Sonoelastography and transient elastography are two ultrasound-based techniques that facilitate noninvasive characterization of the viscoelastic properties of soft tissues by investigating their response to shear mechanical excitation. Young's modulus is the principle assessment parameter. Because it defines local tissue stiffness, it is of major interest for the medical imaging and cosmetic industries as it could replace subjective palpation by yielding local, quantitative information. In this paper, we describe a new high-resolution device capable of measuring local Young's modulus in very thin layers (1-5 mm) and devoted to the in vivo evaluation of the elastic properties of human skin. It uses an ultrasonic probe (50 MHz) for tracking the displacements induced by a 300 Hz shear wave generated by a ring surrounding the transducer. The displacements are measured using a conventional cross-correlation technique between successive ultrasonic back-scattered echoes. First, this noninvasive technique has been experimentally proven to be accurate for investigating elasticity in different skin-mimicking phantoms. Second, data were acquired in vivo on human forearms. As expected, Young's modulus was found to be higher in the dermis than in the hypodermis and other soft tissues. 相似文献
The present work aims to investigate the effect adding Ag, Co, Ni, Cd and Pt to copper on ethanol dehydrogenation. The catalysts synthesized by deposition–precipitation method were characterized using various physicochemical methods such as N2 adsorption–desorption, TPR, SEM–EDX, XRD, XPS and TGA–DSC-MS. Catalytic evaluation results revealed that the predominant product of the reaction was acetaldehyde. Monometallic copper or mixed with Cd, Ag or Co show good catalytic performances. Adding nickel to copper improves the process conversion but reduces acetaldehyde selectivity, giving rise to methane in produced hydrogen. Pt-Cu/SiO2 catalyst guides the reaction towards diethyl ether. Time on stream tests performed during 12 h at 260 °C, showed that adding Cd to Cu enhances its stability by over 30% of conversion, this is explained by the reduction of copper crystallites sintering, which makes Cd-Cu/SiO2 a promising catalyst for the production of acetaldehyde by ethanol dehydrogenation.
Lower limb contribution in flatwater kayaking is difficult to quantify experimentally because lower-limbs and pelvis are hidden
in the kayak. A computer simulation model was developed to assess the lower limb contribution to kayak performance. Three
simulated movements were compared in terms of paddle tip velocity, force impulse, and mechanical work. The pelvis motion increased
the paddle tip velocity by 0.15 m s−1 at the stroke beginning and 0.34 m s−1 afterward. The propulsive impulse was also modified by pelvis rotation with a 3.5 N s increase per stroke. For a set performance,
the co-ordination involving the lower limbs decreased the mechanical work by 20 J. The above results were obtained by modelling
the Ergometer-Athlete-Paddle {EAP} system using 18 bodies and 31 degrees of freedom. The motion capture data were transformed in generalized coordinate time
histories by solving an inverse kinematics problem with optimization in order to assess both lower limb and upper limb positions
and produce a cyclic motion. Then the {EAP} was simulated based on Lagrangian dynamics with Lagrange multipliers to introduce the paddle forces. Finally, the joint
torques were calculated by solving an inverse dynamics problem with optimization in order to ensure a good distribution of
lower limbs actuating torques. 相似文献
Video coding technology in the last 20 years has evolved producing a variety of different and complex algorithms and coding
standards. So far the specification of such standards, and of the algorithms that build them, has been done case by case providing
monolithic textual and reference software specifications in different forms and programming languages. However, very little
attention has been given to provide a specification formalism that explicitly presents common components between standards,
and the incremental modifications of such monolithic standards. The MPEG Reconfigurable Video Coding (RVC) framework is a
new ISO standard currently under its final stage of standardization, aiming at providing video codec specifications at the
level of library components instead of monolithic algorithms. The new concept is to be able to specify a decoder of an existing
standard or a completely new configuration that may better satisfy application-specific constraints by selecting standard
components from a library of standard coding algorithms. The possibility of dynamic configuration and reconfiguration of codecs
also requires new methodologies and new tools for describing the new bitstream syntaxes and the parsers of such new codecs.
The RVC framework is based on the usage of a new actor/ dataflow oriented language called CAL for the specification of the standard library and instantiation of the RVC decoder model. This language has been specifically
designed for modeling complex signal processing systems. CAL dataflow models expose the intrinsic concurrency of the algorithms by employing the notions of actor programming and dataflow.
The paper gives an overview of the concepts and technologies building the standard RVC framework and the non standard tools
supporting the RVC model from the instantiation and simulation of the CAL model to software and/or hardware code synthesis. 相似文献
The problem of estimating frequencies of superimposed exponentials in white noise, collected by a single sensor, is considered. We discuss a solution based on a modification of an analytic algorithm that was proposed for separation of constant modulus signals received by an antenna array by Van der Veen and Paulraj (see ibid., vol. vol.44, p.1136-55, 1996). We show that with an appropriate implementation of certain constraints, the algorithm produces excellent super-resolution results. An advantage of the algorithm is that it does not require multidimensional search, and therefore, it is free from problems associated with search algorithms like convergence to local extremum or proper initialization. Another advantage is its applicability in nonuniform sampling conditions, where methods based on linear prediction cannot be applied. We carry out a detailed performance analysis under the assumption of long data record and derive conditions for estimating all the frequencies. The performance of the proposed algorithm compares favorably with the performance of the Tufts-Kumaresan method (1982) 相似文献
The purpose of this paper is to propose new means for harvesting energy using electrostrictive polymers. Recent trends in energy conversion mechanisms have demonstrated the abilities of electrostrictive polymers for converting mechanical vibrations into electricity. In particular, such materials present advantageous features such as a high productivity, high flexibility, and ease of processing; hence, the application of these materials for energy harvesting purposes has been of significant interest over the last few years. This paper discusses the development of a model that is able to predict the energy harvesting capabilities of an electrostrictive polymer. Moreover, the energy scavenging abilities of an electrostrictive composite composed of terpolymer poly(vinylidenefluoride-trofluoroethylene- chlorofluoroethylene) [P(VDF-TrFE-CFE)] filled with 1 vol% carbon black (C) is evaluated. Experimental measurements of the harvested power and current have been compared with the theoretical behavior predicted by the proposed model. A good agreement was observed between the two sets of data, which consequently validated the proposed modeling to optimize the choice of materials. It was also shown that the incorporation of nanofillers in P(VDF-TrFE-CFE) increased the harvested power. 相似文献
Harvesting systems capable of transforming unused environmental energy into useful electrical energy have been extensively studied for the last two decades. The recent development of electrostrictive polymers has generated new opportunities for harvesting energy. The contribution of this study lies in the design and validation of electrostrictive polymer- based harvesters able to deliver dc output voltage to the load terminal, making the practical application of such material for self-powered devices much more realistic. Theoretical analysis supported by experimental investigations showed that an energy harvesting module with ac-to-dc conversion allows scavenging power up to 7 μW using a bias electric field of 10 V/μm and a transverse strain of 0.2%. This represents a power density of 280 μW/cm(3) at 100 Hz, which is much higher than the corresponding values of most piezo-based harvesters. 相似文献
Spatio-temporal encoding in transmit and receive modes is of major importance in the development of ultrasound imaging devices. Classically, the assumption of constant sound speed in the medium allows one to restrict the beamforming process to the application of a cylindrical time-delay law on the elements of a multiple-transducer array. Here is proposed an iterative time-reversal method capable of taking into account all the heterogeneities of the medium, concerning density, speed of sound, and absorption variations. It will be shown that this iterative focusing process converges toward a spatio-temporal inverse filter focusing, the first step of the process being a time-reversal focusing on the targeted point. This method can be seen as a calibration process and has been successfully applied to transskull focusing and intraplate echoes suppression. It is leading the way to promising applications such as high-resolution ultrasonic brain imaging and high-resolution focusing through complex reverberating media, in nondestructive testing and telecommunications. This work highlights the advantages of using spatio-temporal coding to focus through complex media. Such codes require the use of fully programmable, multichannel electronics to implement this technique in real time. 相似文献