A Toolkit for Exploring Affective Interface Adaptation in Videogames

From its humble beginnings back in the early 1960’s the videogame has become one of the most successful form of HCI to date. However if we look more closely at the interactions between the game and gamer it becomes evident little has changed since the advent of SpaceWar back in 1961. These interactions are for the most part static and thus predictable, given a particular set of circumstances a game will always react in one particular manner despite anything the player may actually do. Because of this the expected lifespan of a videogame is inherently dependant on the choices the videogame provides; once all possible avenues have been explored the game loses its appeal. In this paper we focus on adapting techniques used in the field of Affective Computing to solve this stagnation in the videogames market. We describe the development of a software development kit (SDK) that allows the interactions between man and machine to become dynamic entities during play by means of monitoring the player’s physiological condition

Liquid: Designing a Universal Sensor Interface for Ubiquitous Computing

This paper describes the specification of a universal sensor interface (USI) called Liquid, which allows for the collection and representation of sensor readings from a wide range of different sensors. We illustrate how it is possible for Liquid to collect data from a broad spectrum of sensors using a select method of sensor classification and to present this data within a common environment. We explore how this approach can extend itself to include sensors not yet conceived of with relative ease. Finally we explain how the Liquid USI provides developers of ubiquitous systems with a general-purpose toolkit for the development of sensor-based applications

The nonlinear evolution of whistler-mode chorus:modulation instability as the source of tones

We review the modulation stability of parallel-propagating/field-aligned whistler-mode chorus (WMC) waves propagating in a warm plasma from a formal perspective with a focus on wave–particle interactions via ponderomotive forces. The modulation instability criteria are characterised by the group velocity dispersion, dcg/dk, for whistler-mode waves and a condition on the ratio between the group velocity cg and the electron sound speed cs,e. We also demonstrate that in order to investigate the spatiotemporal evolution of the envelope and the formation of packets (according to this mechanism), one necessarily needs to account for the motion of ions within the system, leading to an ionic influence on the modulation instability threshold determined by the ion fraction of the plasma. Finally, we demonstrate that chirping may be captured when higher-order effects are included within the spatiotemporal evolution of the amplitude. This yields not only an explicit expression for the sweep rate but also identifies a possible origin for the power band gap that occurs at half the electron gyrofrequency. Numerical validation demonstrates that the interaction between wave packets is a source for the emergence of tones observed within mission data, and such interactions may be a major source of the electron energisation which WMC are responsible for

On the Two Approaches to Incorporate Wave‐Particle Resonant Effects Into Global Test Particle Simulations

Energetic electron dynamics in the Earth's radiation belts and near-Earth plasma sheet are controlled by multiple processes operating on very different time scales: from storm-time magnetic field reconfiguration on a timescale of hours to individual resonant wave-particle interactions on a timescale of milliseconds. The most advanced models for such dynamics either include test particle simulations in electromagnetic fields from global magnetospheric models, or those that solve the Fokker-Plank equation for long-term effects of wave-particle resonant interactions. The most prospective method, however, would be to combine these two classes of models, to allow the inclusion of resonant electron scattering into simulations of electron motion in global magnetospheric fields. However, there are still significant outstanding challenges that remain regarding how to incorporate the long term effects of wave-particle interactions in test-particle simulations. In this paper, we describe in details two approaches that incorporate electron scattering in test particle simulations: stochastic differential equation (SDE) approach and the mapping technique. Both approaches assume that wave-particle interactions can be described as a probabilistic process that changes electron energy, pitch-angle, and thus modifies the test particle dynamics. To compare these approaches, we model electron resonant interactions with field-aligned whistler-mode waves in dipole magnetic fields. This comparison shows advantages of the mapping technique in simulating the nonlinear resonant effects, but also underlines that more significant computational resources are needed for this technique in comparison with the SDE approach. We further discuss applications of both approaches in improving existing models of energetic electron dynamics

The Career Experiences of Football Association Coach Educators: Lessons in Micropolitical Literacy and Action

Coach education has been the subject of increasing investigation in recent years. While such inquiry has provided important insights into coaches’ engagements with various forms of coach education provision, coach educators’ perspectives have remained curiously absent from the literature base. This study provides rich insights into the ways in which four Football Association (FA) coach educators interpreted their everyday workplace relationships with various significant others (e.g., their line managers, colleagues, and coach learners). In-depth, cyclic interviews were utilised to generate the data. The transcripts were iteratively analysed using symbolic interactionist and dramaturgical theorisations of social life. The analysis highlighted how the participants’ interactions and identity management were influenced by their understandings of others’ expectations of acceptable workplace performance, as well as their own career related aspirations. Here, the participants demonstrated a nuanced ability to ‘read’ and ‘write’ themselves into the micropolitical and uncertain terrain of coach education work. It is hoped that this study highlights the utility of symbolic interactionist and dramaturgical theories to the critical examination of coach education work and, relatedly, how such inquiry could be used to assist in the preparation and on-going professional development of coach educators

Review of gynaecological cancer among Aboriginal and/or Torres Strait Islander people in Australia

Gynaecological cancers bear a significant burden on the health of Australians. Whilst Australia has made great strides in reducing the overall gynaecological cancer burden nationally, Aboriginal and/or Torres Strait Islander women continue to experience disproportionately high rates of gynaecological cancers. This review focuses on the social, cultural, and historical contexts that contribute to inequitable gynaecological cancer rates among Aboriginal and/or Torres Strait Islander women. An in-depth discussion on cervical cancer, ovarian cancer, and uterine cancer are described; including the incidence, mortality, survival, and management of these diseases for Aboriginal and/or Torres Strait Islander women. It highlights both the persistent barriers and facilitators relating to Aboriginal and/or Torres Strait Islander women’s uptake of preventative measures and treatments, including their use of services and programs relating to the management of gynaecological cancers. This review summarises past and current policies and strategies implemented by the Australian Government and other cancer related peak bodies that aim to address this health issue. It recommends that critical attention be given to risk reduction, participation in cancer screening programs, and improved access to culturally appropriate, high quality primary health care and tertiary specialist services. This would address inequitable differences faced by Aboriginal and/or Torres Strait Islander people and reduce the overall burden of gynaecological cancers

Methylphenidate-mediated motor control network enhancement in patients with traumatic brain injury.

PRIMARY OBJECTIVE: To investigate functional improvement late (>6 months) after traumatic brain injury (TBI). To this end, we conducted a double-blind, placebo-controlled experimental medicine study to test the hypothesis that a widely used cognitive enhancer would benefit patients with TBI. RESEARCH DESIGN: We focused on motor control function using a sequential finger opposition fMRI paradigm in both patients and age-matched controls. METHODS AND PROCEDURES: Patients' fMRI and DTI scans were obtained after randomised administration of methylphenidate or placebo. Controls were scanned without intervention. To assess differences in motor speed, we compared reaction times from the baseline condition of a sustained attention task. MAIN OUTCOMES AND RESULTS: Patients' reaction times correlated with wide-spread motor-related white matter abnormalities. Administration of methylphenidate resulted in faster reaction times in patients, which were not significantly different from those achieved by controls. This was also reflected in the fMRI findings in that patients on methylphenidate activated the left inferior frontal gyrus significantly more than when on placebo. Furthermore, stronger functional connections between pre-/post-central cortices and cerebellum were noted for patients on methylphenidate. CONCLUSIONS: Our findings suggest that residual functionality in patients with TBI may be enhanced by a single dose of methylphenidate.The study was funded by the Evelyn Trust- grant number 06/20. C.D. was funded by the Clinical Academic Research Awards organized by the East of England Multi Professional Deanery. B.J.S. consults for Cambridge Cognition, Otsuka, Servier and Lundbeck. She holds a grant from Janssen/J&J and has share options in Cambridge Cognition. D.K.M. is supported by the Neuroscience Theme of the NIHR Cambridge Biomedical Research Centre and NIHR Senior Investigator awards, and by Framework Program 7 funding from the European Commission (TBIcare). He has received lecture and consultancy fees and support for research from Glaxo SmithKline, Solvay and Linde. E.A.S. is funded by the Stephen Erskine Fellowship, Queens' College, Cambridge, UK

Collisionless current sheet equilibria

Current sheets are important for the structure and dynamics of many plasma systems. In space and astrophysical plasmas they play a crucial role in activity processes, for example by facilitating the release of magnetic energy via processes such as magnetic reconnection. In this contribution we will focus on collisionless plasma systems. A sensible first step in any investigation of physical processes involving current sheets is to find appropriate equilibrium solutions. The theory of collisionless plasma equilibria is well established, but over the past few years there has been a renewed interest in finding equilibrium distribution functions for collisionless current sheets with particular properties, for example for cases where the current density is parallel to the magnetic field (force-free current sheets). This interest is due to a combination of scientific curiosity and potential applications to space and astrophysical plasmas. In this paper we will give an overview of some of the recent developments, discuss their potential applications and address a number of open questions