3,549 research outputs found
Simulation of intrafascicular and extraneural nerve stimulation
A model of nerve stimulation for control of muscle contraction and ensuing isometrical muscle force has been developed and implemented in a simulation algorithm. A description of nerve fiber excitation was obtained using probability distributions of a number of excitation parameters. The volume conduction model of the stimulated nerve incorporates both inhomogeneities and anisotropy within the nerve. The nerve geometry was assumed to be cylindrically symmetric. The model of the nerve fiber excitation mechanism was based on that of D.R. McNeal (1976), using the Frankenhaeuser-Huxley equations. Simulations showed that the diameter dependence of nerve fiber recruitment is influenced by the electrode geometr
LiDAR-assisted Large-scale Privacy Protection in Street-view Cycloramas
Recently, privacy has a growing importance in several domains, especially in
street-view images. The conventional way to achieve this is to automatically
detect and blur sensitive information from these images. However, the
processing cost of blurring increases with the ever-growing resolution of
images. We propose a system that is cost-effective even after increasing the
resolution by a factor of 2.5. The new system utilizes depth data obtained from
LiDAR to significantly reduce the search space for detection, thereby reducing
the processing cost. Besides this, we test several detectors after reducing the
detection space and provide an alternative solution based on state-of-the-art
deep learning detectors to the existing HoG-SVM-Deep system that is faster and
has a higher performance.Comment: Accepted at Electronic Imaging 201
Control vector parameterization with sensitivity based refinement applied to baking optimization
In bakery production, product quality attributes as crispness, brownness, crumb and water content are developed
by the transformations that occur during baking and which are initiated by heating. A quality driven procedure
requires process optimization to improve bakery production and to find operational procedures for new products.
Control vector parameterization (CVP) is an effective method for the optimization procedure. However, for accurate
optimization with a large number of parameters CVP optimization takes a long computation time. In this work, an
improved method for direct dynamic optimization using CVP is presented. The method uses a sensitivity based step
size refinement for the selection of control input parameters. The optimization starts with a coarse discretization
level for the control input in time. In successive iterations the step size was refined for the parameters for which the
performance index has a sensitivity value above a threshold value.With this selection, optimization is continued for
a selected group of input parameters while the other nonsensitive parameters (below threshold) are kept constant.
Increasing the threshold value lowers the computation time, however the obtained performance index becomes less.
A threshold value in the range of 10–20% of the mean sensitivity satisfies well. The method gives a better solution for
a lower computation effort than single run optimization with a large number of parameters or refinement procedures
without selection
Fatigue of intermittently stimulated quadriceps during imposed cyclical lower leg movements
During prolonged experiments the influence of knee angular velocity, and stimulation parameters (interpulse interval (IPI), duty cycle (DC), number of pulses per cycle (NP)) on fatigue-induced torque\ud
decline of paralyzed human quadriceps was studied. Identification of torque-angle and -angular velocity was also performed. The overall loss of maximum torque (MT) and torque-time integral ('lTI) per cycle during sustained intermittent stimulation during isokinetic movement had a typical exponential decay reaching asymptotic values. Larger knee velocities resulted in a significantly faster and relative larger decay of MT and TTI. The rate and relative magnitude of fatigue during concentric contractions are in direct relation\ud
to NP. The results may be valuable in the design of optimal control systems for FES which pursue minimization of muscle fatigue
Recent advances in the formation of phase inversion membranes made from amorphous or semi-crystalline polymers
Structural characteristics in membranes formed by diffusion induced phase separation processes are discussed. Established theories on membrane formation from ternary systems can be extended to describe the effects of high or low molecular weight additives. A mechanism for the formation of nodular structures in the top layer of ultrafiltration membranes is presented. In the last part structures arising from polymer crystallization during immersion precipitation are discussed
Resonant diaphragm pressure measurement system with ZnO on Si excitation
The principle of measuring pressure by means of a resonant diaphragm has been studied. An oscillator consisting of an integrated amplifier with a piezoelectrically driven diaphragm in its feedback loop has been built. The oscillator frequency is accurately proportional to the square of the pressure in the range of 60 to 130 Torr.\ud
The frequency range is 1324 to 1336 Hz (this range being limited by a spurious mode which could be suppressed by better processing) for a 25 mm diameter diaphragm made of a silicon wafer and with PZT ceramics as driver and receptor. We have made an integrated version (1 × 1 mm2) of a square resonant diaphragm pressure guage by selective etching of (1 0 0) planes with ethylenediamine. The piezoelectric driving materials was sputtered zinc oxide. A driver was deposited midway between the bending point and the point of greatest curvature.\ud
A receptor was located at a symmetrical position to give a optimum transfer condition.\ud
The integrated current amplifier had a low impedance differential input stage, two gain cells and a high impedance output stage. These electrical conditions ensured maximum elastic freedom of the diaphragm. A digital circuit in I2L technology has been designed and made with eight-bit parallel read out of the frequency. This circuit may be directly connected to a microprocessor. The whole system contains the sensor chip, the analog amplifier chip and the digital chip, all in compatible technology.\ud
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