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Cognition In The Wild

https://bura.brunel.ac.uk/bitstream/2438/4678/1/Fulltext.pdf

The Design with Intent Method: a design tool for influencing user behaviour.

Humanity already possesses the fundamental scientific, technical, and industrial know-how to solve the carbon and climate problem for the next half-century. A portfolio of technologies now exists to meet the world's energy needs over the next 50 years and limit atmospheric CO2 to a trajectory that avoids a doubling of the preindustrial concentration. Every element in this portfolio has passed beyond the laboratory bench and demonstration project; many are already implemented somewhere at full industrial scale. Although no element is a credible candidate for doing the entire job (or even half the job) by itself, the portfolio as a whole is large enough that not every element has to be used.

“Stabilization wedges: Solving the climate problem for the next 50 years with current technologies” from science magazine (2004)

The Dappled World: A Study of the Boundaries of Science

This paper demonstrates that the goals of ergonomics (i.e. effectiveness, efficiency, health, safety and usability) are closely aligned with the goals of design for environmental sustainability. In this paper, the term ‘green ergonomics’ is conceptualised to specifically describe ergonomics interventions with a pro-nature emphasis. Green ergonomics is focused on the bi-directional connections between human systems and nature. This involves looking at (1) how ergonomics design and evaluation might be used to conserve, preserve, and restore nature and (2) how ecosystem services might be harnessed to facilitate the improved wellbeing and effectiveness of human systems. The paper proposes the scope of green ergonomics based on these bi-directional relationships in the areas of the design of low resource systems and products, the design of green jobs, and the design for behaviour change. Suggestions for further work in the green ergonomics domain are also made. Practitioner Summary: Given the enormous environm...

Green ergonomics: definition and scope

Curbing the over-harvesting of the earth's resources by the developed and developing world cannot be achieved solely by technological solutions This paper reviews the literature on how reductions in energy consumption can be achieved through behavioral interventions The literature shows that feedback, a consequence intervention, has been shown to be more effective than antecedent interventions in correcting erroneous heuristics and biases as well as encouraging both efficiency and curtailment behaviors However, few feedback studies approach the feedback design problem systematically Human Factors specialists have an opportunity to contribute their expertise in human-machine systems to help address these deficiencies and aid in shifting our societies toward sustainable resource consumption

/pdf/the-need-for-human-factors-in-the-sustainability-domain-573260zvxk.pdf

The Need for Human Factors in the Sustainability Domain

A wastewater treatment system for use on a marine vessel comprising an aerobic fixed film biological reactor, a tubular flocculator and a dissolved air flotation (DAF) unit. The process units desirably include means for reducing erratic movement of the wastewater due to sea-induced movement of the marine vessel. The DAF unit includes a plurality of inclined baffles arranged to create a plurality of parallel inverted U-shaped flow paths that effect combined co-current and counter-current flotation separation while reducing erratic movement of the wastewater. The selection of process units and operating conditions advantageously reduces the footprint of the wastewater treatment system and reduces cost and complexity associated with the handling of wastewater treatment chemicals.

Wastewater treatment system for a marine vessel

Solar car racing is both a highly competitive sport and a test arena for tomorrow's renewable-energy applications. This article describes the design of a graphical interface for solar car race strategy planning. The coupling, unpredictability, and size of the solar car racing environment present tough challenges to racing strategy teams. Representation-aiding techniques provide a useful approach for managing this complexity, translating difficult problems into visual analogues that are better suited to human information processing.

Winning solar races with interface design

Representing energy efficiency diagnosis strategies in cognitive work analysis.

Renewable energy technologies present a distinct set of challenges for human problem solving and decision making. Solar car racing typifies opportunities for human factors engineering to support human performance in renewable energy domains, for example through computer interface design. Derivational and topographical adequacy are introduced as useful considerations to guide development of representation-aided interfaces and system instrumentation requirements. Implications for generalizability to emerging renewable energy applications are discussed.

Antony Hilliard

Papers

The Need for Human Factors in the Sustainability Domain

Wastewater treatment system for a marine vessel

Winning solar races with interface design

Representing energy efficiency diagnosis strategies in cognitive work analysis.

Ecological interface design for solar car strategy: From state equations to visual relations.