Nichtlineare Registrierung von Diffusions-Tensor-Bildern

Viele Wissenschafts- und Ingenieursdisziplinen, wie Mikroskopie, medizinische Diagnostik, Astronomie oder Maschinenbau, nutzen die Methoden und Techniken der Bildverarbeitung, um bestimmte Objekte darzustellen, zu zählen, zu vermessen und Ähnliches. Eine häufig genutzte Technik in der digitalen Bildverarbeitung ist die Bildregistrierung. Darunter versteht man Methoden, die es ermöglichen, zwei oder mehrere Bilder derselben Szene, oder zumindest ähnlicher Szenen, bestmöglich in Übereinstimmung miteinander zu bringen. Mit anderen Worten, beim Registrierungsproblem geht es darum, eine Übereinstimmung zwischen den Punkten zweier oder mehrerer Bilder herzustellen

Programme and The Book of Abstracts / Twentieth Annual Conference YUCOMAT 2018, Herceg Novi, September 3-7, 2018

The First Conference on materials science and engineering, including physics, physical chemistry, condensed matter chemistry, and technology in general, was held in September 1995, in Herceg Novi. An initiative to establish Yugoslav Materials Research Society was born at the conference and, similar to other MR societies in the world, the programme was made and objectives determined. The Yugoslav Materials Research Society (Yu-MRS), a nongovernment and non-profit scientific association, was founded in 1997 to promote multidisciplinary goal-oriented research in materials science and engineering. The main task and objective of the Society has been to encourage creativity in materials research and engineering to reach a harmonic coordination between achievements in this field in our country and analogous activities in the world with an aim to include our country into global international projects. Until 2003, Conferences were held every second year and then they grew into Annual Conferences that were traditionally held in Herceg Novi in September of every year. In 2007 Yu-MRS formed two new MRS: MRS-Serbia (official successor of Yu-MRS) and MRS-Montenegro (in founding). In 2008, MRS – Serbia became a member of FEMS (Federation of European Materials Societies)

White Paper on Digital and Complex Information

Information is one of the main traits of the contemporary era. Indeed there aremany perspectives to define the present times, such as the Digital Age, the Big Dataera, the Fourth Industrial Revolution, the fourth Paradigm of science, and in all ofthem information, gathered, stored, processed and transmitted, plays a key role.Technological developments in the last decades such as powerful computers, cheaperand miniaturized solutions as smartphones, massive optical communication, or theInternet, to name few, have enabled this shift to the Information age. This shift hasdriven daily life, cultural and social deep changes, in work and personal activities,on access to knowledge, information spreading, altering interpersonal relations orthe way we interact in public and private sphere, in economy and politics, pavingthe way to globalizationPeer reviewe

Development of III-nitride-based waveguides for application in all-optical integrated circuits at 1.55 [my]m

El desarrollo de una nueva tecnología todo-óptica para el procesado de datos en las futuras redes de telecomunicación está generando un gran interés desde hace una década. Esta tecnología está encaminada al total aprovechamiento del gran ancho de banda que proporciona la fibra óptica, evitando la conversión entre los dominios óptico y eléctrico necesaria en cada nodo de las redes de comunicaciones actuales. Esta nueva tecnología todo-óptica requiere de diferentes componentes ópticos que puedan ser controlados ópticamente. Estos dispositivos se obtienen a partir de distintos materiales semiconductores y se implementan de forma miniaturizada en un circuito todo-óptico integrado operando a 1.55 [my]m, mejorando de esta forma la fiabilidad del sistema y reduciendo su coste. Teniendo en cuenta que los nitruros del grupo III son materiales que han demostrado un gran potencial para aplicaciones en comunicaciones ópticas a 1.55 [my]m, el objetivo de este trabajo es el desarrollo de nuevos dispositivos todo-ópticos basados en éstos para su futura implementación en circuitos fotónicos integrados ultrarrápidos operando a longitudes de onda de telecomunicación. Durante esta Tesis se han desarrollado varios dispositivos de guía de onda basados en diferentes estructuras de nitruros del grupo III sobre substratos de zafiro y funcionando a 1.55 [my]m. En primer lugar, se han optimizado diferentes guías de onda ópticas basadas en pozos y puntos cuánticos de GaN/AlN para trabajar como absorbentes saturables a través de sus transiciones intersubbanda. Estas guías de onda podrían utilizarse en procesos de conmutación todo-óptica. En segundo lugar, se ha optimizado el crecimiento de AlN por sputtering de radiofrecuencia permitiendo su uso para la fabricación de guías de onda pasivas. El comportamiento óptico lineal de las guías de AlN por sputtering muestra su idoneidad para actuar como interconectores pasivos de bajo coste en un circuito todo-óptico integrado. Por último, se han optimizado dos tipos de guías de onda basadas en InN por sputtering para funcionar como absorbentes saturables inversos mediante procesos de absorción de dos fotones. La respuesta óptica no lineal de ambas guías abre la posibilidad de utilizar estos dispositivos para aplicaciones en limitación todo-óptica a longitudes de onda de telecomunicación

Proceedings, MSVSCC 2012

Proceedings of the 6th Annual Modeling, Simulation & Visualization Student Capstone Conference held on April 19, 2012 at VMASC in Suffolk, Virginia

Corporations and international lawmaking.

Public international lawmaking is a multipartite process of communication wherein only States as authoritative decision-makers produce international law. However, commercial entities have long been active within the international legal order and employ international law to curtail the right of States to regulate at national levels. Evidence suggests that the international legal personality of corporations is undergoing further qualitative transformations. Corporations influence the State practice constitutive of custom and affirm, add detail to or challenge prevailing normative rules. The corporate role in filling lacunae where States are unable or unwilling to discharge their regulatory responsibility is apparent in the context of intergovernmental codes of conduct and private voluntary initiatives. Although the procedural law common to Conferences of the Parties indicates that a 'right of participation' is yet to emerge, ECOSOC-accredited non-State actors enjoy a legitimate expectation of admission. Furthermore, the modalities for their participation include the formal opportunity to make oral and written statements and to undertake informal activity. Corporations occupy an important role in subsequent treaty implementation as illustrated by the legal regime for climate change. Finally, corporations develop procedural law and substantive norms through selective resort to different enforcement models including national courts, diplomatic protection (including the WTO) and direct arbitral action (including NAFTA). The challenges of business engagement include identifying majority opinion, discerning commercial intent and managing confrontations with developing States or other non-State actors. Diversity and evolution characterise the practice of UN secretariats and a one-size-fits-all approach is not currently feasible or desirable. Acknowledging commercial contributions more accurately reflects the negotiating process inherent in lawmaking and the role of States in mediating contested policy questions. Corporate contributions through, in parallel with or collaboratively with States can be consistent with democratic theory by enriching intergovernmental deliberations. However, they can only ever augment the underlying basis of international law: State consent

Combining SOA and BPM Technologies for Cross-System Process Automation

This paper summarizes the results of an industry case study that introduced a cross-system business process automation solution based on a combination of SOA and BPM standard technologies (i.e., BPMN, BPEL, WSDL). Besides discussing major weaknesses of the existing, custom-built, solution and comparing them against experiences with the developed prototype, the paper presents a course of action for transforming the current solution into the proposed solution. This includes a general approach, consisting of four distinct steps, as well as specific action items that are to be performed for every step. The discussion also covers language and tool support and challenges arising from the transformation

Pressurized CO2 Electrochemical Conversion to Formic Acid: From Theoretical Model to Experimental Results

To curb the severely rising levels of carbon dioxide in the atmosphere, new approaches to capture and utilize this greenhouse gas are currently being investigated. In the last few years, many researches have focused on the electrochemical conversion of CO2 to added-value products in aqueous electrolyte solutions. In this backdrop, the pressurized electroreduction of CO2 can be assumed an up-and-coming alternative process for the production of valuable organic chemicals [1-3]. In this work, the process was studied in an undivided cell with tin cathode in order to produce formic acid and develop a theoretical model, predicting the effect of several operative parameters. The model is based on the cathodic conversion of pressurized CO2 to HCOOH and it also accounts for its anodic oxidation. In particular, the electrochemical reduction of CO2 to formic acid was performed in pressurized filter press cell with a continuous recirculation of electrolytic solution (0.9 L) at a tin cathode (9 cm2) for a long time (charge passed 67’000 C). It was shown that it is possible to scale-up the process by maintaining good results in terms of faradaic efficiency and generating significantly high concentrations of HCOOH (about 0.4 M) [4]. It was also demonstrated that, for pressurized systems, the process is under the mixed kinetic control of mass transfer of CO2 and the reduction of adsorbed CO2 (described by the Langmuir equation), following our proposed reaction mechanism [5]. Moreover, the theoretical model is in good agreement with the experimental results collected and well describes the effect of several operating parameters, including current density, pressure, and the type of reactor used. 1. Ma, S., & Kenis, P. J. (2013). Electrochemical conversion of CO2 to useful chemicals: current status, remaining challenges, and future opportunities. Current Opinion in Chemical Engineering, 2(2), 191-199. 2. Endrődi, B., Bencsik, G., Darvas, F., Jones, R., Rajeshwar, K., & Janáky, C. (2017). Continuous-flow electroreduction of carbon dioxide. Progress in Energy and Combustion Science, 62, 133-154. 3. Dufek, E. J., Lister, T. E., Stone, S. G., & McIlwain, M. E. (2012). Operation of a pressurized system for continuous reduction of CO2. Journal of The Electrochemical Society, 159(9), F514-F517. 4. Proietto, F., Schiavo, B., Galia, A., & Scialdone, O. (2018). Electrochemical conversion of CO2 to HCOOH at tin cathode in a pressurized undivided filter-press cell. Electrochimica Acta, 277, 30-40. 5. Proietto, F., Galia, A., & Scialdone, O. (2019) Electrochemical conversion of CO2 to HCOOH at tin cathode: development of a theoretical model and comparison with experimental results. ChemElectroChem, 6, 162-172