859 resultados para Utopias in motion pictures.
Resumo:
"Issued November, 1932."
Resumo:
"Issued December 1934."
Resumo:
Cover title.
Resumo:
Includes index.
Resumo:
Cover title.
Resumo:
Cover title.
Resumo:
Cover title.
Resumo:
A posztmodern fogyasztó hiperreális környezetébe csöppenő pozitivista kutató gyakran megtántorodik attól a forgószélszerű pörgéstől és vizuális dinamikától, amelyet a posztmodern világ ont rá. A szupersztrádán teknős módjára kullogó kutató ezért inkább visszahúzódik páncélja mögé, és előhúz valamit a szokásos módszerek közül, függetlenül attól, hogy azok relevánsak-e a probléma vizsgálatára vagy sem. A mozgóképek újjászületése a megváltozott fogyasztói látásmódhoz kapcsolható. Dziga Vertov mechanisztikus szemével egyre inkább a fogyasztók kacsintgatnak, és a curlingben látható módon csúsztatják tovább a magáról megfeledkező és kőnek látszó teknőst. A videográfia a videó és az etnográfia szavak összekapcsolásából keletkezett, vagyis etnográfiai kutatás a mozgókép segítségével. Egyre több nyugati cég arra kéri fel a kutatókat, hogy a fogyasztói magatartásról csupán videó prezentációt készítsenek, mindenféle szöveges magyarázat nélkül. A cikk nagytotálból mutatja be a Belk és Kozinets (2005, 2006) által életre keltett módszertan sajátosságait. / === / The positivist researcher in the middle of the hyperreal context seems to lurch due to the tornado-like whirl and a visual dynamism caused by the postmodern world. This researcher is just like a paddling tortoise on the superhighway draws back in the tortoiseshell and shows one of the classic research methods, no matter the type of the research problem. The rebirth of the motion pictures is linked to the altered consumer perspective. Dziga Vertov’s mechanical eye is used more and more by the consumers, and the tortoise-like researcher is considered to be a curling stone. The consumer researchers tend to ignore the lived visual and auditory aspects of the consumer culture and the appropriate research methods of this field. The aim of this article is to present the types and the main features of the videography vivified by Belk and Kozinets (2005, 2006).
Resumo:
This paper discusses the statistical analyses used to derive bridge live loads models for Hong Kong from a 10-year weigh-in-motion (WIM) data. The statistical concepts required and the terminologies adopted in the development of bridge live load models are introduced. This paper includes studies for representative vehicles from the large amount of WIM data in Hong Kong. Different load affecting parameters such as gross vehicle weights, axle weights, axle spacings, average daily number of trucks etc are first analyzed by various stochastic processes in order to obtain the mathematical distributions of these parameters. As a prerequisite to determine accurate bridge design loadings in Hong Kong, this study not only takes advantages of code formulation methods used internationally but also presents a new method for modelling collected WIM data using a statistical approach.
Resumo:
My practice-led research explores and maps workflows for generating experimental creative work involving inertia based motion capture technology. Motion capture has often been used as a way to bridge animation and dance resulting in abstracted visuals outcomes. In early works this process was largely done by rotoscoping, reference footage and mechanical forms of motion capture. With the evolution of technology, optical and inertial forms of motion capture are now more accessible and able to accurately capture a larger range of complex movements. The creative work titled “Contours in Motion” was the first in a series of studies on captured motion data used to generating experimental visual forms that reverberate in space and time. With the source or ‘seed’ comes from using an Xsens MVN - Inertial Motion Capture system to capture spontaneous dance movements, with the visual generation conducted through a customised dynamics simulation. The aim of the creative work was to diverge way from a standard practice of using particle system and/or a simple re-targeting of the motion data to drive a 3d character as a means to produce abstracted visual forms. To facilitate this divergence a virtual dynamic object was tether to a selection of data points from a captured performance. The proprieties of the dynamic object were then adjusted to balance the influences from the human movement data with the influence of computer based randomization. The resulting outcome was a visual form that surpassed simple data visualization to project the intent of the performer’s movements into a visual shape itself. The reported outcomes from this investigation have contributed to a larger study on the use of motion capture in the generative arts, furthering the understanding of and generating theories on practice.
Resumo:
Red blood cells (RBCs) are the most common type of blood cells in the blood and 99% of the blood cells are RBCs. During the circulation of blood in the cardiovascular network, RBCs squeeze through the tiny blood vessels (capillaries). They exhibit various types of motions and deformed shapes, when flowing through these capillaries with diameters varying between 5 10 µm. RBCs occupy about 45 % of the whole blood volume and the interaction between the RBCs directly influences on the motion and the deformation of the RBCs. However, most of the previous numerical studies have explored the motion and deformation of a single RBC when the interaction between RBCs has been neglected. In this study, motion and deformation of two 2D (two-dimensional) RBCs in capillaries are comprehensively explored using a coupled smoothed particle hydrodynamics (SPH) and discrete element method (DEM) model. In order to clearly model the interactions between RBCs, only two RBCs are considered in this study even though blood with RBCs is continuously flowing through the blood vessels. A spring network based on the DEM is employed to model the viscoelastic membrane of the RBC while the inside and outside fluid of RBC is modelled by SPH. The effect of the initial distance between two RBCs, membrane bending stiffness (Kb) of one RBC and undeformed diameter of one RBC on the motion and deformation of both RBCs in a uniform capillary is studied. Finally, the deformation behavior of two RBCs in a stenosed capillary is also examined. Simulation results reveal that the interaction between RBCs has significant influence on their motion and deformation.
Resumo:
This article draws on the design and implementation of three mobile learning projects introduced by Flanagan in 2011, 2012 and 2014 engaging a total of 206 participants. The latest of these projects is highlighted in this article. Two other projects provide additional examples of innovative strategies to engage mobile and cloud systems describing how electronic and mobile technology can help facilitate teaching and learning, assessment for learning and assessment as learning, and support communities of practice. The second section explains the theoretical premise supporting the implementation of technology and promulgates a hermeneutic phenomenological approach. The third section discusses mobility, both in terms of the exploration of wearable technology in the prototypes developed as a result of the projects, and the affordances of mobility within pedagogy. Finally the quantitative and qualitative methods in place to evaluate m-learning are explained.