TAP 5 (Text Array Processor) - ترجمة إلى إنجليزي
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TAP 5 (Text Array Processor) - ترجمة إلى إنجليزي

WIDE AREA OF RESEARCH IN THE FIELD OF SIGNAL PROCESSING THAT EXTENDS FROM THE SIMPLEST FORM OF 1 DIMENSIONAL LINE ARRAYS TO 2 AND 3 DIMENSIONAL ARRAY GEOMETRIES
Array Processor
  • Sensors array
  • One antenna of the Allen Telescope Array
  • Multi-path communication problem in wireless communication systems
  • Radar System
  • An array of radio telescopes with an incoming radio wave and RF interference

TAP5 (Text Array Processor)      
(n.) = Procesador de Matrices de Texto (TAP)
Ex: The GESCAN system is designed to be used with a VAX/VMS computer system with the addition of a special purpose processor called a Text Array Processor (TAP).
tap-dance         
  • Students performing a tap dance in [[Mexico City]]
  • A group of women are posed behind a male performer in blackface.
  • [[Jimmy Slyde]] tap dancing
  • (video) A man practices tap dancing in front of a station in [[Japan]].
  • Tap shoes
  • A teen tap dancer is performing a tap step known as a "toe stand" onstage.
TYPE OF DANCE INVOLVING PERCUSSIVE SHOES
Tap (dance); Tap dancing; Tap-dancing; Tap dancer; Tap-dance; Tapdancing; Tapdance; Tap Dancing; Soft shoe dance; Soft shoe; Softshoe; Heel clicking; Hoofer; Tap danced; Tap Dance; Tap dancers; Hoofers; Tap shoe; Soft-shoe; Tap Dancer; Tap class; History of tap dance
zapateado
claqué
five         
  • The fives of all four suits in [[playing card]]s
  • Illustration by [[Leonardo da Vinci]] of a [[regular dodecahedron]], from [[Luca Pacioli]]'s ''[[Divina proportione]]''
  • right
  • 100px
  • tactility]]
  • International maritime signal flag for 5]]
  • The first [[Pythagorean triple]], with a [[hypotenuse]] of <math>5</math>
  • right
  • St. Petersburg Metro, Line 5
  • 5 as a resin identification code, used in recycling.
NATURAL NUMBER
Number 5; ₅; ٥; ۵; 5; No.5 (Number Five); ៥; ➎; ➄; ❺; ꩕; ༥; FIVE; ௫; ५; ৫; ੫; ૫; ୫; ౫; ೫; ൫; ߅; ໕; ၅; ႕; ꧕; ᥋; 𐒥; ꣕; 5 (number); 5️⃣; ASCII 53; \x35; U+0035; 5.
cinco

تعريف

claqué
claqué (del fr. "claquette") m. Baile en que se acompaña la melodía con un repiqueteo rítmico que se hace con la punta y el tacón del zapato.

ويكيبيديا

Array processing

Array processing is a wide area of research in the field of signal processing that extends from the simplest form of 1 dimensional line arrays to 2 and 3 dimensional array geometries. Array structure can be defined as a set of sensors that are spatially separated, e.g. radio antenna and seismic arrays. The sensors used for a specific problem may vary widely, for example microphones, accelerometers and telescopes. However, many similarities exist, the most fundamental of which may be an assumption of wave propagation. Wave propagation means there is a systemic relationship between the signal received on spatially separated sensors. By creating a physical model of the wave propagation, or in machine learning applications a training data set, the relationships between the signals received on spatially separated sensors can be leveraged for many applications.

Some common problem that are solved with array processing techniques are:

  • determine number and locations of energy-radiating sources
  • enhance the signal to noise ratio SNR "signal-to-interference-plus-noise ratio (SINR)"
  • track moving sources

Array processing metrics are often assessed noisy environments. The model for noise may be either one of spatially incoherent noise, or one with interfering signals following the same propagation physics. Estimation theory is an important and basic part of signal processing field, which used to deal with estimation problem in which the values of several parameters of the system should be estimated based on measured/empirical data that has a random component. As the number of applications increases, estimating temporal and spatial parameters become more important. Array processing emerged in the last few decades as an active area and was centered on the ability of using and combining data from different sensors (antennas) in order to deal with specific estimation task (spatial and temporal processing). In addition to the information that can be extracted from the collected data the framework uses the advantage prior knowledge about the geometry of the sensor array to perform the estimation task. Array processing is used in radar, sonar, seismic exploration, anti-jamming and wireless communications. One of the main advantages of using array processing along with an array of sensors is a smaller foot-print. The problems associated with array processing include the number of sources used, their direction of arrivals, and their signal waveforms.

There are four assumptions in array processing. The first assumption is that there is uniform propagation in all directions of isotropic and non-dispersive medium. The second assumption is that for far field array processing, the radius of propagation is much greater than size of the array and that there is plane wave propagation. The third assumption is that there is a zero mean white noise and signal, which shows uncorrelation. Finally, the last assumption is that there is no coupling and the calibration is perfect.