Output signals

For clutter suppression, the test statistic used by the noncoherent detector has been proposed as an interesting output signal [1], This was motivated by the fact that, provided that transient and noise models are valid, the test statistic reflects the likelihood that a transient is present. 

The parallel stmcture in the NSC allows for rapid computations of output signals. Although training takes some time, it can be done once on a representative set of data. When training has been completed the classification process is fast and easy to implement in a realtime application. 

If the impulse response function g(x) of a system is known, the output signal y(x) of the system is given for any input signal u(x). The integral equation, which is called superposition integral. 

That means, the input signal u( ) is applied on =0. The output signal y(x) is than given by fthat means by a shifted and scaled version of g(x ). So, the output signal y(x ) at a special location corresponds to the addition of the terms u( )g(x - ) over alt [2,3]. 

Constant steps are not necessary, but they simplify the matrix g of eq.(6). Eq.(5) and eq.(6) respectively show the relationship between input and output signal for discrete signal processing. It is given by a linear equation system, which can easily be solved. 

Selected sensor systems are moved over long cracks of different widths. The output signals are pre-calculated by using eq.(6). Measured and pre-calculated data are compared in 4.2.3.. 

Figure 6 Measured output signals of different sensor systems...

Fig. 6 shows the output signals of the three different sensor systems described in chapter 3. The pot-core coil from chapter 4.2.1. is used for the measurement of the inductance with the... 

Inherent unsharpness U of the imaging system An edge of highly absorbent material that is mounted in the middle of the image converter, is used to define the course and width of the "blurred" edge. The unsharpness is defined between 10% and 90% of the amplitude of the output signal. 

So the correlative processing gives additional (to the amplitude) variation of output signal and makes the signal processing a multiparamctric one. Such processing increases the sensitivity and reduces the noises. 

To increase the sensitivity, direction of amplitude variation of probe output signal in defective area must coincide with the one after CCF processing. If the defect decreases the probe signal (single contact probe) A((/should be set Ai// = 0, in the opposite case (twin contact probe) it should be set Aif/= n. So the instrument should be supplied with a device to adjust A((/ and to sustain it constant. 

Figure Al.6.16. Diagram showing the directionality of the signal in coherent spectroscopy. Associated with the carrier frequency of each interaction with the light is a wavevector, k. The output signal in coherent spectroscopies is detemiined from the direction of each of the input signals via momentum conservation (after [48a]).

The gates referred to above can be created in various ways. For example, suppose that the probe beam goes tlirough the sample, but only half of its physical width (in the sample) is crossed with the pump beam. Now, if we have two photodiodes, one can measure the intensify of the perturbed part of the probe beam, whilst the second measures the unperturbed part as a result of creating spatial gates, the two recorded output signals can be used to measure the... 

Detector Class Wavelength Range Output Signal... 

Flow meters have traditionally been classified as either electrical or mechanical depending on the nature of the output signal, power requirements, or both. However, improvement in electrical transducer technology has blurred the distinction between these categories. Many flow meters previously classified as mechanical are now used with electrical transducers. Some common examples are the electrical shaft encoders on positive displacement meters, the electrical (strain) sensing of differential pressure, and the ultrasonic sensing of weir or flume levels. 

The output signal from positive-displacement meters may be mechanical, where the motion is transmitted by an output shaft through a housing seal, or it may be magnetically or inductively coupled. 

Switching-Field Distribution. Both and have a strong relation with the recording process. determines the maximum output signal of a recording medium and hence the signal-to-noise ratio. ascertains how easily data can be recorded and erased or changed, but it also determines the maximum head field. On the other hand it also controls the ease with which data can be destroyed, eg, by stray fields. The lower the the more sensitive the medium is to all kinds of fields. In this way, influences the noise level as well. The squareness ratio S (= /Af ) can also be derived from the... 

This results ia irregular magnetisation patterns in the written transition and therefore to noise in the output signal. 

There are three basic requirements that Hquid level control devices are designed to satisfy alarm functions, pump/valve control, and transmitted output signal to track level continuously. Alarm devices provide warning or shutdown functions when process levels pass a predeterrnined point in the vessel pump /valve control devices turn on/off pumps or open/close valves at predeterrnined levels in the vessel and transmitters provide a proportional output signal over a predetermined span to send to a local meter or signal back to a control room. 

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