Theatre and performance design: a reader in scenography

This volume, the first of its kind in this field, brings together over fifty key texts and newly commissioned works that provide a critical and contextual framework for the analysis of theatre and performance design. The collection and analysis of material for the volume was undertaken with Andrew Nisbet, but Jane Collins was responsible for all of the additional writing, including the essays that frame each section. The volume was nominated for the TaPRA (Theatre and Performance Research Association) David Bradby Award for Research in International Theatre and Performance in 2011. Collins was invited to talk about the book at the opening of the Prague Quadrennial of Performance Design and Space in June 2011 and as guest speaker at the 15th Bharat Rang Mahotsav, International Theatre Festival in Delhi in January 2013. It has been reviewed in international journals including New Theatre Quarterly and Australasian Drama Studies. Theatre and Performance Design: A Reader in Scenography is an essential resource for those interested in the visual composition of performance and related scenographic practices. Theatre and performance studies, cultural theory, fine art, philosophy and the social sciences are brought together in one volume to examine the principle forces that inform understanding of theatre and performance design. The volume is organised thematically in five sections: Looking, the experience of seeing; Space and place; The designer: the scenographic; Bodies in space; and, Making meaning. This major collection of key writings provides a much needed critical and contextual framework for the analysis of theatre and performance design. By locating this study within the broader field of scenography - the term increasingly used to describe a more integrated reading of performance - this unique anthology recognises the role played by all the elements of production in the creation of meaning. Edited and with an introduction by Jane Collins and Andrew Nesbit, contributors include Josef Svoboda, Richard Foreman, Roland Barthes, Oscar Schlemmer, Maurice Merleau-Ponty, Richard Schechner, Jonathan Crary, Elizabeth Wilson, Henri Lefebvre, Adolph Appia, and Herbert Blau

Close, but No Degree: Removing Barriers to Degree-Completion and Economic Advancement in New Jersey

Examines current policies, programs, and initiatives designed to facilitate degree completion by offering the option through employment and workforce development services. Recommends increased system alignment, funding, student supports, and flexibility

Determination of benzo[alpha]pyrene in Turkish döner kebab samples cooked with charcoal or gas fire

peer-reviewedIn order to investigate the levels of the potent carcinogen benzo[a]pyrene (B(a)P), 40 samples of döner kebab were analysed. The samples tested included 20 cooked using a charcoal fire and 20 cooked using a gas fire. A liquid chromatographic method was developed using a fluorescence detector. The mean levels of B(a)P were found to be 24.2 (s.e. 0.84) g/kg for charcoal fire cooked meat samples and 5.7 (s.e. 3.48 g/kg) for gas fire cooked meat samples. Sixteen samples were found to be over the maximum level recommended by FAO/WHO (10 g/kg) and all of the samples exceeded the maximum tolerance level of the Turkish Food Codex (1 g/kg)

Fitness Landscape-Based Characterisation of Nature-Inspired Algorithms

A significant challenge in nature-inspired algorithmics is the identification of specific characteristics of problems that make them harder (or easier) to solve using specific methods. The hope is that, by identifying these characteristics, we may more easily predict which algorithms are best-suited to problems sharing certain features. Here, we approach this problem using fitness landscape analysis. Techniques already exist for measuring the "difficulty" of specific landscapes, but these are often designed solely with evolutionary algorithms in mind, and are generally specific to discrete optimisation. In this paper we develop an approach for comparing a wide range of continuous optimisation algorithms. Using a fitness landscape generation technique, we compare six different nature-inspired algorithms and identify which methods perform best on landscapes exhibiting specific features.Comment: 10 pages, 1 figure, submitted to the 11th International Conference on Adaptive and Natural Computing Algorithm

Quantifying the Impact of Parameter Tuning on Nature-Inspired Algorithms

The problem of parameterization is often central to the effective deployment of nature-inspired algorithms. However, finding the optimal set of parameter values for a combination of problem instance and solution method is highly challenging, and few concrete guidelines exist on how and when such tuning may be performed. Previous work tends to either focus on a specific algorithm or use benchmark problems, and both of these restrictions limit the applicability of any findings. Here, we examine a number of different algorithms, and study them in a "problem agnostic" fashion (i.e., one that is not tied to specific instances) by considering their performance on fitness landscapes with varying characteristics. Using this approach, we make a number of observations on which algorithms may (or may not) benefit from tuning, and in which specific circumstances.Comment: 8 pages, 7 figures. Accepted at the European Conference on Artificial Life (ECAL) 2013, Taormina, Ital

Resource allocation, hyperphagia and compensatory growth

Organisms often shown enhanced growth during recovery from starvation, and can even overtake continuously fed conspecifics (overcompensation). In an earlier paper (Ecology 84, 2777-2787), we studied the relative role played by hyperphagia and resource allocation in producing overcompensation in juvenile (non-reproductive) animals. We found that, although hyperphagia always produces growth compensation, overcompensation additionally requires protein allocation control which routes assimilate preferentially to structure during recovery. In this paper we extend our model to cover reproductively active individuals and demonstrate that growth rate overcompensation requires a similar combination of hyperphagia and allocation control which routes the part of enhanced assimilation not used for reproduction preferentially towards structural growth. We compare the properties of our dynamic energy budget model with an earlier proposal, due to Kooijman, which we extend to include hyperphagia. This formulation assumes that the rate of allocation to reserves is controlled by instantaneous feeding rate, and one would thus expect that an extension to include hyperphagia would not predict growth overcompensation. However, we show that a self-consistent representation of the hyperphagic response in Kooijman's model overrides its fundamental dynamics, leading to preferential allocation to structural growth during recovery and hence to growth overcompensation

Electron Temperature and Density Fluctuations in the Daytime Ionosphere

Daytime incoherent scatter measurements of electron temperature and density fluctuations in F layer of ionospher