The Experts below are selected from a list of 7320 Experts worldwide ranked by ideXlab platform
Adam Weintrit - One of the best experts on this subject based on the ideXlab platform.
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Technical Infrastructure to support seamless information exchange in e navigation
International Conference on Transport Systems Telematics, 2013Co-Authors: Adam WeintritAbstract:The International Maritime Organization (IMO) Correspondence Group on e-Navigation (the author is a member of this expert group since 2006) has reviewed the preliminary list of potential e-Navigation solutions and prioritized five potential main solutions, presented the finalized Cost Benefit and Risk Analysis, considered the further development of the detailed ship and shore architecture, giving an example of a Technical Infrastructure to support seamless information/data exchange in e-Navigation. In the paper author presents that Technical Infrastructure.
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TST - Technical Infrastructure to Support Seamless Information Exchange in e-Navigation
Communications in Computer and Information Science, 2013Co-Authors: Adam WeintritAbstract:The International Maritime Organization (IMO) Correspondence Group on e-Navigation (the author is a member of this expert group since 2006) has reviewed the preliminary list of potential e-Navigation solutions and prioritized five potential main solutions, presented the finalized Cost Benefit and Risk Analysis, considered the further development of the detailed ship and shore architecture, giving an example of a Technical Infrastructure to support seamless information/data exchange in e-Navigation. In the paper author presents that Technical Infrastructure.
Maarten Zeinstra - One of the best experts on this subject based on the ideXlab platform.
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rightsstatements org white paper requirements for the Technical Infrastructure for standardized international rights statements
arXiv: Digital Libraries, 2016Co-Authors: Valentine Charles, Esmé Cowles, Karen Estlund, Antoine Isaac, Tom Johnson, Mark A. Matienzo, Patrick Peiffer, Richard J. Urban, Maarten ZeinstraAbstract:This document is part of the deliverables created by the International Rights Statement Working Group, a joint working group of the Digital Public Library of America (DPLA) and Europeana. It provides the Technical requirements for implementation of the Standardized International Rights Statements. These requirements are based on the principles and specifications found in the normative Recommendations for Standardized International Rights Statements. This document replaces and supersedes the previously released Recommendations for the Technical Infrastructure for Standardized Rights Statements, released by this working group. The Requirements for the Technical Infrastructure for Standardized International Rights Statements describes the expected behaviours for a service that enables the delivery of human and machine-readable representations of the rights statements. It documents the fundamental decisions that informed the development of a data model grounded in Linked Data approaches. This document also provides proposed implementation guidelines and a non-normative set of examples for incorporating rights statements into provider metadata.
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Recommendations for the Technical Infrastructure for Standardized International Rights Statements
arXiv: Digital Libraries, 2015Co-Authors: Valentine Charles, Esmé Cowles, Karen Estlund, Antoine Isaac, Tom Johnson, Mark A. Matienzo, Patrick Peiffer, Richard J. Urban, Maarten ZeinstraAbstract:This white paper is the product of a joint Digital Public Library of America (DPLA)-Europeana working group organized to develop minimum rights statement metadata standards for organizations that contribute to DPLA and Europeana. This white paper deals specifically with the Technical Infrastructure of a common namespace (rightsstatements.org) that hosts the rights statements to be used by (at minimum) the DPLA and Europeana. These recommendations for a common Technical Infrastructure for rights statements outline a simple, flexible, and extensible framework to host the rights statements at rightsstatements.org. This white paper specifically outlines the management of rights statements as linked open data. The rights statements are published according to Best Practices for Publishing RDF Vocabularies. They are encoded into dereferenceable URIs, express further information encoded in RDF, and link to existing vocabularies and standards. The rights statements adhere to expressions of existing rights vocabularies. Furthermore the paper reviews the publication and implementation to make the rights statements available through human-readable web pages augmented with machine-readable formats.
Marcin Gospodarowicz - One of the best experts on this subject based on the ideXlab platform.
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TERRITORIAL COHESION OF COMMUNES IN POLAND IN 2005-2015 WITH REFERENCE TO Technical Infrastructure DEVELOPMENT IN TERMS OF SPATIAL AUTOCORRELATION MEASURES
Annals of the Polish Association of Agricultural and Agribusiness Economists, 2018Co-Authors: Marcin GospodarowiczAbstract:Territorial cohesion refers to integrated space management, that mitigates and prevents its polarization. The aim of the analysis was to delimit the phenomenon of territorial cohesion in terms of the development of Technical Infrastructure using spatial autocorrelation statistics to identify homogeneous groups – clusters of municipalities with similar characteristics and hot spots – regions with outliers in relation to the environment. The survey covered the entire population of communes in Poland (2,478), in 2005, 2010 and 2015. The results indicate the existence of positive and increasing spatial autocorrelation for the aggregate measure of Technical Infrastructure development in subsequent years. For the size of clusters of local Moran statistics, the differentiating features were the type and population type of communes and the spatial location in voivodship. Territorial cohesion, ie compliance in relation to the type of homogenous group has been identified in a small part of the surveyed local government units.
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Social and Technical Infrastructure development of municipalities (gminas) in Poland
Studies in Agricultural Economics, 2015Co-Authors: Marcin GospodarowiczAbstract:This paper presents the institutional and spatial determinants for the development of social and Technical Infrastructure in municipalities (gminas) in Poland. According to the empirical results, there are significant diff erences between various types of gminas in terms of the level of development of Technical and social Infrastructure. Similar levels of Technical or social Infrastructure are associated with a significantly higher level of economic development in urban and urban-rural gminas than in rural gminas. Spatially, the position of gminas in relation to larger settlement centres and communication routes affects the development of Technical Infrastructure to a greater extent than social Infrastructure. The relationship between Infrastructure development and selected economic and social characteristics of municipalities is a feedback loop in which the relative wealth of a local administrative unit stimulates the development of the Infrastructure while at the same time benefi ting from this fact. This means that the present use of European Union Structural Funds for the development of Infrastructure does not contribute to closing the gap in development. Sustainable development is largely the result of institutional factors related to Infrastructure. It is therefore advisable to move away from a purely redistributive approach in this regard to targeted territorial support of the development potential of municipalities.
Thomas Magedanz - One of the best experts on this subject based on the ideXlab platform.
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openepc a Technical Infrastructure for early prototyping of ngmn testbeds
Testbeds and Research Infrastructures for the DEvelopment of NeTworks and COMmunities, 2010Co-Authors: Marius Corici, Thomas Magedanz, Fabricio Carvalho De Gouveia, Dragos VingarzanAbstract:The challenging and ever increasing requirements of future applications demand new concepts for better control and management of network resources. The Third Generation Partnership Project (3GPP) introduced in their latest specifications the Evolved Packet Core (EPC) architecture for transparently unifying the parameters of different technologies, like the UMTS, WLAN, non-3GPP access technologies and a future Evolved Radio Access Network, called Long Term Evolution (LTE), with the use of multiple application platforms such as IP Multimedia Subsystem (IMS) and the Internet. This paper describes a testbed implementation of the Evolved Packet Core named OpenEPC which provides a reference implementation of 3GPP’s EPC developed by the Fraunhofer Institute FOKUS. OpenEPC is a set of software components offering advanced IP mobility schemes, policy-based QoS control, and integration with different application platforms in converging network environments. This initiative, in addition to fostering research and development, enables academic and industry researchers to rapidly realize state-of-the-art NGMN Infrastructures and application testbeds.
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TRIDENTCOM - OpenEPC: A Technical Infrastructure for Early Prototyping of NGMN Testbeds
Lecture Notes of the Institute for Computer Sciences Social Informatics and Telecommunications Engineering, 2010Co-Authors: Marius Corici, Thomas Magedanz, Fabricio Carvalho De Gouveia, Dragos VingarzanAbstract:The challenging and ever increasing requirements of future applications demand new concepts for better control and management of network resources. The Third Generation Partnership Project (3GPP) introduced in their latest specifications the Evolved Packet Core (EPC) architecture for transparently unifying the parameters of different technologies, like the UMTS, WLAN, non-3GPP access technologies and a future Evolved Radio Access Network, called Long Term Evolution (LTE), with the use of multiple application platforms such as IP Multimedia Subsystem (IMS) and the Internet. This paper describes a testbed implementation of the Evolved Packet Core named OpenEPC which provides a reference implementation of 3GPP’s EPC developed by the Fraunhofer Institute FOKUS. OpenEPC is a set of software components offering advanced IP mobility schemes, policy-based QoS control, and integration with different application platforms in converging network environments. This initiative, in addition to fostering research and development, enables academic and industry researchers to rapidly realize state-of-the-art NGMN Infrastructures and application testbeds.
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Technical Infrastructure for a pan european federation of testbeds
Testbeds and Research Infrastructures for the DEvelopment of NeTworks and COMmunities, 2009Co-Authors: Sebastian Wahle, Thomas Magedanz, Anastasius Gavras, Halid Hrasnica, Spyros DenazisAbstract:The Pan-European laboratory - Panlab - is based on federation of distributed testbeds that are interconnected, providing access to required platforms, networks and services for broad interoperability testing and enabling the trial and evaluation of service concepts, technologies, system solutions and business models. In this context a testbed federation is the interconnection of two or more independent testbeds for the temporary creation of a richer environment for testing and experimentation, and for the increased multilateral benefit of the users of the individual independent testbeds. The Technical Infrastructure that supports the federation is based on a web service through which available testing resources can be queried and requested. The available resources are stored in a repository, and a processing engine is able to identify, locate and provision the requested testing Infrastructure, based on the testing users' requirements. The concept is implemented using a gateway approach at the border of each federated testbed. Each testbed is an independent administrative domain and implements a reference point specification in its gateway.
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TRIDENTCOM - Technical Infrastructure for a Pan-European federation of testbeds
2009 5th International Conference on Testbeds and Research Infrastructures for the Development of Networks & Communities and Workshops, 2009Co-Authors: Sebastian Wahle, Thomas Magedanz, Anastasius Gavras, Halid Hrasnica, Spyros DenazisAbstract:The Pan-European laboratory - Panlab - is based on federation of distributed testbeds that are interconnected, providing access to required platforms, networks and services for broad interoperability testing and enabling the trial and evaluation of service concepts, technologies, system solutions and business models. In this context a testbed federation is the interconnection of two or more independent testbeds for the temporary creation of a richer environment for testing and experimentation, and for the increased multilateral benefit of the users of the individual independent testbeds. The Technical Infrastructure that supports the federation is based on a web service through which available testing resources can be queried and requested. The available resources are stored in a repository, and a processing engine is able to identify, locate and provision the requested testing Infrastructure, based on the testing users' requirements. The concept is implemented using a gateway approach at the border of each federated testbed. Each testbed is an independent administrative domain and implements a reference point specification in its gateway.
Spyros Denazis - One of the best experts on this subject based on the ideXlab platform.
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Technical Infrastructure for a pan european federation of testbeds
Testbeds and Research Infrastructures for the DEvelopment of NeTworks and COMmunities, 2009Co-Authors: Sebastian Wahle, Thomas Magedanz, Anastasius Gavras, Halid Hrasnica, Spyros DenazisAbstract:The Pan-European laboratory - Panlab - is based on federation of distributed testbeds that are interconnected, providing access to required platforms, networks and services for broad interoperability testing and enabling the trial and evaluation of service concepts, technologies, system solutions and business models. In this context a testbed federation is the interconnection of two or more independent testbeds for the temporary creation of a richer environment for testing and experimentation, and for the increased multilateral benefit of the users of the individual independent testbeds. The Technical Infrastructure that supports the federation is based on a web service through which available testing resources can be queried and requested. The available resources are stored in a repository, and a processing engine is able to identify, locate and provision the requested testing Infrastructure, based on the testing users' requirements. The concept is implemented using a gateway approach at the border of each federated testbed. Each testbed is an independent administrative domain and implements a reference point specification in its gateway.
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TRIDENTCOM - Technical Infrastructure for a Pan-European federation of testbeds
2009 5th International Conference on Testbeds and Research Infrastructures for the Development of Networks & Communities and Workshops, 2009Co-Authors: Sebastian Wahle, Thomas Magedanz, Anastasius Gavras, Halid Hrasnica, Spyros DenazisAbstract:The Pan-European laboratory - Panlab - is based on federation of distributed testbeds that are interconnected, providing access to required platforms, networks and services for broad interoperability testing and enabling the trial and evaluation of service concepts, technologies, system solutions and business models. In this context a testbed federation is the interconnection of two or more independent testbeds for the temporary creation of a richer environment for testing and experimentation, and for the increased multilateral benefit of the users of the individual independent testbeds. The Technical Infrastructure that supports the federation is based on a web service through which available testing resources can be queried and requested. The available resources are stored in a repository, and a processing engine is able to identify, locate and provision the requested testing Infrastructure, based on the testing users' requirements. The concept is implemented using a gateway approach at the border of each federated testbed. Each testbed is an independent administrative domain and implements a reference point specification in its gateway.
