15,908 research outputs found
The Colonial Dynamic: The Xhosa Cattle Killing and the American Indian Ghost Dance
In 1856, a fourteen year old girl named Nongqawuse (non-see) had a vision on the banks of the Gxarha River in southern Africa. Entranced, she saw dearly departed ancestors, their cattle hiding in the rushes, and she heard other cattle underground waiting to come forth. She was told that if her people would but kill all their cattle, their ancestors would arise from the dead, the cattle lowing in the subterranean passages would come forth, and all the whites would be swept into the sea. Nongqawuseâs prophecy provoked the colonially embittered Xhosa (cĹe-sÄh) people to rise up and kill their cattle. As the movement drew to a close, around 400,000 cattle had been slaughtered and an estimated 80,000 Xhosa died of starvation. Those that remained were reduced to working as laborers throughout the Cape Colony after being pushed off some 600,000 acres of their ancestral lands
Coset construction of a D-brane gauge field
D-branes have a world-volume U(1) gauge field A whose field strength F = dA
gives rise to a Born-Infeld term in the D-brane action. Supersymmetry and kappa
symmetry transformations of A are traditionally inferred by the requirement
that the Born-Infeld term is consistent with both supersymmetry and kappa
symmetry of the D-brane action. In this paper, we show that integrability of
the assigned supersymmetry transformations leads to a extension of the standard
supersymmetry algebra that includes a fermionic central charge. We construct a
superspace one-form on an enlarged superspace related by a coset construction
to this centrally extended algebra whose supersymmetry and kappa symmetry
transformations are derived, rather than inferred. It is shown that under
pullback, these transformations are of the form expected for the D-brane U(1)
gauge field. We relate these results to manifestly supersymmetric approaches to
construction of D-brane actions.Comment: 15 pages; new section and references adde
Automated post-fault diagnosis of power system disturbances
In order to automate the analysis of SCADA and digital fault recorder (DFR) data for a transmission network operator in the UK, the authors have developed an industrial strength multi-agent system entitled protection engineering diagnostic agents (PEDA). The PEDA system integrates a number of legacy intelligent systems for analyzing power system data as autonomous intelligent agents. The integration achieved through multi-agent systems technology enhances the diagnostic support offered to engineers by focusing the analysis on the most pertinent DFR data based on the results of the analysis of SCADA. Since November 2004 the PEDA system has been operating online at a UK utility. In this paper the authors focus on the underlying intelligent system techniques, i.e. rule-based expert systems, model-based reasoning and state-of-the-art multi-agent system technology, that PEDA employs and the lessons learnt through its deployment and online use
Using evidence combination for transformer defect diagnosis
This paper describes a number of methods of evidence combination, and their applicability to the domain of transformer defect diagnosis. It explains how evidence combination fits into an on-line and implemented agent-based condition monitoring system, and the benefits of giving selected agents reflective abilities. Reflection has not previously been deployed in an industrial setting, and theoretical work has been in domains other than power engineering. This paper presents the results of implementing five different methods of evidence combination, showing that reflective techniques give greater accuracy than non-reflective
CD28-induced costimulation of T helper type 2 cells mediated by induction of responsiveness to interleukin 4.
Type 1 and type 2 cloned T helper (Th) cells are believed to require different antigen-presenting cell (APC)-derived costimuli for proliferation. In the case of Th1-cloned T cells, CD28 signaling costimulates production of autocrine interleukin 2 (IL-2). Th2 cells produce their autocrine growth factor, IL-4, without costimulation, but require APC-derived costimuli, or IL-1, to respond to IL-4. Here we demonstrate that engagement of CD28 on Th2 cells with anti-CD28 antibody or with APC-associated B7 costimulates Th2 responsiveness to IL-4 but does not affect IL-4 or IL-2 production by Th2 cells. Costimulation of Th2 cells via CD28 appears to involve the induction of IL-1 production by Th2 cells, which acts in an autocrine fashion to induce IL-4 responsiveness. These results suggest that CD28-induced costimulation plays an important role in responses mediated by both types of Th cells
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