Feng Xiao scite author profile

Feng Xiao

3Publications

223Citation Statements Received

64Citation Statements Given

How they've been cited

251

216

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Affiliations

Hefei University of Technology, Central South University, Xi'an Technological University

Publications

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Background complexity and the detectability of camouflaged targets by birds and humans

Xiao¹,

Cuthill²

2016

Proc. R. Soc. B.

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Remaining undetected is often key to survival, and camouflage is a widespread solution. However, extrinsic to the animal itself, the complexity of the background may be important. This has been shown in laboratory experiments using artificially patterned prey and backgrounds, but the mechanism remains obscure (not least because 'complexity' is a multifaceted concept). In this study, we determined the best predictors of detection by wild birds and human participants searching for the same cryptic targets on trees in the field. We compared detection success to metrics of background complexity and 'visual clutter' adapted from the human visual salience literature. For both birds and humans, the factor that explained most of the variation in detectability was the textural complexity of the tree bark as measured by a metric of feature congestion (specifically, many nearby edges in the background). For birds, this swamped any effects of colour match to the local surroundings, although for humans, local luminance disparities between the target and tree became important. For both taxa, a more abstract measure of complexity, entropy, was a poorer predictor. Our results point to the common features of background complexity that affect visual search in birds and humans, and how to quantify them.

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Plasma coating of carbon nanofibers for enhanced dispersion and interfacial bonding in polymer composites

Shi¹,

Lian²,

He³

et al. 2003

140

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Ultrathin films of polystyrene were deposited on the surfaces of carbon nanofibers using a plasma polymerization treatment. A small percent by weight of these surface-coated nanofibers were incorporated into polystyrene to form a polymer nanocomposite. The plasma coating greatly enhanced the dispersion of the nanofibers in the polymer matrix. High-resolution transmission-electron-microscopy ͑HRTEM͒ images revealed an extremely thin film of the polymer layer ͑ϳ3 nm͒ at the interface between the nanofiber and matrix. Tensile test results showed considerably increased strength in the coated nanofiber composite while an adverse effect was observed in the uncoated composites; the former exhibited shear yielding due to enhanced interfacial bonding while the latter fractured in a brittle fashion.

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Analysis of the promoter activity of late embryogenesis abundant protein genes in barley seedlings under conditions of water deficit

Xiao

Gong

2001

Plant Cell Rep

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Feng Xiao

Background complexity and the detectability of camouflaged targets by birds and humans

Plasma coating of carbon nanofibers for enhanced dispersion and interfacial bonding in polymer composites

Analysis of the promoter activity of late embryogenesis abundant protein genes in barley seedlings under conditions of water deficit

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