Standardising the design of educational computer reading programs for children.

Educationalists working in the sphere of special education, psychologists and software engineers continue to debate the efficacy of technology interfaces and the merits of information technology with regard to supporting learning in children with Autistic Spectrum Disorder (ASD), and the need to standardise software design for this group. This research argues that, for these children to optimise the use of this technology, it must be designed to meet the learning needs and characteristics of this condition, and so a design/development standard is needed. There is currently no instruction to aid educational professionals in choosing suitable computer programs that can be employed to support learning to read in children with ASD. The present research offers a rigorous comparative analysis of the multimedia conditions. A selection instruction (SI) was developed to facilitate the choice of appropriate computer programs for children with ASD, and forms part of the pilot study for this investigation, which was later modified and developed into an educational computer programs design standard. This SI serves as a set of guidelines that is intended to assist professionals and the parents/guardians of children with ASD in their search for good, useable programs that will assist in the acquisition of early reading skills by this group. This research advocates the development of effective computer programs based on individualistic considerations and the stringent application of Human Computer Interaction (HCI) principles in the design of multimedia computer technology for children with ASD. Two educational programs were employed in the investigation, and the data collection method included quantitative (pre-tests; a comparative study of children with ASD and typically developing children in videorecorded sessions, and post-tests) and qualitative (interviews, and an attitude questionnaire) methods. This approach was triangulated, thereby promoting the validity and rigour of the investigation. The present research concludes that, although there were recorded gains in the application of computer technology to teach new words to children with ASD, there were problems relating to the appropriateness and suitability of the programs for the children employed in this research, as detected during the interviews and from the attitude questionnaires, noting the need for autistic preferences in the design and development of these educational computer programs. This investigation offers a broader approach to the theoretical understanding and explanation of autistic learning styles, reading methodologies and issues relating to the design, development and usability of multimedia computer technology. Attention is drawn to the inadequacy of the existing technology and research into ASD and how the disorder affects learning in these children

Thriving in a colder and more challenging climate

Hawkridge, D., Ng, K., & Verjans, S. (Eds.) (2011). Thriving in a colder and more challenging climate. The 18th annual conference of the Association for Learning Technology (ALT-C 2011). September, 6-8, 2011, University of Leeds, England, UK. URI:http://repository.alt.ac.uk/2159Here are the proceedings of the 2011 ALT Conference ‘‘Thriving in a colder and more challenging climate’’. Proceedings papers report on a piece of research, possibly in its early stages, or they can be ‘‘thoughtpieces’’ which state a point of view or summarise an area of work, perhaps giving new insights. The conference has six themes: . Research and rigour: creating, marshalling and making effective use of evidence . Making things happen: systematic design, planning and implementation . Broad tents and strange bedfellows: collaborating, scavenging and sharing to increase value . At the sharp end: enabling organisations and their managers to solve business, pedagogic and technical challenges . Teachers of the future: understanding and influencing the future role and practices of teachers . Preparing for a thaw: looking ahead to a time beyond the disruptive discontinuities of the next few years. Interestingly, there were very few proposals for the conference as a whole against the sixth theme: and no proceedings papers. Perhaps the thaw is still perceived as being too far away to warrant any preparation yet!Association for learning technolog

Human Problem Solving in 2012

This paper presents a bibliography of 263 references related to human problem solving, arranged by subject matter. The references were taken from PsycInfo and Academic Premier database. Journal papers, book chapters, and dissertations are included. The topics include human development, education, neuroscience, and research in applied settings. It is argued that researchers are more and more engaged with problem solving research because of its centrality in human actions and because society needs advice from science in understanding and solving complex problems

A Virtual University Infrastructure For Orthopaedic Surgical Training With Integrated Simulation

This thesis pivots around the fulcrum of surgical, educational and technological factors. Whilst there is no single conclusion drawn, it is a multidisciplinary thesis exploring the juxtaposition of different academic domains that have a significant influence upon each other. The relationship centres on the engineering and computer science factors in learning technologies for surgery. Following a brief introduction to previous efforts developing surgical simulation, this thesis considers education and learning in orthopaedics, the design and building of a simulator for shoulder surgery. The thesis considers the assessment of such tools and embedding into a virtual learning environment. It explains how the performed experiments clarified issues and their actual significance. This leads to discussion of the work and conclusions are drawn regarding the progress of integration of distributed simulation within the healthcare environment, suggesting how future work can proceed

Distant Operational Care Centre: Design Project Report

The goal of this project is to outline the design of the Distant Operational Care Centre (DOCC), a modular medical facility to maintain human health and performance in space, that is adaptable to a range of remote human habitats. The purpose of this project is to outline a design, not to go into a complete technical specification of a medical facility for space. This project involves a process to produce a concise set of requirements, addressing the fundamental problems and issues regarding all aspects of a space medical facility for the future. The ideas presented here are at a high level, based on existing, researched, and hypothetical technologies. Given the long development times for space exploration, the outlined concepts from this project embodies a collection of identified problems, and corresponding proposed solutions and ideas, ready to contribute to future space exploration efforts. In order to provide a solid extrapolation and speculation in the context of the future of space medicine, the extent of this project's vision is roughly within the next two decades. The Distant Operational Care Centre (DOCC) is a modular medical facility for space. That is, its function is to maintain human health and performance in space environments, through prevention, diagnosis, and treatment. Furthermore, the DOCC must be adaptable to meet the environmental requirements of different remote human habitats, and support a high quality of human performance. To meet a diverse range of remote human habitats, the DOCC concentrates on a core medical capability that can then be adapted. Adaptation would make use of the DOCC's functional modularity, providing the ability to replace, add, and modify core functions of the DOCC by updating hardware, operations, and procedures. Some of the challenges to be addressed by this project include what constitutes the core medical capability in terms of hardware, operations, and procedures, and how DOCC can be adapted to different remote habitats