Forced Responsei-systems.github.io/Control/PDF/04_forced_response.pdf · Natural Response •So...
Transcript of Forced Responsei-systems.github.io/Control/PDF/04_forced_response.pdf · Natural Response •So...
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Forced Response
Prof. Seungchul Lee
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Outline
• LTI Systems
• Time Response to Constant Input
• Time Response to Singularity Function Inputs
• Response to General Inputs (in Time)
• Response to Sinusoidal Input (in Frequency)
• Response to Periodic Input (in Frequency)
• Response to General Input (in Frequency)
• Fourier Transform
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Linear Time-Invariant (LTI) Systems
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Systems
• 𝐻 is a transformation (a rule or formula) that maps an input signal 𝑥(𝑡) into a time output signal 𝑦(𝑡)
• System examples
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Linear Systems
• A system 𝐻 is linear if it satisfies the following two properties:
• Scaling
• Additivity
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Time-Invariant Systems
• A system 𝐻 processing infinite-length signals is time-invariant (shift-invariant) if a time shift of the input signal creates a corresponding time shift in the output signal
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Linear Time-Invariant (LTI) Systems
• We will only consider Linear Time-Invariant (LTI) systems
• Examples
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Time Response to Constant Input
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Natural Response
• So far, natural response of zero input with non-zero initial conditions are examined
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Response to Non-Zero Constant Input
• Assume all the systems are stable
• Inhomogeneous ODE
• Same dynamics, but it reaches different steady state
• Good enough to sketch
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Response to Non-Zero Constant Input
• Dynamic system response = transient + steady state
• Transient response is present in the short period of time immediately after the system is turned on
– It will die out if the system is stable
• The system response in the long run is determined by its steady state component only
• In steady state, all the transient responses go to zero
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Example
• Example
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Response to Non-Zero Constant Input
• Think about mass-spring-damper system in horizontal setting
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Response to Non-Zero Constant Input
• Mass-spring-damper system in vertical setting
• 𝑦 0 = 0 no initial displacement
• ሶ𝑦 0 = 0 initially at rest
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Response to Non-Zero Constant Input
• Shift the origin of 𝑦 axis to the static equilibrium point, then act like a natural response with
• 𝑦 0 = −𝑚𝑔
𝑘and ሶ𝑦 0 = 0 as initial conditions
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Time Response to Singularity Function Inputs
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Time Response to General Inputs
• We studied output response 𝑦(𝑡) when input 𝑥(𝑡) is constant
• Ultimate Goal: output response of 𝑦(𝑡) to general input 𝑥(𝑡)
• Consider singularity function inputs first
– Step function
– Impulse function (Delta Dirac function)
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Step Function
• Step function
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Step Response
• Start with a step response example
• Or
• The solution is given:
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Step Response
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Impulse
• Impulse: difficult to image
• The unit-impulse signal acts as a pulse with unit area but zero width
• The unit-impulse function is represented by an arrow with the number 1, which represents its area
• It has two seemingly contradictory properties :
– It is nonzero only at 𝑡 = 0 and
– Its definite integral (−∞,∞) is 1
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Properties of Delta Dirac Function
• The Dirac delta can be loosely thought of as a function on the real line which is zero everywhere except at the origin, where it is infinite,
and which is also constrained to satisfy the identity
• Sifting property
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Impulse Response
• Impulse response: difficult to image
• Question: how to realize initial velocity of 𝑣0 ≠ 0
• Momentum and impulse in physics I
– Consider an "impulse" which is a sudden increase in momentum 0 → 𝑚𝑣 of an object applied at time 0
– To model this,
– where force 𝑓(𝑡) is strongly peaked at time 0
– Actually the details of the shape of the peak are not important, what is important is the area under the curve
– This is the motivation that mathematician and physicist invented the delta Dirac function
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Impulse Response
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Impulse Response to LTI system
• Later, we will discuss why the impulse response is so important to understand an LTI system
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Impulse Response to LTI system
• Example: now think about the impulse response
• The solution is given: (why?)
• Impulse input can be equivalently changed to zero input with non-zero initial condition (by the impulse and momentum theory)
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Step Response Again
• Relationship between impulse response and unit-step response
• Impulse response is the derivative of the step response
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Response to General Inputs (in Time)
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Response to a General Input (in Time)
• Finally, think about response to a "general input" in time
• The solution is given
• If this is true, we can compute output response to any general input if an impulse response is given
– Impulse response = LTI system
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Convolution: Definition
• 𝑦(𝑡) is the integral of the product of two functions after one is reversed and shifted by 𝑡
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Impulse Response to LTI System
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Time-invariant Linear (scaling)
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Response to Arbitrary Input 𝒙(𝒕)
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Easier Way to Understand Continuous Time Signal
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Structure of Superposition
• If a system is linear and time-invariant (LTI) then its output is the integral of weighted and shifted unit-impulse responses.
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Response to Arbitrary Input: MATLAB
• Example
• The solution is given:
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Response to Sinusoidal Input (in Frequency)
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Response to a Sinusoidal Input
• When the input 𝑥 𝑡 = 𝑒𝑗𝜔𝑡 to an LTI system
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Fourier Transform
• Definition: Fourier transform
• 𝐻 𝑗𝜔 𝑒𝑗𝜔𝑡 rotates the same angular velocity 𝜔
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Response to a Sinusoidal Input: MATLAB
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Response to a Sinusoidal Input: MATLAB
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Response to Periodic Input (in Frequency)
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Response to a Periodic Input (in frequency domain)
• Periodic signal: Definition
• Fourier series represent periodic signals in terms of sinusoids (or complex exponential of 𝑒𝑗𝜔𝑡)
• Fourier series represent periodic signals by their harmonic components
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Response to a Periodic Input (in Frequency)
• Fourier series represent periodic signals by their harmonic components
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Response to a Periodic Input (in Frequency)
• What signals can be represented by sums of harmonic components?
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Harmonic Representations
• It is possible to represent all periodic signals with harmonics
• Question: how to separate harmonic components given a periodic signal
• Underlying properties
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Check Yourself
• How many of the following are orthogonal ?
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Harmonic Representations
• Assume that 𝑥(𝑡) is periodic in 𝑇 and is composed of a weighted sum of harmonics of 𝜔0 =2𝜋
𝑇
• Then
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Fourier Series
• Fourier Series: determine harmonic components of a periodic signal
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Example: Triangle Waveform
• One can visualize convergence of the Fourier Series by incrementally adding terms.
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Example: Triangle Waveform
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Example: Triangle Waveform
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Example: Triangle Waveform
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Example: Triangle Waveform
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Example: Triangle Waveform
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Example: Triangle Waveform
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Example: Triangle Waveform
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Example: Triangle Waveform
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Example: Triangle Waveform: MATLAB
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Example: Square Waveform
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Example: Square Waveform
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Example: Square Waveform
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Example: Square Waveform
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Example: Square Waveform
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Example: Square Waveform
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Example: Square Waveform
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Example: Square Waveform
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Example: Square Waveform
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Example: Square Waveform: MATLAB
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Response to a Periodic Input (Filtering)
• Periodic input: Fourier series → sum of complex exponentials
• Complex exponentials: eigenfunctions of LTI system
• Output: same eigenfunctions, but amplitudes and phase are adjusted by the LTI system
• The output of an LTI system is a “filtered” version of the input
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Output is a “Filtered” Version of Input
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Output is a “Filtered” Version of Input
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Output is a “Filtered” Version of Input
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Output is a “Filtered” Version of Input
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Response to a Square Wave Input: MATLAB
• Decompose a square wave to a linear combination of sinusoidal signals
• The output response of LTI
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Response to a Square Wave Input: MATLAB
• Decompose a square wave to a linear combination of sinusoidal signals
• The output response of LTI
• Given input 𝑒𝑗𝜔𝑡
• 𝑦 = 𝐴𝑒𝑗(𝜔𝑡+𝜙)
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Response to a Square Wave Input: MATLAB
• Linearity: input σ𝑎𝑘𝑥𝑘(𝑡) produces σ𝑎𝑘𝑦𝑘(𝑡)
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Response to a Square Wave Input: MATLAB
• Linearity: input σ𝑎𝑘𝑥𝑘(𝑡) produces σ𝑎𝑘𝑦𝑘(𝑡)
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Response to General Input (in Frequency)
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Response to a General Input (Aperiodic Signal) in Frequency Domain
• An aperiodic signal can be thought of as periodic with infinite period
• Let 𝑥(𝑡) represent an aperiodic signal
• Periodic extension
• Then
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Example: Periodic Square Wave
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Example: Periodic Square Wave
• Doubling period doubles # of harmonics in given frequency interval
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Example: Periodic Square Wave
• As 𝑇 → ∞, discrete harmonic amplitudes → a continuum 𝑋(𝑗𝜔)
• As alternative way of interpreting is as samples of an envelope function, specifically
• That is, with 𝜔 thought of as a continuous variable, the set of Fourier series coefficients approaches the envelop function as 𝑇 → ∞
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Fourier Transform
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Fourier Transform
• As 𝑇 → ∞, synthesis sum → integral
• Aperiodic signal has all the frequency components instead of discrete harmonic components
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Fourier Transform
• Definition: Fourier transform
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Linearity
• Response to LTI system with impulse response ℎ(𝑡)
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Magic of Impulse Response
• Fourier transform of delta Dirac function
• Delta Dirac function contains all the frequency components with 1
– Convolution in time
– Filtering in frequency
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Magic of Impulse Response
• Impulse basically excites a system with all the frequency of 𝑒𝑗𝜔𝑡
• Impulse response contains the information on how much magnitude and phase are filtered via the LTI system at all the frequency
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LTI LTI
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Frequency Response (Frequency Sweep)
• Frequency sweeping is another way to collect LTI system characteristics
– (same as the impulse response)
• Given input 𝑒𝑗𝜔𝑡
• 𝑦 = 𝐴𝑒𝑗(𝜔𝑡+𝜙)
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LTI
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The First Order ODE: MATLAB
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Example: The Second Order ODE
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The Second Order ODE: MATLAB
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The Second Order ODE: MATLAB
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Experiment: The Second Order ODE
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Experiment: The Second Order ODE
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Resonance
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• Input frequency near resonance frequency
• Resonance frequency is generally different from natural frequency, but they often are close enough
Resonance frequency
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Summary
• To understand LTI system
• Impulse response
• Frequency sweep
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