3,722 research outputs found
6-(4-Fluorophenyl)-8-phenyl-2,3-dihydro-4H-imidazo[5,1-b][1,3]thiazin-4-one: an unusual [6-5] fused-ring system
The title compound, CââHââFNâOS, is the first structural example of a [6-5] fused ring incorporating the 2,3-dihydro-4H-imidazo[5,1-b][1,3]thiazin-4-one molecular scaffold. The six-membered 2,3-dihydro-1,3-thiazin-4-one ring adopts an envelope conformation, with the S-CHâ C atom displaced by 0.761 (2) Ă
from the five-atom plane (all within 0.05 Ă
of the mean plane). The imidazole ring is planar. The phenyl ring is twisted from coplanarity with the imidazole ring by 23.84 (5)° and the 4-fluorophenyl ring is twisted by 53.36 (6)°, due to a close C(aryl)-H...O=C contact with the thiazin-4-one carbonyl O atom. The primary intermolecular interaction involves a CHâ group with the F atom [C...F = 3.256 (2) Ă
and C-H...F = 137°]
GTA: Groupware task analysis Modeling complexity
The task analysis methods discussed in this presentation stem from Human-Computer Interaction (HCI) and Ethnography (as applied for the design of Computer Supported Cooperative Work CSCW), different disciplines that often are considered conflicting approaches when applied to the same design problems. Both approaches have their strength and weakness, and an integration of them does add value to the early stages of design of cooperation technology. In order to develop an integrated method for groupware task analysis (GTA) a conceptual framework is presented that allows a systematic perspective on complex work phenomena. The framework features a triple focus, considering (a) people, (b) work, and (c) the situation. Integrating various task-modeling approaches requires vehicles for making design information explicit, for which an object oriented formalism will be suggested. GTA consists of a method and framework that have been developed during practical design exercises. Examples from some of these cases will illustrate our approach
Outdoor to Indoor Penetration Loss at 28 GHz for Fixed Wireless Access
This paper present the results from a 28 GHz channel sounding campaign
performed to investigate the effects of outdoor to indoor penetration on the
wireless propagation channel characteristics for an urban microcell in a fixed
wireless access scenario. The measurements are performed with a real-time
channel sounder, which can measure path loss up to 169 dB, and equipped with
phased array antennas that allows electrical beam steering for directionally
resolved measurements in dynamic environments. Thanks to the short measurement
time and the excellent phase stability of the system, we obtain both
directional and omnidirectional channel power delay profiles without any delay
uncertainty. For outdoor and indoor receiver locations, we compare path loss,
delay spreads and angular spreads obtained for two different types of
buildings
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