A reduced reference video quality assessment method for provision as a service over SDN/NFV-enabled networks

139 p.The proliferation of multimedia applications and services has generarted a noteworthy upsurge in network traffic regarding video content and has created the need for trustworthy service quality assessment methods. Currently, predominent position among the technological trends in telecommunication networkds are Network Function Virtualization (NFV), Software Defined Networking (SDN) and 5G mobile networks equipped with small cells. Additionally Video Quality Assessment (VQA) methods are a very useful tool for both content providers and network operators, to understand of how users perceive quality and this study the feasibility of potential services and adapt the network available resources to satisfy the user requirements

A reduced reference video quality assessment method for provision as a service over SDN/NFV-enabled networks

139 p.The proliferation of multimedia applications and services has generarted a noteworthy upsurge in network traffic regarding video content and has created the need for trustworthy service quality assessment methods. Currently, predominent position among the technological trends in telecommunication networkds are Network Function Virtualization (NFV), Software Defined Networking (SDN) and 5G mobile networks equipped with small cells. Additionally Video Quality Assessment (VQA) methods are a very useful tool for both content providers and network operators, to understand of how users perceive quality and this study the feasibility of potential services and adapt the network available resources to satisfy the user requirements

Institute for Computational Mechanics in Propulsion (ICOMP)

The Institute for Computational Mechanics in Propulsion (ICOMP) is operated by the Ohio Aerospace Institute (OAI) and the NASA Lewis Research Center in Cleveland, Ohio. The purpose of ICOMP is to develop techniques to improve problem-solving capabilities in all aspects of computational mechanics related to propulsion. This report describes the accomplishments and activities at ICOMP during 1993

How do metalloenzymes propagate and control chemical reactions?

Enzymes control and propagate a dizzying array of chemical reactions, including radical reactions and reactions cleaving carbon-carbon bonds. Metalloenzymes, which contain a metal cofactor, are particularly adept at propagating these reactions. This thesis focuses on several metalloenzymes; each an example of a different unique reaction control strategy. Both experimental and computational methodologies have been employed in order to identify specific residues or features which contribute to each enzyme\u27s ability to control the reaction. Emphasis is made on special properties of the metal Manganese. Controlling residues include not only first shell or active site residues, but also residues more distant from the active-site. Further, manipulation of such residues can be used to alter reactivity at non -active-sites, or to alter the apparent electrostatics of the protein (in the case of substitution of hydrogen with fluorine). Electron Paramagnetic Resonance (EPR) and other forms of magnetic spectroscopy can be used to evaluate subtle differences imposed by substitution for controlling residues to a metal center, which gives further insight into the electronic contributions of given residues, as well as the electronic properties of metal cofactors. In summary, the catalysis by Mn-dependent and other metal-dependent metalloenzymes can be investigated through multiple kinetic and spectroscopic avenues, unveiling suprising and novel themes in enzymatic catalysis, such as mechano-chemical switches and super long-distance metallo-interactions

Magnetic Field Effects in Quantum Biology: Beyond the Radical Pair Mechanism

The effects of weak magnetic fields on biological systems have become an area of burgeoning research and interest in recent years. Specifically, the Radical Pair Mechanism (RPM) has been quite successful at beginning to explain phenomena such as avian magnetoreception, the magnetosensitivity of lipid peroxidation reactions and other such biological magnetic field effects (MFEs) - but there are still many questions to answer. This thesis addresses such questions, by proposing a new mechanism (D3M) to offer a new perspective on radical spin dynamics, and methods for amplifying biological MFEs

Computational Complexity of Strong Admissibility for Abstract Dialectical Frameworks

Abstract dialectical frameworks (ADFs) have been introduced as a formalism for modeling and evaluating argumentation allowing general logical satisfaction conditions. Different criteria used to settle the acceptance of arguments arecalled semantics. Semantics of ADFs have so far mainly been defined based on the concept of admissibility. Recently, the notion of strong admissibility has been introduced for ADFs. In the current work we study the computational complexityof the following reasoning tasks under strong admissibility semantics. We address 1. the credulous/skeptical decision problem; 2. the verification problem; 3. the strong justification problem; and 4. the problem of finding a smallest witness of strong justification of a queried argument