6 research outputs found
Closing the loop in exergaming - Health benefits of biocybernetic adaptation in senior adults
Exergames help senior players to get physically active by
promoting fun and enjoyment while exercising. However,
most exergames are not designed to produce recommended
levels of exercise that elicit adequate physical responses for
optimal training in the aged population. In this project, we
developed physiological computing technologies to
overcome this issue by making real-time adaptations in a
custom exergame based on recommendations for targeted
heart rate (HR) levels. This biocybernetic adaptation was
evaluated against conventional cardiorespiratory training in
a group of active senior adults through a floor-projected
exergame and a smartwatch to record HR data. Results
showed that the physiologically-augmented exergame leads
players to exert around 40% more time in the recommended
HR levels, compared to the conventional training, avoiding
over exercising and maintaining good enjoyment levels.
Finally, we made available our biocybernetic adaptation
software tool to enable the creation of physiological adaptive
videogames, permitting the replication of our study.info:eu-repo/semantics/publishedVersio
Volcanic Gases:Silent Killers
This is the accepted manuscript. The final version is available at http://link.springer.com/chapter/10.1007%2F11157_2015_14.Volcanic gases are insidious and often overlooked hazards. The effects of volcanic gases on life may be direct, such as asphyxiation, respiratory diseases and skin burns; or indirect, e.g. regional famine caused by the cooling that results from the presence of sulfate aerosols injected into the stratosphere during explosive eruptions. Although accounting for fewer fatalities overall than some other forms of volcanic hazards, history has shown that volcanic gases are implicated frequently in small-scale fatal events in diverse volcanic and geothermal regions. In order to mitigate risks due to volcanic gases, we must identify the challenges. The first relates to the difficulty of monitoring and hazard communication: gas concentrations may be elevated over large areas and may change rapidly with time. Developing alert and early warning systems that will be communicated in a timely fashion to the population is logistically difficult. The second challenge focuses on education and understanding risk. An effective response to warnings requires an educated population and a balanced weighing of conflicting cultural beliefs or economic interests with risk. In the case of gas hazards, this may also mean having the correct personal protection equipment, knowing where to go in case of evacuation and being aware of increased risk under certain sets of meteorological conditions. In this chapter we review several classes of gas hazard, the risks associated with them, potential risk mitigation strategies and ways of communicating risk. We discuss carbon dioxide flows and accumulations, including lake overturn events which have accounted for the greatest number of direct fatalities, the hazards arising from the injection of sulfate aerosol into the troposphere and into the stratosphere. A significant hazard facing the UK and northern Europe is a “Laki”-style eruption in Iceland, which will be associated with increased risk of respiratory illness and mortality due to poor air quality when gases and aerosols are dispersed over Europe. We discuss strategies for preparing for a future Laki style event and implications for society