405 research outputs found
The Wizard of Oz (March 13-14, 1964)
Program for The Wizard of Oz (March 13-14, 1964)
The Wizard of Oz (February 20-21, 27-28, 2009)
Program for The Wizard of Oz (February 20-21, 27-28, 2009)
Baby Pulled the Pussy\u27s Tail
https://digitalcommons.library.umaine.edu/mmb-vp/5168/thumbnail.jp
The Role of Expectations What Have We Learned? Conclusions References
In Aristotle’s (350 BC) list of common human logical errors: Attributing characteristics of the whole to the parts Google search for examples yields: America is rich Chris Carroll is American Chris Carroll is rich! Clearly a fallacy
Pulling Back the Curtain on the Wizards of Oz
The Wizard of Oz method is an increasingly common practice in HCI and CSCW studies as part of iterative design processes for interactive systems. Instead of designing a fully-fledged system, the ‘technical work’ of key system components is completed by human operators yet presented to study participants as if computed by a machine. However, little is known about how Wizard of Oz studies are interactionally and collaboratively achieved in situ by researchers and participants. By adopting an ethnomethodological perspective, we analyse our use of the method in studies with a voice-controlled vacuum robot and two researchers present. We present data that reveals how such studies are organised and presented to participants and unpack the coordinated orchestration work that unfolds ‘behind the scenes’ to complete the study. We examine how the researchers attend to participant requests and technical breakdowns, and discuss the performative, collaborative, and methodological nature of their work. We conclude by offering insights from our application of the approach to others in the HCI and CSCW communities for using the method
Toward a Consensus on Guiding Principles for Health Systems Strengthening
Based upon a review of the literature, Robert Chad Swanson and colleagues present a set of guiding principles for health systems strengthening
Firms cash management, adjustment cost and its impact on firms’ speed of adjustment-A cross country analysis
We investigate the firms’ specific attributes that determine the difference in speed of adjustment
(SOA) towards the cash holdings target in the Scandinavian countries: Denmark,
Norway and Sweden. We examine whether Scandinavian firms maintain an optimal level
of cash holdings and determine if the active cash holdings management is associated with
the firms’ higher SOA and lower adjustment costs. Our findings substantiate that a higher
level of off-target cost induces professional managers to rebalance their cash level towards
the optimal balance of cash holdings. Our results reveal that Scandinavian firms accelerate
SOA towards cash targets primarily for the precautionary motive. Moreover, our results
show that SOA is heterogeneous across Scandinavian firms based on adjustment cost and
deviate cash holdings towards the target mainly with the support of internal financing. Furthermore,
our empirical findings show that the SOA of Norwegian firms is significantly
higher than the Danish and Swedish firms
High-Definition DNA Methylation Profiles from Breast and Ovarian Carcinoma Cell Lines with Differing Doxorubicin Resistance
Acquired drug resistance represents a frequent obstacle which hampers efficient chemotherapy of cancers. The contribution of aberrant DNA methylation to the development of drug resistant tumor cells has gained increasing attention over the past decades. Hence, the objective of the presented study was to characterize DNA methylation changes which arise from treatment of tumor cells with the chemotherapeutic drug doxorubicin. DNA methylation levels from CpG islands (CGIs) linked to twenty-eight genes, whose expression levels had previously been shown to contribute to resistance against DNA double strand break inducing drugs or tumor progression in different cancer types were analyzed. High-definition DNA methylation profiles which consisted of methylation levels from 800 CpG sites mapping to CGIs around the transcription start sites of the selected genes were determined. In order to investigate the influence of CGI methylation on the expression of associated genes, their mRNA levels were investigated via qRT-PCR. It was shown that the employed method is suitable for providing highly accurate methylation profiles, comparable to those obtained via clone sequencing, the gold standard for high-definition DNA methylation studies. In breast carcinoma cells with acquired resistance against the double strand break inducing drug doxorubicin, changes in methylation of specific cytosines from CGIs linked to thirteen genes were detected. Moreover, similarities between methylation profiles obtained from breast and ovarian carcinoma cell lines with acquired doxorubicin resistance were found. The expression levels of a subset of analyzed genes were shown to be linked to the methylation levels of the analyzed CGIs. Our results provide detailed DNA methylation information from two separate model systems for acquired doxorubicin resistance and suggest the occurrence of similar methylation changes in both systems upon exposure to the drug
Ultrafast Light and Electrons: Imaging the Invisible
In this chapter, the evolutionary and revolutionary developments of microscopic imaging are overviewed with focus on ultrashort light and electrons pulses; for simplicity, we shall use the term “ultrafast” for both. From Alhazen’s camera obscura, to Hooke and van Leeuwenhoek’s optical micrography, and on to three- and four-dimensional (4D) electron microscopy, the developments over a millennium have transformed humans’ scope of visualization. The changes in the length and time scales involved are unimaginable, beginning with the visible shadows of candles at the centimeter and second scales, and ending with invisible atoms with space and time dimensions of sub-nanometer and femtosecond, respectively. With these advances it has become possible to determine the structures of matter and to observe their elementary dynamics as they fold and unfold in real time, providing the means for visualizing materials behavior and biological function, with the aim of understanding emergent phenomena in complex systems. Both light and light-generated electrons are now at the forefront of femtosecond and attosecond science and technology, and the scope of applications has reached beyond the nuclear motion as electron dynamics become accessible
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