Define Sampling Quantization And Quantization Error
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What Is Quantization Error
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iclicker Registration Check Grades Honors Section Step-By-Step Examples ECE110 BLOG Suggested Reading Online Flashcards Video Channel ECE 110 Course Notes Sampling and Quantization Learn It! Required Analog and Digital Signals Sampling Nyquist Sampling Rate uniform quantization Quantization Unit Conversion Explore More Learn It! Analog and Digital SignalsDigital signals are
How To Reduce Quantization Error
more resilient against noise than analog signals. An analog signal exists throughout a continuous interval of time and/or takes on
Uniform And Nonuniform Quantization
a continuous range of values. A sinusoidal signal (also called a pure tone in acoustics) has both of these properties. Figure 1 Fig. 1: Analog signal. This signal $v(t)=\cos(2\pi ft)$ could be a http://www.sweetwater.com/insync/quantization-error/ perfect analog recording of a pure tone of frequency $f$ Hz. If $f=440 \text{ Hz}$, this tone is the musical note $A$ above middle $C$, to which orchestras often tune their instruments. The period $T=1/f$ is the duration of one full oscillation. In reality, electrical recordings suffer from noise that unavoidably degrades the signal. The more a recording is transferred from one analog format to another, the https://courses.engr.illinois.edu/ece110/fa2015/content/courseNotes/files/?samplingAndQuantization more it loses fidelity to the original.
Figure 2 Fig. 2: Noisy analog signal. Noise degrades the sinusoidal signal in Fig. 1. It is often impossible to recover the original signal exactly from the noisy version. A digital signal is a sequence of discrete symbols. If these symbols are zeros and ones, we call them bits. As such, a digital signal is neither continuous in time nor continuous in its range of values. and, therefore, cannot perfectly represent arbitrary analog signals. On the other hand, digital signals are resilient against noise. Figure 3 Fig. 3: Analog transmission of a digital signal. Consider a digital signal $100110$ converted to an analog signal for radio transmission. The received signal suffers from noise, but given sufficient bit duration $T_b$, it is still easy to read off the original sequence $100110$ perfectly. Digital signals can be stored on digital media (like a compact disc) and manipulated on digital systems (like the integrated circuit in a CD player). This digital technology enables a variety of digital processing unavailable to analog systems. For example, the music signal encoded on a CD includes additional data used for digital error correction. In case the CD isDelta Modulation (DM) QUANTIZATION NOISE Adaptive Delta Modulation Coding Speech at Low Bit Rates Digital Multiplexers Light Wave Transmission Quantization Process The process of transforming Sampled amplitude values of a message http://www.allsyllabus.com/aj/note/ECE/Digital%20Communication/unit3/Quantization%20Process.php signal into a discrete amplitude value is referred to as Quantization. The quantization Process has a two-fold effect: 1. the peak-to-peak range of the input sample values is subdivided into a finite set of decision levels or decision thresholds that are aligned with the risers of the staircase, and 2. the output is assigned a discrete value selected from a finite set of representation levels that are aligned with the treads of quantization error the staircase.. A quantizer is memory less in that the quantizer output is determined only by the value of a corresponding input sample, independently of earlier analog samples applied to the input. Types of Quantizers: 1. Uniform Quantizer 2. Non- Uniform Quantizer 0 Ts 2Ts 3Ts Time Analog Signal Discrete Samples ( Quantized ) In Uniform type, the quantization levels are uniformly spaced, whereas in nonuniform type the spacing between the levels define sampling quantization will be unequal and mostly the relation is logarithmic. Types of Uniform Quantizers: ( based on I/P - O/P Characteristics) 1. Mid-Rise type Quantizer 2. Mid-Tread type Quantizer In the stair case like graph, the origin lies the middle of the tread portion in Mid –Tread type where as the origin lies in the middle of the rise portion in the Mid-Rise type. Mid – tread type: Quantization levels – odd number. Mid – Rise type: Quantization levels – even number. Quantization Noise and Signal-to-Noise: “The Quantization process introduces an error defined as the difference between the input signal, x(t) and the output signal, yt). This error is called the Quantization Noise.” q(t) = x(t) – y(t) Quantization noise is produced in the transmitter end of a PCM system by rounding off sample values of an analog base-band signal to the nearest permissible representation levels of the quantizer. As such quantization noise differs from channel noise in that it is signal dependent. Let ‘Δ’ be the step size of a quantizer and L be the total number of quantization levels. Quantization levels are 0, ± Δ., ± 2 Δ., ±3 Δ . . . . . . . The Quantization error, Q is a random variable and will have its sample values bounded by [-(Δ/