Multidisciplinary computational aerosciences

As the challenges of single disciplinary computational physics are met, such as computational fluid dynamics, computational structural mechanics, computational propulsion, computational aeroacoustics, computational electromagnetics, etc., scientists have begun investigating the combination of these single disciplines into what is being called multidisciplinary computational aerosciences (MCAS). The combination of several disciplines not only offers simulation realism but also formidable computational challenges. The solution of such problems will require computers orders of magnitude larger than those currently available. Such computer power can only be supplied by massively parallel machines because of the current speed-of-light limitation of conventional serial systems. Even with such machines, MCAS problems will require hundreds of hours for their solution. To efficiently utilize such a machine, research is required in three areas that include parallel architectures, systems software, and applications software. The main emphasis of this paper is the applications software element. Examples that demonstrate application software for multidisciplinary problems currently being solved at NASA Ames Research Center are presented. Pacing items for MCAS are discussed such as solution methodology, physical modeling, computer power, and multidisciplinary validation experiments

DIGITAL: multidisciplinary and multidimensional in the classrooms

In this paper our aim is to analyse and present some pedagogical paths that prefigure and guide the teaching-learning devices developed "around" the digital tools. In this context issues related to the implementation with teaching methodologies and teaching techniques acquire a new dimension due to the need of transpose them into online learning environments (technologies to teach to technologies to learn). This starting point is a deep understanding from the analysis of actors in the online learning process: student, teacher, platform and e- contents. Thus, it is our goal in this chapter to promote digital education, think of teaching methods, tools and learning processes, to adapted to eLearninginfo:eu-repo/semantics/publishedVersio

Integrating Women and Girls With Disabilities Into Mainstream Vocational Training: A Practical Guide

[From Foreword] This guide has been developed as an ILO contribution to implementing the Agenda for Action of the Asian and Pacific Decade of Disabled Persons, 1993-2002, and to the Platform for Action adopted by the 1995 United Nations Fourth World Conference on Women held in Beijing which has called specifically for action by Governments, in cooperation with employers, workers and trade unions, international and on-governmental organizations, including women’s and youth organizations, and educational institutions to ensure access to quality education and training for, among others, women with disabilities, to improve their employment opportunities. It is also part of the ILO strategy to promote the observance of the ILO Vocational Rehabilitation and Employment (Disabled Persons) Convention, 1983 (No. 159), and Recommendation, 1983 (No. 168). These are the main reference documents for the ILO activities on the employment and training of disabled persons, along with the ILO Recommendation on Vocational Rehabilitation of the Disabled, 1995 (No. 99). This guide is intended primarily for instructors and administrators in vocational training institutes in both the public and private sectors

Learning to Tango: Sustainable development and the multidisciplinary dream

It is widely accepted that the creation of a sustainable future will require considerable collaboration between a range of academic and professional disciplines. This need is usually expressed in calls for the formation of multidisciplinary teams that are designed to explore the issues and develop our understanding of the problem space. However, there would appear to be few attempts to understand how such teams operate and how they should be managed. This paper explores collective music making as a useful metaphor for understanding the role of specialist skills, of generalist, management and support skills and the way they could be harnessed so that each is able to provide the right contribution at the right time ensuring that all contributions intertwine to create a powerful song. In unpacking the multidisciplinary bag, the paper draws on the author’s experience and observations in both collective music making and the development of regulatory structures and technologies for sustainable housing. It provides a reflective reassessment of the nature of multidisciplinary working and how, with a much deeper understanding of the difficulties involved, multidisciplinary approaches can be enabled so as to deliver the solutions required for a more sustainable world

Development of an undergraduate multidisciplinary engineering project

During their time at university it is necessary for undergraduate engineering students to develop not just technical skills related to their chosen engineering subject, but to also develop team working, time management, self organisation and decision making skills that will enable them to work effectively as engineers in the real world after graduation. These important transferable skills are highly sought after by industry and any chance to identify where such skills have been successfully used during an undergraduate degree course is a valuable addition to a student’s CV when subsequently entering the job market. To address the need of developing transferable skills, the School of Engineering and Design Multidisciplinary Project (MDP) was introduced in 2007 to provide first year undergraduate students with an opportunity to work together in multidisciplinary teams on a design and construction project. Each team is comprised of students from across the range of subject areas within the School and tasked with designing and building a robotic vehicle to tackle an obstacle course. The basis for the kits provided to each team are Lego Mindstorms robots for a majority of groups while the remaining groups are provided with a Parallax Basic STAMP 2 chip and a micro-controller chip to design their vehicle around. Figure 1 shows a selection of the 50 completed project builds from the 2009 MDP, showing the wide array of designs produced by the students. This paper describes the main aims of the MDP and gives an overview of how it has developed over the last three years to become a key part of the engineering undergraduate programme at Brunel University