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200 10$aGood Morning Nantwich: Adventures in Breakfast Radio
210   $cHarperCollins UK
330 8 $aWhat possesses a right-minded comedian to quit the day job for life as a breakfast radio DJ?The opening DJ on the Beeb's new alternative radio channel, 6Music, Phill Jupitus was a maverick on the flat landscape of inane commercial breakfast radio. Disregarding the prescriptive chart-led schedule and showing no fear in the face of BBC management, this ex-performance poet's personal crusade against the bland, the predictable and the smug self-satisfaction ensured that he never had any trouble practising what he preached.Not one to pull punches, Phill recounts with acerbic wit, honesty and more affection than he would care to admit, his encounters with petulant band members, tedious showbusiness jargon, colossal salaries and four-letter firewalls.Inviting world-weary media cynics and radio enthusiasts to sit back and revel in a heady dose of painful banter ensuing from the absent interview technique, The Clash, the perils of idols as on-air guests, Black Umfolosi and The Coasters, Nantwich remorselessly dissects the limply beating heart of breakfast radio and reconstructs it one playlist, anecdote and transcript at a time.
517   $aGood Morning Nantwich
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200 10$aSystems with delays $eanalysis, control, and computations /$fA. V. Kim and A. V. Ivanov
210  1$aHoboken, New Jersey ;$aSalem, Massachusetts :$cScrivener Publishing :$cWiley,$d2015.
210  4$dİ2015
215   $a1 online resource (180 p.)
300   $aDescription based upon print version of record.
311   $a1-119-11758-5 
320   $aIncludes bibliographical references and index.
327   $a2.2 Lyapunov-Krasovskii functionals2.2.1 Structure of Lyapunov-Krasovskii quadratic functionals; 2.2.2 Elementary functionals and their properties; 2.2.3 Total derivative of functionals with respect to systems with delays; 2.3 Positiveness of functionals; 2.3.1 Definitions; 2.3.2 Sufficient conditions of positiveness; 2.3.3 Positiveness of functionals; 2.4 Stability via Lyapunov-Krasovskii functionals; 2.4.1 Stability conditions in the norm || · || H; 2.4.2 Stability conditions in the norm || · ||; 2.4.3 Converse theorem; 2.4.4 Examples; 2.5 Coefficient conditions of stability
327   $a2.5.1 Linear system with discrete delay2.5.2 Linear system with distributed delays; 3 Linear quadratic control; 3.1 Introduction; 3.2 Statement of the problem; 3.3 Explicit solutions of generalized Riccati equations; 3.3.1 Variant 1; 3.3.2 Variant 2; 3.3.3 Variant 3; 3.4 Solution of Exponential Matrix Equation; 3.4.1 Stationary solution method; 3.4.2 Gradient methods; 3.5 Design procedure; 3.5.1 Variants 1 and 2; 3.5.2 Variant 3; 3.6 Design case studies; 3.6.1 Example 1; 3.6.2 Example 2; 3.6.3 Example 3; 3.6.4 Example 4; 3.6.5 Example 5: Wind tunnel model
327   $a3.6.6 Example 6: Combustion stability in liquid propellant rocket motors4 Numerical methods; 4.1 Introduction; 4.2 Elementary one-step methods; 4.2.1 Euler'smethod; 4.2.2 Implicit methods (extrapolation); 4.2.3 Improved Euler'smethod; 4.2.4 Runge-Kutta-like methods; 4.3 Interpolation and extrapolation of the model pre-history; 4.3.1 Interpolational operators; 4.3.2 Extrapolational operators; 4.3.3 Interpolation-Extrapolation operator; 4.4 Explicit Runge-Kutta-like methods; 4.5 Approximation orders of ERK-like methods; 4.6 Automatic step size control; 4.6.1 Richardson extrapolation
327   $a4.6.2 Automatic step size control
606   $aDelay differential equations
606   $aLinear systems
606   $aDerivatives (Mathematics)
615  0$aDelay differential equations.
615  0$aLinear systems.
615  0$aDerivatives (Mathematics)
676   $a515/.35
700   $aKim$b A. V.$0890977
702   $aIvanov$b A. V.
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