Digital Communications 1. Safwan El Assad. Читать онлайн. Newlib. NEWLIB.NET

Автор: Safwan El Assad
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Программы
Год издания: 0
isbn: 9781119779773
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      Special cases.

       – Noiseless channel: X and Y symbols are linked, so:I(X, Y)=H(X)=H(Y)

       – Channel with maximum power noise: X and Y symbols are independent, therefore:I(X, Y) = 0

      Claude Shannon introduced the concept of channel capacity, to measure the efficiency with which information is transmitted, and to find its upper limit.

      The capacity C of a channel: (information bit/symbol) is the maximum value of the mutual information I(X, Y) over the set of input symbols probabilities images

      [2.54] images

      The maximization of I(X, Y) is performed under the constraints that:

images

      The maximum value of I(X, Y)occurs for some well-defined values of these probabilities, which thus define a certain so-called secondary source.

      The capacity of the channel can also be related to the unit of time (bitrate Ct of the channel), in this case, one has:

      [2.55] images

      The channel redundancy Rc and the relative channel redundancy pc are defined by:

      [2.56] images

      [2.57] images

      The efficiency of the use of the channel images is defined by

      [2.58] images

      2.7.1. Shannon’s theorem: capacity of a communication system

      Shannon also formulated the capacity of a communication system by the following relation:

      [2.59] images

      where:

       – B: is the channel bandwidth, in hertz;

       – Ps: is the signal power, in watts;

        is the power spectral density of the (supposed) Gaussian and white noise in its frequency band B;

        is the noise power, in watts.

      EXAMPLE.– Binary symmetric channel (BSC).

      Any binary channel will be characterized by the noise matrix:

images

      If the binary channel is symmetric, then one has:

      p(y1/x2) = p(y2/x1) = p

      p(y1/x1) = p(y2/x2) = 1 − p

Schematic illustration of binary symmetric channel.

      Figure 2.5. Binary symmetric channel

      The channel capacity is:

images images

      Hence:

images

      But max H(Y) = 1 for p(y1) = p(y2). It follows from the symmetry of the channel that if p(y1) = p(y2), then p(x1) = p(x2) = 1/2, and C will be given by:

images Graph depicts variation of the capacity of a BSC according to p.

      Figure 2.6. Variation of the capacity of a BSC according to p

      The joined entropy of k random variables is written:

      [2.60] images

images

      One has:

      [2.61] images

      Equality occurs when the variables are independent.

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