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DARIAH, the Digital Research Infrastructure for the Arts and Humanities, is a large user community that gathers scientists across Europe from the research field of the Arts and Humanities (A). The aim of DARIAH is to enhance and support digitally-enabled research and teaching across the Arts and Humanities in Europe. The objective of DARIAH is to develop, maintain and operate a research infrastructure for ICT-based research practices. The DARIAH infrastructure aims to become a fully connected and effective network of tools, information, people and methodologies for investigating, exploring and supporting research across the broad spectrum of the Digital Humanities. To achieve this goal, a significant amount of effort has to be devoted to the improvement of the current infrastructure. A part of this effort is the EGI-DARIAH Competence Centre (EGI-DARIAH CC), established within the EGI-Engage Horizon2020 project. The EGI-DARIAH CC aims at bridging the gap between the DARIAH user community and the European e-Infrastructure, mainly those provided by the EGI community. To achieve this goal, EGI-DARIAH CC focuses on strengthening the collaboration between the DARIAH user community and EGI by deploying A applications in the EGI Federated cloud and increasing the number of e-Science services and applications, as well as raising awareness of A researchers about the advantages and benefits of e-Infrastructure by providing end-user support and organizing training events. Considering that the DARIAH community, as well as the general A research public, is very specific in their requirements and needs on e-Infrastructure, one of the first actions of the EGI DARIAH CC was to collect all relevant information about the DARIAH research requirements. The collection of the required information was conducted via a comprehensive web-based survey. The aim of this survey was to collect feedback from DARIAH end-users, application/service providers and developers on their knowledge and background on e-Infrastructure (e.g. computational and storage resources, user-support services, authentication policies, etc.), on how research data (information) are shared and accessed, about AAI requirements, what services and application researchers are using in their research and what are their characteristics, etc. Based on the inputs, a set of specific A services and application will be developed, such as gUSE/WS-Pgrade workflow oriented gateway, gLibrary framework for distributed information repositories and information retrieval service based on CDSTAR. Concurrently with the application development, a significant working effort is put in the education of DARIAH researchers since many of them have minor or no technical knowledge required to efficiently use various e-Infrastructure resources or new application/services that will be developed during this project. Therefore, a set of training events will be organized to demonstrate the specific applications and services developed within EGI-DARIAH CC, as well as give a general introduction on how to utilize various EGI resources, applications and services.

We study a series of new energy sources of the Gaussian energy group SU(6), SU(12), SU(24), ….etc. called intelligences which created consciousness and which are responsible for the creation of everything of this universe. The effective quantity and quality of the consciousness of the earth-like planet where living elements were found depends on environment and place of position within the galaxy or cluster or super cluster etc. & mechanical structure of the planet. The said energy sources created consciousness within the living cell and also controlled the whole universe with the symmetry breaking of the energy group SU(11) ( SU(6)  SU(5)  U(1)); SU(23); SU(47);…… etc.). In the living body, generally consciousness controlled by the self gravitational force of the energy group SU(6) and plays with biological revolution. But consciousness level of any living body including human group and also inanimate objects is particularly controlled by SU(12), SU(24), ….etc. We examine the quantum measurement, using the Wheeler DeWitt wave equation over the complex space-time R + iRI of (4+D) dimensions, where D is an extra dimensions. We know that the quantum super-positions will continually be reaching the Di�� si-Penrose (DP) threshold for Objective Reduction in non- biological settings as well as in biological ones, and usually take place in the purely random environment of a quantum system under measurement through the symmetry breaking of the Generalized Gaussian Energy Group from infinity i.e. from Big-Rip singularity when RI →∞. I. Introduction: Masao Ito wrote that it may be take another half century to bring psychology into the field of neuroscience. This statement reflects the difficulty of extending knowledge about the pivotal role of the cerebellum from the domain of motor control to the cognitive domain. The shift of information processing from divergence to convergence in cerebella micro-complexes (Ito) parallels the shift from coherence to de-coherence in quantum information processing (LIoyd). Consciousness defines our existence: It was proposed by Roger Penrose and Stuart Hameroff in the mid of 1990"s that consciousness depends on biologically "orchestrated" quantum computations in collections of microtubules within brain neurons, that these quantum computations correlate with and regulate neuronal activity, and that the continuous Schro dinger evolution of each quantum computation terminates in accordance with the specific Dio΄si − Penrose(DP) scheme of "Objective Reduction" of the quantum state (OR). This orchestrated OR activity (Orch OR) is taken to result in a moment of conscious awareness and / or choice. This particular (DP) from of OR is taken to be a quantum-gravity process related to the fundamentals of space-time geometry with complex scale factor R+ iRI in the large scale of the universe, where R is the 4-dimensional Einstein"s universe and iRI (= a), the internal space-time of the extra-dimension "D", which may be compared with the Kaluza-Klein cosmology. Hence solving the WDW equation of the wave function instead of Shro dingers wave equation, we get a remarkable solutions of the wave function of the variable RI (where RI = − R 2 ) in the tachyonic and pseudo-tachyonic universe, which assume as the source of intelligence or consciousness in the universe starting from Big-Rip singularity i.e. from the infinite space-time. Again Orch OR suggests a connection between brain bio-molecular processes and fine scale structure of the universe. There were three general assumption regarding the origin and place of consciousness in the universe have been commonly expressed as 1). Consciousness is not an independent quality but arose as a natural evolutionary consequence of the biological adaptation of brain and nervous system. 2). Consciousness is a quality that has always been in the universe. 3). Precursors of consciousness have always been in the universe; biology evolved a mechanism to convert conscious precursors to actual consciousness. The quantum cosmology explain an appropriate quantum mechanical description of the universe, which was introduced and developed by DeWitt. In quantum cosmology the universe, as a whole is treated quantum mechanically and is described by a single wave function, Ψ(hij , Φ) defined on a manifold (super spaces) of all possible three geometries and all mater field configurations. The wave function Ψ(hij , Φ) has no explicit time dependence due to the fact that there is no real time parameter external to the Einsteins universe. Therefore, there is no Shro dingers wave equation but the operator version of the Hamiltonian constraint of the Dirac canonical quantization procedure, namely vanishing of the variation of the Einstein-Hilbert action S with respect to the arbitrary lapse function N. Thus H = δS δN = 0, which is written as H Ψ(hij , Φ) = 0. This equation is known as the Wheeler-DeWitt (WDW) equation. The goal of quantum cosmology by solving the WDW equation over

One of the challenges encountered by the EOSCpilot project was to gather structured feedback from a wide variety of potential stakeholder about the ‘moving target’ that is the European Open Science Cloud (EOSC). EOSC was at its early stage of construction, pilot proof of concept of services were constructed at the same time stakeholder mapping was performed and Governance was being designed by the project (and by the European Commission in parallel, providing a roadmap of EOSC present and future projects). This interaction of projects and initiatives was designed to conduct a fast-paced implementation of the EOSC, combining a top-down and bottom-up approach, where results from piloting the proof-of-concept provide input into the overall design. In this context, this Report on Governance Piloting Process describes the methodology used for a structured bottom-up approach of EOSCpilot Work Package 2, and how it was used by the different tasks (Stakeholder mapping, Governance framework design, Rules of participation, Business model), contributing to the Governance Development Forum. In addition to traditional tools such as surveys, webinars, workshops and conferences, a specific tool with an interactive platform was used to gather audience feedback.

The paper introduces into a new Science Gateway, developed in the framework of the European Horizon 2020 project EGI Engage - DARIAH Competence Centre, which started in March 2015 co-funded by the European Union, with the participation of about 70 (research) units in over 30 countries. In this paper the authors focus on trans-disciplinary collaboration in the framework of explorative lexicography in cultural context. On the one hand, they give a short overview of the architecture of the Science Gateway, used techniques, and specific applications and services developed during the DARIAH Competence Centre. On the other they mainly focus on possible added value and changes concerning work flow for Lexicographers and researchers on Lexical resources. This is exemplified on the European network of COST action IS 1305 “European Network of electronic lexicography (ENeL)”.

Today the exponential growth of digital arts and humanities related research content, such as social networks or digital photos, requires an extensive use of various e-Infrastructure services to efficiently store, find, search, access and analyze them. However, in the digital arts and humanities (DH), the e-Infrastructure is still not exploited at its full potential. The main reason for that condition is the lack of awareness of the existence of such resources, no access, and the lack of technical knowledge. In order to overcome these drawbacks, the DARIAH Competence Centre (DARIAH CC), a member of the EGI-Engage H2020 project, is established. DARIAH CC is a virtual research group, gathering researchers from computer science and humanities over a common goal to broaden the usage of the advanced research infrastructures and facilitate the vision of Open Science Commons in the domain of Arts and Humanities. The CC aims to approach the cloud-based technologies to the researchers and scholars, with the special focus on the DARIAH community. However, the complexity of the cloud technologies and the technical knowledge required to access, exploit and maintain these resources could often discourage the potential users. To increase the friendliness and hide the technical obstacles, the DARIAH Science Gateway was developed, a web-based online portal that provides an easy access to services running on EGI FedCloud: Parallel Semantic Search Engine, Virtual dialect repository, Simple Cloud access and Distributed Real-Time Search and Information Retrieval. Via CC two clouds are provided to DARIAH community. Parallel to service provisioning, DARIAH CC aims at raising the awareness of the benefits of cloud technologies by organizing training events and demonstrating services on DH-related events.

Abstract: We study a super unified theory with gauge group SU(11). The subgroup SU(6) has been interpreted as a new type of energy source other than SU(5)[SU(5)  SU(3)  SU(2) U(1)], where SU(3) the strong energy group; SU(2) the weak energy group & U(1) the electro dynamics]. We consider a (4+D)–dimensional Friedmann–Robertson–Walker type universe having complex scale factor R + iRI , where R is the scale factor corresponding to the usual 4–dimensional Universe while RI is that of D–dimensional space. It is then compared with (4+D)–dimensional Kaluza–Klein Cosmology having two scale factors R and a(= iRI). It is shown that the rate of compactification of higher dimension depends on extra dimension ‘D’. The Wheeler–DeWitt equation is constructed and general solution is obtained. It is found that for D = 6 (i.e. in 10 dimension), the Wheeler–DeWitt equation is symmetric under the exchange RI  R.

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It was first announced in article since 2007 that our Physical Universe appeared by a Phase Transition Systems.