842 resultados para Flexible links
Resumo:
Die wissenschaftlich-technische Zusammenarbeit zwischen dem Institut für Fischereitechnik (IFH) und dem russischen Institut MariNPO in Kaliningrad war 1997/98 schwerpunktmäßig auf die Entwicklung flexibler Vorrichtungen zur Größenselektion von Fischen in Schleppnetzsteerten sowie deren gemeinsame Erprobung in der Ostsee-Dorschfischerei ausgerichtet. Die Vorteile solcher flexiblen Vorrichtungen aus textilem Material verglichen mit starren, meist aus Metall gefertigten bestehen darin, daß sie bei der Handhabung keine dauerhaften Verformungen bekommen, keine Erschwernisse oder Gefährdungen der Decksbesatzung, insbesondere bei schwerem Wetter, verursachen und problemlos mit dem Netz aufgetrommelt werden können. Außerdem sind sie wesentlich billiger in den Anschaffungskosten als Metallgitter aus nichtrostendem Stahl. Ihre Installation vor dem Hievteil ermöglicht zudem ein ungestörteres Selektieren als bei Fluchtfenstern im Bereich des Steertendes, wo die Fische stark verdichtet sind und mehr oder weniger gewaltsam an bzw. durch die Maschen gepreßt werden. Der Umlauftank in Kaliningrad sowie das geschleppte, steuerbare UW-Videosystem des IFH bieten gute Voraussetzungen für eine umfassende experimentelle Untersuchung der entwickelten Vorrichtungen, über die im folgenden berichtet wird.
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A new type of sensor with the flexible substrate is introduced. It is applicable in measuring instantaneous heat flux on the model surface in a hypersonic shock tunnel. The working principle, structure and manufacture process of the sensor are presented. The substrate thickness and the dynamic response parameter of the sensor are calculated. Because this sensor was successfully used in measuring the instantaneous heat flux on the surface of a flat plate in a detonation-driven shock tunnel, it may be effective in measuring instantaneous heat flux on the model surface.
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25 p.
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The work in this thesis develops two types of microimplants for the application of cardiovascular in vivo biomedical sensing, one for short-term diagnosis and the other for long-term monitoring.
Despite advances in diagnosis and therapy, atherosclerotic cardiovascular disease remains the leading cause of morbidity and mortality in the Western world. Predicting metabolically active atherosclerotic plaques has remained an unmet clinical need. A stretchable impedance sensor manifested as a pair of quasi-concentric microelectrodes was developed to detect unstable intravascular. By integrating the impedance sensor with a cardiac catheter, high-resolution Electrochemical Impedance Spectroscopy (EIS) measurements can be conducted during cardiac catheterization. An inflatable silicone balloon is added to the sensor to secure a well-controlled contact with the plaque under test in vivo. By deploying the device to the explants of NZW rabbit aorta and live animals, distinct EIS measurements were observed for unstable atherosclerotic plaques that harbored active lipids and inflammatory cells.
On the other hand, zebrafish (Danio rerio) is an emerging genetic model for heart regenerative medicine. In humans, myocardial infarction results in the irreversible loss of cardiomyocytes. Zebrafish hearts can fully regenerate after two months with 20% ventricular resection. Long-term electrocardiogram (ECG) recording can characterize the heart regeneration in a functional dimension. A flexible microelectrode membrane was developed to be percutaneously implanted onto a zebrafish heart and record epicardial ECG signals from specific regions on it. Region-specific aberrant cardiac signals were obtained from injured and regenerated hearts. Following that, in order to achieve continuous and wireless recording from non-sedated and non-restricted small animal models, a wireless ECG recording system was designed for the microelectrode membrane, prototyped on a printed circuit board and demonstrated on a one-day-old neonatal mouse. Furthermore, a flexible and compact parylene C printed circuit membrane was used as the integration platform for the wireless ECG recording electronics. A substantially miniature wireless ECG recording system was achieved.
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We will prove that, for a 2 or 3 component L-space link, HFL- is completely determined by the multi-variable Alexander polynomial of all the sub-links of L, as well as the pairwise linking numbers of all the components of L. We will also give some restrictions on the multi-variable Alexander polynomial of an L-space link. Finally, we use the methods in this paper to prove a conjecture of Yajing Liu classifying all 2-bridge L-space links.
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Aperture patterns play a vital role in coded aperture imaging ( CAI) applications. In recent years, many approaches were presented to design optimum or near-optimum aperture patterns. Uniformly redundant arrays (URAs) are, undoubtedly, the most successful for constant sidelobe of their periodic autocorrelation function. Unfortunately, the existing methods can only be used to design URAs with a limited number of array sizes and fixed autocorrelation sidelobe-to-peak ratios. In this paper, we present a novel method to design more flexible URAs. Our approach is based on a searching program driven by DIRECT, a global optimization algorithm. We transform the design question to a mathematical model, based on the DIRECT algorithm, which is advantageous for computer implementation. By changing determinative conditions, we obtain two kinds of types of URAs, including the filled URAs which can be constructed by existing methods and the sparse URAs which have never been mentioned by other authors as far as we know. Finally, we carry out an experiment to demonstrate the imaging performance of the sparse URAs.
