With the start of the new academic year in 2014, Radboud University Nijmegen, the Netherlands, introduced a new corporate style.
They provide official Powerpoint and Keynote themes, but have not, and will not, provide a LaTeX Beamer theme.
Currently the corporate style, and the second-tier styles for Software Science, Data Science, Kaski, PTRS, IMR, SteR, CLS, CLST, DS, IS, MBSD, iCIS and HCLS are implemented. Initial support for group logos: lama. New support for the 2017 style in 16:9 format.
Feel free to use this theme, I tried to adhere to the provided guidelines as well as I could, but in case there are any problems, suggestions, or comments, let me know at email@example.com or visit the github repository on https://github.com/naiaden/presentations/tree/master/ruhuisstijl/distributed
You can distribute and edit the files as you wish, but I'd love to hear of any changes. Also, if you let me know that you are using the template, I can keep you up-to-date on future changes.
This project uses LuaTeX to draw nodes graphs representing the inner structure of TeX boxes. The node graphs are output in PDF and SVG format for digital- or print-based usage. This project was written to accompany the blog post Pandora’s \hbox: Using LuaTeX to Lift the Lid of TeX Boxes.
A study tool. Equations are mostly listed without a description of what they represent. Topics are detailed based on problems.
Usage: To prepare for the Calculus BC exam, go through topics one at a time and mentally describe the problem, process, and equations involved. If you get stuck - look up the answer and start again from the top. When you can get through the entire sheet - you're ready! Do the same with the equation list - describing exactly what type of problems you might need the equation for. Do not use notes in conjunction with the review sheet. Look up the answer - close the book and start again! You can thank me later.
Article template for the Journal for Modeling in Ophthalmology. Journal for Modeling in Ophthalmology (JMO) was created in 2014 with the aim of providing a forum for interdisciplinary approaches integrating mathematical and computational modeling techniques to address open problems in ophthalmology
Downloaded from the journal website on 3 June 2017. One minor fix to a biblatex style issue in the .cls file, but otherwise unmodified.
Em um cenário onde a execução dos processos são altamente dependentes de recursos de Tecnologia da Informação (TI), a forma de entrega dos acessos é elemento vital para garantia da proteção e confiabilidade das informações que viabilizam a execução das tarefas desses processos. Neste contexto, o sistema ERP de uma organização é item de configuração chave, demandando de sólido gerenciamento do controle de acesso, manipulação e armazenamento das informações. Este artigo aborda, no contexto de uma organização brasileira de capital aberto, o método de controle de acesso aplicado em conjunto com o processo de gestão de riscos, que juntos proporcionam uma visão singular sobre riscos diversos que podem ser até mesmo de fraudes financeiras. O acumulo de permissões, ou ainda, a concessão de acessos sem prévia análise dos riscos de segregação de função (SoD - Segregation of Duties) podem trazer consequências graves à organização. Neste intento, buscou-se uma contextualização de acordo com a legislação vigente, processos necessários, tomando como exemplo um sub processo da área financeira de uma organização fictícia que utiliza o sistema SAP.
With the aim to develop more efficient aircraft configurations, the Blended-Wing-Body (BWB) unmanned aerial vehicles have grown attention in recent years. Compare to conventional aircraft configurations, the BWB structure has several advantages in aerody- namics and fuel efficiency. Topology optimization (TO) is also a relatively new structure
optimization approach which has applied successfully in automotive industry for a consid- erable time. In this paper, topology optimization method will be applied on a special BWB structure UAV called BITU on both 2D and 3D models in ABAQUS. The optimization goal is to minimize compliance energy under specified loading and boundary conditions which will be computed in modeling and simulation section. Finally, optimized result compared to initial design will demonstrate TO is a rational and efficient design tool for structure optimization, especially in Aircraft industry.