How Long to Read Development of Variable Slope Piecewise-Based Brown Symbols for Application to Nonlinear Ambiguity Suppression

By John Kurian

How Long Does it Take to Read Development of Variable Slope Piecewise-Based Brown Symbols for Application to Nonlinear Ambiguity Suppression?

It takes the average reader 1 hour and 38 minutes to read Development of Variable Slope Piecewise-Based Brown Symbols for Application to Nonlinear Ambiguity Suppression by John Kurian

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Description

In 1962, Palermo used two conjugate Linear Frequency Modulated (LFM) pulses to demonstrate a Non-linear Ambiguity Suppression (NLAS) technique to reduce ambiguous energy in radar returns. Using conjugate LFM pulse coding does not readily extend to larger symbol families and thus is severely limited for M- channel (M> 2) NLAS applications. Larger families of optimal mutually dispersible codes with bigger time bandwidth products are needed to achieve the desired M-fold range ambiguity reduction. Using correlation function the time duration as an optimization metric, the recently proposed Brown's theorem formulates a deterministic process for designing optimal mutually dispersible symbol sets of arbitrary size. The rms time duration performance of digitized "Brown" symbols is invariant to choice of basis (phase-rate) functions used in the design process, yet improvement in cross-correlation side lobe performance is directly linked to basis function design. This insight provided the impetus for designing and synthesizing a new set of mutually dispersible symbols based on Variable Slope (VS) piecewise basis functions. The resultant VS piecewise- based "Brown" symbols are used with NLAS processing to demonstrate M-fold ambiguity suppression capability. Despite the presence of two undesired ambiguous signal responses having +24.0 dB more signal power relative to the weaker desired unambiguous signal, the NLAS processor effectively suppressed the ambiguous responses. The desired signal peak NLAS output response was approximately 11.0 dB above the noise floor and undesired ambiguous responses were suppressed an average of 10.0 to 12.0 dB - a net improvement of approximately 21.01 to 22.0 dB.

How long is Development of Variable Slope Piecewise-Based Brown Symbols for Application to Nonlinear Ambiguity Suppression?

Development of Variable Slope Piecewise-Based Brown Symbols for Application to Nonlinear Ambiguity Suppression by John Kurian is 96 pages long, and a total of 24,576 words.

This makes it 32% the length of the average book. It also has 30% more words than the average book.

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The average oral reading speed is 183 words per minute. This means it takes 2 hours and 14 minutes to read Development of Variable Slope Piecewise-Based Brown Symbols for Application to Nonlinear Ambiguity Suppression aloud.

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Development of Variable Slope Piecewise-Based Brown Symbols for Application to Nonlinear Ambiguity Suppression is suitable for students ages 10 and up.

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