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200 00$aHigher-order processing in the visual system$b[electronic resource]
210   $aChichester ;$aNew York $cWiley$d1995
215   $a1 online resource (358 p.)
225 1 $aCiba Foundation symposium ;$v184
300   $aProceedings of Symposium on Higher-Order Processing in the Visual System held at the CIBA Foundation, London, Oct. 19-21, 1993.
300   $aEditors, Gregory R. Bock and Jamie A. Goode.
311   $a0-471-94412-2 
320   $aIncludes bibliographical references and index.
327   $aHlGHERlORDER PROCESSING IN THE VISUAL SYSTEM; Contents; Participants; Introduction; Physiology, morphology and spatial densities of identified ganglion cell types in primate retina; Circuitry, architecture and functional dynamics of visual cortex; General discussion I; Linearity and non-linearity in cortical receptive tields; Non-linear dynamics of columns of cat visual cortex revealed by simulation and experiment; Computational analysis of early visual mechanisms; General discussion I I; The role of features in structuring visual images
327   $aFrom filters to features: location, orientation, contrast and blurCollator units: second-stage orientational f i Iters; Non-Fourier motion analysis; Implications of motion detection for ear I y non-l i near i t ies; The role of second-order motion signals in coherence and transparency; Common properties of visual seg men tat ion; General discussion I I I; A computational model for shape from texture; Full-wave and half-wave processes in second-order motion and texture; Non-linearities in texture segregation; Final discussion; Index of contributors; Subject index
330   $aForemost neurophysiologists and psychophysicists provide pertinent information on the nature of representation at the earliest stages as this will constrain the disposition of all subsequent processing. This processing is discussed in several different types of visual perception.
410  0$aCiba Foundation symposium ;$v184.
606   $aVisual cortex$xPhysiology$vCongresses
606   $aVisual perception$vCongresses
606   $aHigher nervous activity$vCongresses
608   $aElectronic books.
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615  0$aVisual perception
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712 12$aSymposium on Higher-Order Processing in the Visual System$f(1993 :$eLondon, England)
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700 1 $aDinno, Mumtaz A.
700 1 $aCallahan, Arthur
700 1 $aRozzell, Thomas C.
710 2 $aUnited States Office of Naval Research
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200 10$aSeasonal Energy Storage with Power-to-Methane Technology
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215   $a1 electronic resource (146 p.)
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330   $aFor a sustainable future, the need to use renewable sources to produce electricity is inevitable. Some of these sources?particularly the widely available solar power?are weather-dependent; therefore, utility-scale energy storage will be more and more important. These solar and wind power fluctuations range from minutes (passing cloud) to whole seasons (winter/summer differences). Short-term storage can be solved (at least theoretically) with batteries; however, seasonal storage?due to the amount of storable energy and the self-discharging of some storage methods?is still a challenge to be solved in the near future. We believe that biological Power-to-Methane technology?especially combined with biogas refinement?will be a significant player in the energy storage market within less than a decade. The technology produces high-purity methane, which can be considered?by using green energy and carbon dioxide of biological origin?as a Renewable Natural Gas, or RNG. The ease of storage and use of methane, as well as the effective carbon-freeness, can make it a competitor for batteries or hydrogen-based storage, especially for storage times exceeding several months.
606   $aTechnology: general issues$2bicssc
606   $aHistory of engineering & technology$2bicssc
610   $aseasonal energy storage
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610   $ahydrogen
610   $amethanation
610   $asector coupling
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610   $aenergy transition
610   $aeFuels
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610   $a100% renewable energy scenarios
610   $athermophilic biogas
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610   $aMethanothermobacter
610   $ametagenome
610   $astarvation
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