43,541 research outputs found
Experimental investigations of solid nitrogen formed by cryopumping
Density, thermoconductivity, and sticking coefficient of nitrogen condensate formed on cryopum
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High intensity x-ray diffraction in transmission mode employing an analog of Poisson's spot
Poissonâs spot is a diffraction phenomenon producing an intensity maximum at the center of the geometric shadow of circular opaque objects. In an analog of the Poisson spot experiment, we show that a tubular cone of x-rays incident upon a crystalline sample produces diffraction spots or foci, corresponding to Bragg maxima within a transmission shadow. We discuss the beam geometry and the intensity gain recorded at the foci in transmission mode. We describe the geometric growth and decay of the foci over a linear axis with the aid of a movie sequence synchronized with the plotting of a diffractogram. The mean signal of a small central area in each successive camera image provides the intensity data for the diffractogram
PI output feedback control of differential linear repetitive processes
Repetitive processes are characterized by a series of sweeps, termed passes, through a set of dynamics defined over a finite duration known as the pass length. On each pass an output, termed the pass profile, is produced which acts as a forcing function on, and hence contributes to, the dynamics of the next pass profile. This can lead to oscillations which increase in amplitude in the pass-to-pass direction and cannot be controlled by standard control laws. Here we give new results on the design of physically based control laws. These are for the sub-class of so-called differential linear repetitive processes which arise in applications areas such as iterative learning control. They show how a form of proportional-integral (PI) control based only on process outputs can be designed to give stability plus performance and disturbance rejection
Indirect Convertibility and Quasi-futures Contracts: Two Non-operational Schemes for Automatic Stabilisation of the Price Level
This paper examines two proposals for automatic stabilization of the price level based on indirect convertibility and something called a 'quasi futures contract'. These two schemes represent attempts to render operational ideas implicit in the Black (1970) Fama (1980) and Hall (1982) vision of the monetary system. Criticisms of the two schemes have been rejected by their exponents. The paper clarifies the analytical issues at stake in this debate and concludes that both schemes do suffer from fundamental flaws which would render them nonoperational. Hence, neither scheme offers an operational basis for a laissez faire banking system or provides a workable alternative to current methods of stabilising the price level.indirect convertibility, quasi-futures contracts
<i>H</i><sub>2</sub> and mixed <i>H</i><sub>2</sub>/<i>H</i><sub>â</sub> Stabilization and Disturbance Attenuation for Differential Linear Repetitive Processes
Repetitive processes are a distinct class of two-dimensional systems (i.e., information propagation in two independent directions) of both systems theoretic and applications interest. A systems theory for them cannot be obtained by direct extension of existing techniques from standard (termed 1-D here) or, in many cases, two-dimensional (2-D) systems theory. Here, we give new results towards the development of such a theory in H2 and mixed H2/Hâ settings. These results are for the sub-class of so-called differential linear repetitive processes and focus on the fundamental problems of stabilization and disturbance attenuation
Perioperative Glycemic Management
Proposals and Goals:
1. We propose creating a standard easy to use and safe protocol for glycemic management for same day/elective surgical patients.
2. Following implementation in same day and elective surgical procedures, we propose expanding the protocol to be effective in urgent and emergent inpatient surgical procedures.https://jdc.jefferson.edu/patientsafetyposters/1068/thumbnail.jp
Optimal control of non-stationary differential linear repetitive processes
Differential repetitive processes are a distinct class of continuousdiscrete 2D linear systems of both systems theoretic and applications interest. The feature which makes them distinct from other classes of such systems is the fact that information propagation in one of the two independent directions only occurs over a finite interval. Applications areas include iterative learning control and iterative solution algorithms for classes of dynamic nonlinear optimal control problems based on the maximum principle, and the modelling of numerous industrial processes such as metal rolling, and long-wall cutting etc. The new results in is paper solve a general optimal problem in the presence of non-stationary dynamics
On the Development of SCILAB Compatible Software for the Analysis and Control of Repetitive Processes
In this paper further results on the development of a SCILAB compatible software package for the analysis and control of repetitive processes is described. The core of the package consists of a simulation tool which enables the user to inspect the response of a given example to an input, design a control law for stability and/or performance, and also simulate the response of a controlled process to a specified reference signal
Impact pressure probe response characteristics in high speed flows, with transition Knudsen numbers
Impact pressure probe response characteristics in free-molecular and continuum flows with transition Knudsen number
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