experimentally-driven observations. Computer Science and in particular computer networks is a relatively new scientific domain maturing over years and adopting the best practices inherited from more fundamental disciplines. The design of past, present and future networking components and architectures have been assisted, among other methods, by experimentally-driven research and in particular by the deployment of test platforms, usually named as testbeds. However, often experimentally-driven networking research used scattered methodologies, based on ad-hoc, small-sized testbeds, producing hardly repeatable results. We believe that computer networks needs to adopt a more structured methodology, supported by appropriate instruments, to produce credible experimental results supporting radical and incremental innovations. This paper reports lessons learned from the design and operation of test platforms for the scientific community dealing with digital infrastructures. We introduce the SLICES initiative as the outcome of several years of evolution of the concept of a networking test platform transformed into a scientific instrument. We address the challenges, requirements and opportunities that our community is facing to manage the full research-life cycle necessary to support a scientific methodology.

Published

2022

5. D1.1: Technological status and capabilities of existing ICT Research Infrastructures

Author

Belter, Bartosz

Abstract

Digital Infrastructures and the future Internet including 5G and beyond technologies are the main enabling factors contributing to the digital transformation of our society. The COVID-19 crisis has demonstrated the vital role of digital infrastructures and showed they should be reinforced. Their design, deployment and operation are critical, calling for a scientific instrument to support the research in this domain for computer science and infrastructure researchers, as well as for data driven scientific applications involving interdisciplinary aspects. This report summarizes the analysis of the current technological status and capabilities of existing ICT Research Infrastructures in Europe as it stands for the beginning of 2021. The analysis has been performed by the authors and reflects the knowledge gathered and processed by the authors using public documentation (e.g., available on the projects’ websites) and through personal communication between sources of information in particular Member States. This report does not intend to replace and override documentation prepared by larger communities and organizations (e.g., the European Commission, ESFRI or e-IRG). Instead, this report complements existing efforts made so far with a primary focus on ICT technologies related to SLICES and with new information received from Member States, not necessarily already included in above mentioned state-of-the-art reports. This report has been prepared by SLICES-DS Partners with support and advice from the following organisations: Poznan Supercomputing and Networking Center (Poland), Sorbonne University (France), INRIA (France), MTA Sztaki (Hungary), Technical University of Munich (Germany), UPV/EHU (Spain), UC3M (Spain), UCLAN (Cyprus), Université Du Luxembourg (Luxembourg), SIMULA (Norway), CNR (Italy), Mandat International (Switzerland), KTH (Sweden), University of Gent (Belgium) and RNP (Brazil). The document is intended at ESFRI stakeholders, policy makers, researchers and RI managers.

Published

2022

6. Between grids and networks: grid‐enabled network control planes

Author

Belter, Bartosz, Binczewski, Artur, Carrozzo, Gino, Ciulli, Nicolla, Escalona, Eduard, Markidis, George, Nejabati, Reza, Simeonidou, Dimitra, Stroiński, Maciej, Tzanakaki, Anna, Zervas, Georgios, and Lopez, Diego R.

Published

2008

7. Future Architectures for NREN infrastructures

Author

Wessing, Henrik, Bozorgebrahimi, Kurosh, Belter, Bartosz, Tzanakaki, Anna, Naegele-Jackson, Susanne, Olifer, Victor, Metz, Andreas, Vojtech, Josef, Skoda, Pavel, Wessing, Henrik, Bozorgebrahimi, Kurosh, Belter, Bartosz, Tzanakaki, Anna, Naegele-Jackson, Susanne, Olifer, Victor, Metz, Andreas, Vojtech, Josef, and Skoda, Pavel

Abstract

This study identifies key requirements for NRENs towards future network architectures that become apparent as users become moremobile and have increased expectations in terms of availability of data. In addition, cost saving requirements call for federated use of, inparticular, the optical spectral resources. In this work, the key findings from related projects are integrated to provide the building blocks forefficient use and sharing of spectrum. A new network architecture is derived to support exactly the service orchestration and the federated useof resources. It comprises four layers from the heterogeneous multi-technology physical layer up to the service provisioning and orchestration.

Published

2015

8. Virtual Infrastructures as a service enabling converged optical networks and Data Centres

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Telemàtica, Universitat Politècnica de Catalunya. BAMPLA - Disseny i Avaluació de Xarxes i Serveis de Banda Ampla, Ferrer Riera, Jordi, Tzanakaki, Anna, Antonescu, Alexandru-Florian, Anastasopoulos, Markos, García Espin, Joan Antoni, Escalona Zorita, Eduard, Peng, Shuping, Landi, Giada, Bernini, Giacomo, Belter, Bartosz, Parniewicz, Damian, Hesselbach Serra, Xavier, Figuerola Fernández, Sergi, Simeonidou, Dimitra, Universitat Politècnica de Catalunya. Departament d'Enginyeria Telemàtica, Universitat Politècnica de Catalunya. BAMPLA - Disseny i Avaluació de Xarxes i Serveis de Banda Ampla, Ferrer Riera, Jordi, Tzanakaki, Anna, Antonescu, Alexandru-Florian, Anastasopoulos, Markos, García Espin, Joan Antoni, Escalona Zorita, Eduard, Peng, Shuping, Landi, Giada, Bernini, Giacomo, Belter, Bartosz, Parniewicz, Damian, Hesselbach Serra, Xavier, Figuerola Fernández, Sergi, and Simeonidou, Dimitra

Abstract

Cloud computing service emerged as an essential component of the Enterprise IT infrastructure. Migration towards a full range and large-scale convergence of Cloud and network services has become the current trend for addressing requirements of the Cloud environment. Our approach takes the infrastructure as a service paradigm to build converged virtual infrastructures, which allow offering tailored performance and enable multi-tenancy over a common physical infrastructure. Thanks to virtualization, new exploitation activities of the physical infrastructures may arise for both transport network and Data Centres services. This approach makes network and Data Centres' resources dedicated to Cloud Computing to converge on the same flexible and scalable level. The work presented here is based on the automation of the virtual infrastructure provisioning service. On top of the virtual infrastructures, a coordinated operation and control of the different resources is performed with the objective of automatically tailoring connectivity services to the Cloud service dynamics. Furthermore, in order to support elasticity of the Cloud services through the optical network, dynamic re-planning features have been provided to the virtual infrastructure service, which allows scaling up or down existing virtual infrastructures to optimize resource utilization and dynamically adapt to users' demands. Thus, the dynamic re-planning of the service becomes key component for the coordination of Cloud and optical network resource in an optimal way in terms of resource utilization. The presented work is complemented with a use case of the virtual infrastructure service being adopted in a distributed Enterprise Information System, that scales up and down as a function of the application requests. © 2014 Elsevier B.V., Peer Reviewed, Postprint (published version)

Published

2014

9. Planning of dynamic virtual optical cloud infrastructures: the GEYSERS approach

Author

Universitat Politècnica de Catalunya. Departament d'Enginyeria Telemàtica, Universitat Politècnica de Catalunya. GCO - Grup de Comunicacions Òptiques, Universitat Politècnica de Catalunya. BAMPLA - Disseny i Avaluació de Xarxes i Serveis de Banda Ampla, Tzanakaki, Anna, Anastasopoulos, Markos, Landi, Giada, Bernini, Giacomo, Ciulli, Nicola, Riera, Jordi, Escalona Zorita, Eduard, García Espin, Joan Antoni, Hesselbach Serra, Xavier, Figuerola Fernández, Sergi, Peng, Shuping, Nejabati, Reza, Simeonidou, Dimitra, Parniewicz, Damian, Belter, Bartosz, Universitat Politècnica de Catalunya. Departament d'Enginyeria Telemàtica, Universitat Politècnica de Catalunya. GCO - Grup de Comunicacions Òptiques, Universitat Politècnica de Catalunya. BAMPLA - Disseny i Avaluació de Xarxes i Serveis de Banda Ampla, Tzanakaki, Anna, Anastasopoulos, Markos, Landi, Giada, Bernini, Giacomo, Ciulli, Nicola, Riera, Jordi, Escalona Zorita, Eduard, García Espin, Joan Antoni, Hesselbach Serra, Xavier, Figuerola Fernández, Sergi, Peng, Shuping, Nejabati, Reza, Simeonidou, Dimitra, Parniewicz, Damian, and Belter, Bartosz

Abstract

This article focuses on planning and replanning of virtual infrastructures over optical cloud infrastructures comprising integrated optical network and IT resources. This concept has been developed in the context of the European project GEYSERS. GEYSERS has proposed a novel multi-layer architecture, described in detail, that employs optical networking capable of provisioning optical network and IT resources for end-to-end cloud service delivery. The procedures required to perform virtual infrastructure planning and replanning at the different architecture layers are also detailed. An optimization scheme suitable to dynamically plan and replan virtual infrastructures is presented and compared to conventional approaches, and the benefits of dynamic replanning are discussed and quantified. The final project demonstration, focusing on planning, replanning, and dynamically establishing virtual infrastructures over the physical resources, is presented, while some emulation results are provided to further evaluate the performance of the GEYSERS solution., Peer Reviewed, Postprint (published version)

Published

2014

10. Planning of dynamic virtual optical cloud infrastructures: The GEYSERS approach.

Author

Tzanakaki, Anna, Anastasopoulos, Markos, Georgakilas, Konstantinos, Landi, Giada, Bernini, Giacomo, Ciulli, Nicola, Riera, Jordi, Escalona, Eduard, Garcia-espin, Joan, Hesselbach, Xavier, Figuerola, Sergi, Peng, Shuping, Nejabati, Reza, Simeonidou, Dimitra, Parniewicz, Damian, Belter, Bartosz, and Martinez, Juan

Subjects

INFORMATION technology, COMPUTER network architectures, OPTICAL communications, MATHEMATICAL optimization

Abstract

This article focuses on planning and replanning of virtual infrastructures over optical cloud infrastructures comprising integrated optical network and IT resources. This concept has been developed in the context of the European project GEYSERS. GEYSERS has proposed a novel multi-layer architecture, described in detail, that employs optical networking capable of provisioning optical network and IT resources for end-to-end cloud service delivery. The procedures required to perform virtual infrastructure planning and replanning at the different architecture layers are also detailed. An optimization scheme suitable to dynamically plan and replan virtual infrastructures is presented and compared to conventional approaches, and the benefits of dynamic replanning are discussed and quantified. The final project demonstration, focusing on planning, replanning, and dynamically establishing virtual infrastructures over the physical resources, is presented, while some emulation results are provided to further evaluate the performance of the GEYSERS solution. [ABSTRACT FROM AUTHOR]

Published

2014

11. New Approach to Dynamic and Seamless Management of Network and Computational Resources in a Heterogeneous Grid Environment

Author

Belter, Bartosz, primary, Binczewski, Artur, additional, Przywecki, Miłosz, additional, and Stroiński, Maciej, additional

Published

2010

12. Between grids and networks: grid‐enabled network control planes

Author

Belter, Bartosz, primary, Binczewski, Artur, additional, Carrozzo, Gino, additional, Ciulli, Nicolla, additional, Escalona, Eduard, additional, Markidis, George, additional, Nejabati, Reza, additional, Simeonidou, Dimitra, additional, Stroiński, Maciej, additional, Tzanakaki, Anna, additional, and Zervas, Georgios, additional

Published

2008

13. Shall we worry about Packet Reordering?

Author

Przybylski, Michal, primary, Belter, Bartosz, additional, and Binczewski, Artur, additional

Published

2005

14. Phosphorus Grid-Enabled GMPLS Control Plane (G²MPLS): Architectures, Services, and Interfaces.

Author

Zervas, Georgios, Escalona, Eduard, Nejabati, Reza, Simeonidou, Dimitra, Carrozzo, Gino, Ciulli, Nicola, Belter, Bartosz, Binczewski, Artur, and Poznan, Maciej Stroinski

Subjects

MPLS standard, SWITCHING systems (Telecommunication), NETWORK routers, MANUFACTURING Automation Protocol, NETWORK routing protocols, INFORMATION & communication technologies, GRID computing, INFORMATION superhighway, TELECOMMUNICATION systems, COMPUTER interfaces, COMPUTER network architectures

Abstract

G²MPLS is a network control plane architecture that implements the concept of grid network services. In the framework of the 1ST Phosphorus project, GNS allows the provisioning of network and grid resources in a single step through a set of seamlessly integrated procedures. The implementation of GNS imposes a number of requirements in the control planes of the underlying network infrastructure. This article describes services such as GNS set up and restoration, GNS resource and service discovery, and advance reservation services, which are the main trigger factors of the G²MPLS control plane architectures. The article provides an overview of overlay architecture prior to turning to the main focus of the article, which is the integrated architecture through service procedures and the grid-enabled network interfaces provided by the Phosphorus project. [ABSTRACT FROM AUTHOR]

Published

2008

15. A GWAS study highlights significant associations between a series of indels in a FLOWERING LOCUS T gene promoter and flowering time in white lupin (Lupinus albus L.).

Author

Rychel-Bielska, Sandra, Bielski, Wojciech, Surma, Anna, Annicchiarico, Paolo, Belter, Jolanta, Kozak, Bartosz, Galek, Renata, Harzic, Nathalie, and Książkiewicz, Michał

Subjects

FLOWERING time, LUPINUS albus, LOCUS (Genetics), CLIMATE change adaptation, GENOME-wide association studies, LEGUMES

Abstract

Background: White lupin (Lupinus albus L.) is a high-protein Old World grain legume with remarkable food and feed production interest. It is sown in autumn or early spring, depending on the local agroclimatic conditions. This study aimed to identify allelic variants associated with vernalization responsiveness, in order to improve our knowledge of legume flowering regulatory pathways and develop molecular selection tools for the desired phenology as required for current breeding and adaptation to the changing climate. Results: Some 120 white lupin accessions originating from a wide range of environments of Europe, Africa, and Asia were phenotyped under field conditions in three environments with different intensities of vernalization, namely, a Mediterranean and a subcontinental climate sites of Italy under autumn sowing, and a suboceanic climate site of France under spring sowing. Two hundred sixty-two individual genotypes extracted from them were phenotyped in a greenhouse under long-day photoperiod without vernalization. Phenology data, and marker data generated by Diversity Arrays Technology sequencing (DArT-seq) and by PCR-based screening targeting published quantitative trait loci (QTLs) from linkage map and newly identified insertion/deletion polymorphisms in the promoter region of the FLOWERING LOCUS T homolog, LalbFTc1 gene (Lalb_Chr14g0364281), were subjected to a genome-wide association study (GWAS). Population structure followed differences in phenology and isolation by distance pattern. The GWAS highlighted numerous loci significantly associated with flowering time, including four LalbFTc1 gene promoter deletions: 2388 bp and 2126 bp deletions at the 5' end, a 264 bp deletion in the middle and a 28 bp deletion at the 3' end of the promoter. Besides LalbFTc1 deletions, this set contained DArT-seq markers that matched previously published major QTLs in chromosomes Lalb_Chr02, Lalb_Chr13 and Lalb_Chr16, and newly discovered QTLs in other chromosomes. Conclusions: This study highlighted novel QTLs for flowering time and validated those already published, thereby providing novel evidence on the convergence of FTc1 gene functional evolution into the vernalization pathway in Old World lupin species. Moreover, this research provided the set of loci specific for extreme phenotypes (the earliest or the latest) awaiting further implementation in marker-assisted selection for spring- or winter sowing. [ABSTRACT FROM AUTHOR]

Published

2024

16. Virtual Infrastructures as a Service enabling Converged Optical Networks and Data Centres

Author

Dimitra Simeonidou, Alexandru-Florian Antonescu, Eduard Escalona, Bartosz Belter, Damian Parniewicz, Joan A. Garcia-Espin, Sergi Figuerola, Jordi Ferrer Riera, Giacomo Bernini, Xavier Hesselbach, Anna Tzanakaki, Giada Landi, Shuping Peng, Markos P. Anastasopoulos, Universitat Politècnica de Catalunya. Departament d'Enginyeria Telemàtica, and Universitat Politècnica de Catalunya. BAMPLA - Disseny i Avaluació de Xarxes i Serveis de Banda Ampla

Subjects

Service (systems architecture), Computació en núvol, Computer Networks and Communications, Computer science, Distributed computing, Cloud computing, 000 Computer science, knowledge & systems, computer.software_genre, Distributed Enterprise Information System, Comunicacions òptiques, Electrical and Electronic Engineering, Enterprise information system, Informàtica::Arquitectura de computadors [Àrees temàtiques de la UPC], business.industry, Optical communications, Provisioning, Virtual infrastructure planning, Virtualization, Dynamic re-planning, Enginyeria de la telecomunicació::Telecomunicació òptica [Àrees temàtiques de la UPC], Converged infrastructure, Elasticity (cloud computing), Service catalog, business, Data Centre - optical network convergence, computer, Enginyeria de la telecomunicació::Telemàtica i xarxes d'ordinadors::Internet [Àrees temàtiques de la UPC], Computer network

Abstract

Cloud computing service emerged as an essential component of the Enterprise IT infrastructure. Migration towards a full range and large-scale convergence of Cloud and network services has become the current trend for addressing requirements of the Cloud environment. Our approach takes the infrastructure as a service paradigm to build converged virtual infrastructures, which allow offering tailored performance and enable multi-tenancy over a common physical infrastructure. Thanks to virtualization, new exploitation activities of the physical infrastructures may arise for both transport network and Data Centres services. This approach makes network and Data Centres' resources dedicated to Cloud Computing to converge on the same flexible and scalable level. The work presented here is based on the automation of the virtual infrastructure provisioning service. On top of the virtual infrastructures, a coordinated operation and control of the different resources is performed with the objective of automatically tailoring connectivity services to the Cloud service dynamics. Furthermore, in order to support elasticity of the Cloud services through the optical network, dynamic re-planning features have been provided to the virtual infrastructure service, which allows scaling up or down existing virtual infrastructures to optimize resource utilization and dynamically adapt to users' demands. Thus, the dynamic re-planning of the service becomes key component for the coordination of Cloud and optical network resource in an optimal way in terms of resource utilization. The presented work is complemented with a use case of the virtual infrastructure service being adopted in a distributed Enterprise Information System, that scales up and down as a function of the application requests. © 2014 Elsevier B.V.

Published

2014