{
"cells": [
{
"cell_type": "markdown",
"metadata": {
"nbsphinx": "hidden"
},
"source": [
"# Design of Digital Filters\n",
"\n",
"*This jupyter notebook is part of a [collection of notebooks](../index.ipynb) on various topics of Digital Signal Processing. Please direct questions and suggestions to [Sascha.Spors@uni-rostock.de](mailto:Sascha.Spors@uni-rostock.de).*"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"## Design of Non-Recursive Filters using the Frequency Sampling Method\n",
"\n",
"For some applications, the desired frequency response is not given at all frequencies but rather at a number of discrete frequencies. For instance when the transfer function has been measured. In this case, the [window method](./window_method.ipynb) cannot be applied since the desired transfer function is not given analytically. The frequency sampling method provides a solution for the design of non-recursive filters."
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### The Frequency Sampling Method\n",
"\n",
"Let's assume that the desired transfer function $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ is specified at a set of $N$ equally spaced frequencies $\\Omega_\\mu = \\frac{2 \\pi}{N} \\mu$\n",
"\n",
"\\begin{equation}\n",
"H_\\text{d}[\\mu] = H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\frac{2 \\pi}{N} \\mu})\n",
"\\end{equation}\n",
"\n",
"for $\\mu = 0, 1, \\dots, N-1$. The coefficients of a non-recursive filter with finite-length impulse response (FIR) can then be computed by inverse discrete Fourier transformation (DFT) of $H_\\text{d}[\\mu]$\n",
"\n",
"\\begin{equation}\n",
"h[k] = \\text{DFT}_N^{-1} \\{ H_\\text{d}[\\mu] \\} = \\frac{1}{N} \\sum_{\\mu = 0}^{N-1} H_\\text{d}[\\mu] \\; \\mathrm{e}^{\\,\\mathrm{j}\\,\\frac{2 \\pi}{N} \\mu\\,k}\n",
"\\end{equation}\n",
"\n",
"for $k = 0,1, \\dots, N-1$. \n",
"\n",
"In order to investigate the properties of the designed filter, its transfer function $H(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ is computed. It is given by discrete-time Fourier transformation (DTFT) of its impulse response $h[k]$\n",
"\n",
"\\begin{equation}\n",
"H(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) = \\sum_{k = 0}^{N-1} h[k] \\; \\mathrm{e}^{\\,-\\mathrm{j}\\,\\Omega\\,k} = \n",
"\\sum_{\\mu = 0}^{N-1} H_\\text{d}[\\mu] \\cdot \\frac{1}{N} \\sum_{k = 0}^{N-1} \\mathrm{e}^{\\,-\\mathrm{j}\\,k\\,(\\Omega - \\frac{2 \\pi}{N}\\,\\mu)}\n",
"\\end{equation}\n",
"\n",
"When comparing this result with the [interpolation of a DFT](../spectral_analysis_deterministic_signals/zero_padding.ipynb#Interpolation-of-the-Discrete-Fourier-Transformation), it can be concluded that $H(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ is yielded by interpolation of the desired transfer function $H_\\text{d}[\\mu]$\n",
"\n",
"\\begin{equation}\n",
"H(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) = \\sum_{\\mu=0}^{N-1} H_\\text{d}[\\mu] \\cdot \\mathrm{e}^{-\\,\\mathrm{j}\\, \\frac{( \\Omega - \\frac{2 \\pi}{N} \\mu ) (N-1)}{2}} \\cdot \\text{psinc}_N ( \\Omega - \\frac{2 \\pi}{N} \\mu)\n",
"\\end{equation}\n",
"\n",
"where $\\text{psinc}_N(\\cdot)$ denotes the $N$-th order periodic sinc function.\n",
"\n",
"Both the transfer function of the filter $H(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ and the desired transfer function $H_\\text{d}[\\mu]$ are equal at the specified frequencies $\\Omega_\\mu = \\frac{2 \\pi}{N} \\mu$. Values in between adjacent $\\Omega_\\mu$ are interpolated by the periodic sinc function. This is illustrated in the following."
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"#### Example: Approximation of an ideal low-pass\n",
"\n",
"The design of an ideal low-pass filter using the frequency sampling method is considered. For $|\\Omega| < \\pi$ the transfer function of the ideal low-pass is given as\n",
"\n",
"\\begin{equation}\n",
"H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) = \\begin{cases}\n",
"1 & \\text{for } |\\Omega| \\leq \\Omega_\\text{c} \\\\\n",
"0 & \\text{otherwise}\n",
"\\end{cases}\n",
"\\end{equation}\n",
"\n",
"where $\\Omega_\\text{c}$ denotes its corner frequency. The desired transfer function $H_\\text{d}[\\mu]$ for the frequency sampling method is derived by sampling $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$. Note that for sampling on the unit circle with $0 \\leq \\Omega < 2 \\pi$, the periodicity $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) = H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}(\\Omega + n 2 \\pi)})$ with $n \\in \\mathbb{Z}$ has to be considered."
]
},
{
"cell_type": "code",
"execution_count": 1,
"metadata": {},
"outputs": [
{
"data": {
"application/pdf": "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\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"application/pdf": "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\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"application/pdf": "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\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"import numpy as np\n",
"import matplotlib.pyplot as plt\n",
"import scipy.signal as sig\n",
"\n",
"%matplotlib inline\n",
"\n",
"N = 32 # length of filter\n",
"Omc = np.pi / 3 # corner frequency of low-pass\n",
"\n",
"# specify desired frequency response\n",
"Ommu = 2 * np.pi / N * np.arange(N)\n",
"Hd = np.zeros(N)\n",
"Hd[Ommu <= Omc] = 1\n",
"Hd[Ommu >= (2 * np.pi - Omc)] = 1\n",
"\n",
"# compute impulse response of filter\n",
"h = np.fft.ifft(Hd)\n",
"h = np.real(h) # due to round-off errors\n",
"# compute frequency response of filter\n",
"Om, H = sig.freqz(h, worN=8192)\n",
"\n",
"# plot impulse response\n",
"plt.figure(figsize=(10, 3))\n",
"plt.stem(h)\n",
"plt.title(\"Impulse response\")\n",
"plt.xlabel(r\"$k$\")\n",
"plt.ylabel(r\"$h[k]$\")\n",
"# plot transfer functions\n",
"plt.figure(figsize=(10, 3))\n",
"plt.plot(Om, np.abs(H), \"b-\", label=r\"designed $|H(e^{j \\Omega})|$\")\n",
"plt.stem(Ommu, np.abs(Hd), \"g\", label=r\"desired $|H_d[\\mu]|$\")\n",
"plt.plot([0, Omc, Omc], [1, 1, 0], \"r--\")\n",
"plt.title(\"Magnitude response of desired/designed filter\")\n",
"plt.xlabel(r\"$\\Omega$\")\n",
"plt.legend()\n",
"plt.axis([0, np.pi, -0.05, 1.5])\n",
"# plot phase\n",
"plt.figure(figsize=(10, 3))\n",
"plt.plot(Om, np.unwrap(np.angle(H)))\n",
"plt.title(\"Phase of designed filter\")\n",
"plt.xlabel(r\"$\\Omega$\")\n",
"plt.ylabel(r\"$\\varphi(\\Omega)$\")\n",
"plt.grid()"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"**Exercises**\n",
"\n",
"* Does the resulting filter approximate the desired magnitude and phase response well?\n",
"* Increase the length `N` of the filter. Does the attenuation in the stop-band improve?\n",
"\n",
"Solution: The desired magnitude and phase response is an ideal low-pass with zero-phase. The magnitude response of the designed filter approximates this only very coarsely and shows major ringing artifacts. The phase of the designed filter is also not zero for all frequencies. Increasing the length `N` of the filter does not improve the attenuation in the stop-band, it only changes the frequencies of the local minima of the ripples. The reason for the poor performance of the designed filter is the zero-phase of the desired transfer function which cannot be realized by a causal non-recursive system. This was [already discussed for the window method](../filter_design/window_method.ipynb#Zero-Phase-Filters). The frequency sampling method suffers additionally from time-domain aliasing due to the periodicity of the DFT."
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Time-Domain Aliasing\n",
"\n",
"The impulse response $h_\\text{d}[k]$ of the desired filter is given by inverse DTFT of its transfer function\n",
"\n",
"\\begin{equation}\n",
"h_\\text{d}[k] = \\mathcal{F}_*^{-1} \\{ H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) \\} = \n",
"\\frac{1}{2 \\pi} \\int_{-\\pi}^{\\pi} H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) \\, \\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega} d\\Omega\n",
"\\end{equation}\n",
"\n",
"The link between the impulse response $h_\\text{d}[k]$ of the desired and the impulse response $h[k]$ of the designed filter is derived in the following by explicitly taking the sampling of the desired transfer function into account. The sampled transfer function $H_\\text{d,S}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ follows from ideal sampling by multiplication with a series of Dirac impulses\n",
"\n",
"\\begin{equation}\n",
"H_\\text{d,S}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) = H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) \\cdot \n",
"\\sum_{\\mu = -\\infty}^{\\infty} \\delta \\left(\\Omega - \\frac{2 \\pi}{N} \\mu \\right)\n",
"\\end{equation}\n",
"\n",
"Introducing the sampled transfer function into the inverse DTFT yields its inverse DFT. As above equation states essentially a convolution of two spectra, the convolution theorem of the DTFT applies. This yields\n",
"\n",
"\\begin{equation}\n",
"\\begin{split}\n",
"h[k] &= h_\\text{d}[k] * \\mathcal{F}_*^{-1} \\left\\{ \\sum_{\\mu = -\\infty}^{\\infty} \\delta \\left(\\Omega - \\frac{2 \\pi}{N} \\mu \\right) \\right\\} \\\\\n",
"&= h_\\text{d}[k] * \\sum_{l = -\\infty}^{\\infty} \\delta[k - l \\cdot N] \\\\\n",
"&= \\sum_{l = -\\infty}^{\\infty} h_\\text{d}[k - l \\cdot N]\n",
"\\end{split}\n",
"\\end{equation}\n",
"\n",
"This result states that the impulse response $h[k]$ of the designed filter is given by periodic summation of the impulse response $h_\\text{d}[k]$ of the desired filter. If the impulse response of the desired filter is longer than $N$ samples, its shifted impulse responses will overlap. These overlaps are known as *time-domain aliasing*. \n",
"\n",
"The ideal low-pass constitutes a bandlimited system. Such systems have impulse responses of infinite length. In above example, the resulting time-domain aliasing is clearly visible at the end of the impulse response of the designed filter. Shifting the impulse response of the desired filter to the center limits the impact of time-domain aliasing. This holds also for a general zero-phase desired filter due to [symmetry of its impulse response](./window_method.ipynb#Zero-Phase-Filters). Again a linear-phase design is beneficial in such situations."
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Design of Linear-Phase Filters\n",
"\n",
"As for the [window method](../filter_design/window_method.ipynb), the design of a digital filter with a generalized linear phase is considered in the following. For $|\\Omega| < \\pi$ its transfer function is given as\n",
"\n",
"\\begin{equation}\n",
"H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) = A(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) \\cdot \\mathrm{e}^{\\,-\\mathrm{j} \\alpha \\Omega + \\mathrm{j} \\beta}\n",
"\\end{equation}\n",
"\n",
"where $A(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) \\in \\mathbb{R}$ denotes the amplitude of the filter, $-\\alpha\\,\\Omega$ its linear phase and $\\beta$ a constant phase offset. The impulse response $h[k]$ of a linear-phase filter shows specific symmetries which have already been discussed for the [design of linear-phase filters using the window method](../filter_design/window_method.ipynb#Causal-Linear-Phase-Filters). For the resulting four types of linear-phase FIR filters, the properties of $A(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ and the values of $\\alpha$ and $\\beta$ have to be chosen accordingly for the formulation of $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ and $H_d[\\mu]$, respectively. This is illustrated in the following for the design of a low-pass filter."
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"#### Example: Linear-phase approximation of an ideal low-pass\n",
"\n",
"We aim at the approximation of an ideal low-pass as a linear-phase non-recursive FIR filter. For the sake of comparison with a similar [example for the window method](../filter_design/window_method.ipynb#Example:-Causal-linear-phase-approximation-of-ideal-low-pass), we choose a type 1 filter with odd filter length $N$, $\\alpha = \\frac{N-1}{2}$ and $\\beta = 0$. The desired frequency response $H_\\text{d}[\\mu]$ is given by sampling\n",
"\n",
"\\begin{equation}\n",
"H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) = \\mathrm{e}^{\\,-\\mathrm{j} \\frac{N-1}{2} \\Omega} \\cdot \\begin{cases}\n",
"1 & \\text{for } |\\Omega| \\leq \\Omega_\\text{c} \\\\\n",
"0 & \\text{otherwise}\n",
"\\end{cases}\n",
"\\end{equation}\n",
"\n",
"which is defined for $|\\Omega| < \\pi$. Note that for sampling on the unit circle with $0 \\leq \\Omega < 2 \\pi$, the periodicity $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) = H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}(\\Omega+ n 2 \\pi)})$ for $n \\in \\mathbb{Z}$ has to be considered."
]
},
{
"cell_type": "code",
"execution_count": 2,
"metadata": {},
"outputs": [
{
"data": {
"application/pdf": "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\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"application/pdf": "JVBERi0xLjQKJazcIKu6CjEgMCBvYmoKPDwgL1BhZ2VzIDIgMCBSIC9UeXBlIC9DYXRhbG9nID4+CmVuZG9iago4IDAgb2JqCjw8IC9FeHRHU3RhdGUgNCAwIFIgL0ZvbnQgMyAwIFIgL1BhdHRlcm4gNSAwIFIKL1Byb2NTZXQgWyAvUERGIC9UZXh0IC9JbWFnZUIgL0ltYWdlQyAvSW1hZ2VJIF0gL1NoYWRpbmcgNiAwIFIKL1hPYmplY3QgNyAwIFIgPj4KZW5kb2JqCjEwIDAgb2JqCjw8IC9Bbm5vdHMgWyBdIC9Db250ZW50cyA5IDAgUgovR3JvdXAgPDwgL0NTIC9EZXZpY2VSR0IgL1MgL1RyYW5zcGFyZW5jeSAvVHlwZSAvR3JvdXAgPj4KL01lZGlhQm94IFsgMCAwIDU5NS4zMDYyNSAyMjYuMTg4NzUgXSAvUGFyZW50IDIgMCBSIC9SZXNvdXJjZXMgOCAwIFIKL1R5cGUgL1BhZ2UgPj4KZW5kb2JqCjkgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAxMSAwIFIgPj4Kc3RyZWFtCnic3ZpLsxTHEYX38yt6KS1o6v1YCsvC4QiFQxJhL2QtMFyuIQBZIKyNf7y/k9Uz0z2354K8kB0WIpjJqa58VObJU1Xtp1cHP91ObnrF31+m76cf+Pf55KfH/L09OL69OeSe5+hKyHx7vfoWQpl9azUjdZtvfz8cXhwefsEU73nm8eEQ3eztmVjnnCKDmLa1S+HrlTC4OLcypKfH18JFSRhKbjEYJ+a2cgPV+mVX+1mWZrcoPzwiGr8cHj2ZHn7lJ++mJy8OIcw+R2/uzj1PT54fPnOz+3x68mr6/ZODKTx43+buU3VtrWItvV+J927uxecWQ8pxoylvNQVX5xqiL2WtaS39iKbe51qdSz51V1aa/KVPoZcZxy/CtpZ+JHCsZK4t9V5jbhtNFz7FRkYl51rcLNBKer+mWOscW+m59ub9SlO49CnVNPvUcvJrTWvp/ZpSIcc7AwvZnjaaLnzKRb+V3vsm5VfS+zXlnGfnYqspVV9XmuLZp594zE0PHJkfXV7Suc+hNqXrszfMeNAwqsJppDt9mMsY8PDLm1dP//zhu6dv3z/405ub26fTlz8evuHPsjDHGkmod60TXDKgzOVCuO9CncMU++w9RVtCd3G/dk5KSpoji5jLWslZeF1JoUpqKM2n7MuiJFxRQlK16IILayVn4XUljWSKMYZSfOiLknRFiacccbilutaykl5X4wG41GNn0WsKi55yTU9oc81U8sablfQePSGRUan40mM+Yk27picTUB983Ppzlt6jJ5U5+RxKcL20faQ566l+LpX83fpzlt6jp9SZ3tNdDbn5Rc+1JPA9zj7GFLb+nKX36Gl9jrHkHJLvadFzyoOfprutJgN+APMcw/TuZvrL9HYCAGlSKkN11G8fT5ThP18+u/n28aPp2fv9qttbC6z87lDi3ENKzL4efpZeju90ihSKT5vxZ+nleB8xt7jat/asxHeeKAB3bb3W7RNn8Z0naEqelM99+8RZfPlEiOAgfRnI3mDTnng8wAq0GHOIF2C2I7YHoqPusq/uch12xOMBED2V3lrZPrAnHg+UNtMkHWWxeWBPbA8kF3YyY086hse8lxq74vFA6Xu5sSu2BzJgtZMbu+LxAFWxkxq74vEAtb+TGbtie+DX/v/N9Gk1G6Y/nuuWhnunaq+gZYQuOQwchRgDBK+J5pIUHcmot+Z8M9TJnVyJnS4mcW7VlYiYJgiJJEAmpvRSTIibghBKZXSCazkojOhEA9ljd6plxKl1+hVSffTOjcG0VPoy4k5bI3g+IqbaZKBGw/GhbUVmI24QPsXXOzSiJ8oQYNz7bFL6DbMxRQ7Q0MTcEnvysmW6HvIIK3G9mxim0oKvzcSZSLlm8spCltrGcDjmKHZ+JpliANQlj75DKU3OnORAzaa20cB7MTmmk91tyJk8+mhyyDisN2ezPYSebHgMxCXCsoanoZr/RBhVUViVgC3aZDNj+NJdIILI01ySS33IqVlPzRaTh4Db5pSteS8KGHJXvcvJ5IE9VOpjGpSFbFpJi9BcDMHkSatoocxlDnCgkkzeS7bezn5hhvSPNc2KPMxBcghRgDiWaO23sqUwVyGfOUBcRwoQqNHqBMwuhRy6haDj0pi+aCtWqTKLJNO1sbDQbddJK+ZBk5P15lQ17lmUS4WmSCyNtnnlKQ+pNDAhpZCqBQdKVemjqKVduZyXBSR/FT8bHkXsVVSS51kcLw15Ij2zmdnqwqRteGh9LBUJH2PtCr1YNwVkxtO/ySZxOIkjbGzIOzuwUKJvZnzOnSQyeRAaF2U3zqYQs80OV6g8k5T0JBbRK7aCFA65nS27sQs9aYxnHVoKUssiFzpUsxh0yhKberKsrLG5IKcCbUbiviwVbhQTq1wrGiZlaPWW2sEph6gdJol43UvNQw6CNTxkNO26w/ksW6kJYaaGU0Qd1hxkS/CMcVlbKOadrWd1k5P0PWj9sJZtUrZdS+BZOQoyVEoUZmw5rGOAFkjuKl5O6MgUE8ObUqSqJ3KpsP+s5pBoxMAfEUUttknJB9TG0ZWJeTONtNIeGg+mCg6R7EMKgWOTSa4JMzP8z6Ra/gS8TNmAwg0zotCM3VIF4+dAk7JkgczxJSpSlBoAM+KHcnJPCcIasxkLI3xEvsNNqolbhdcmEwNsCc9oH8A4X4uZh1+RFfNd4krqeZPSatitUq9ICXkvYw4mRC29H7GW0bItCPWpC1lNGL1MMbGqzNUSZAgx8Ib/5OKsEsZYUhDaXKxbBOXdAF58TKX2kTx8ya2DZFNWmylxRFVZ7bKgSCiaoxu5QM1gX+cLpsYc+4i2aFTFltHxqR6bWsQh5kJECIJwwroZmUS1g2lRcwRqsQ4xANkzmzDrOL04U1hJPqolEmx1nD7aVgCDSqzUl8SNFKoWKIMgPldZnUIDbCRuTr2F3i4x8VLdSgwgMjWK1EEKrM5UAkBkp6M+NDrSjy1+2iXSg4mx0LsKGU2MJamr56mAAYqxkuBMhqYo2jT4CqhYZncVeWmkBl5mnY2Yys42l3UDckiMBjYEm5t6o2dkVluwv1SHKGgNWncLtjDRm5g5Is8yB0gZCtVk4iJgyyQJU5NZrY7RdPuaogwBghhrPYL6FH61YKvASo1WQCuEasAC0lickq03R/Vy5wiQnASpksU10sod5oFSokKEwjp2HMdhDJIYOO6WJZEG32h0Isjki6MjmxQIcCBpkxRUSm6I6cYsjnxXd2qjbmKAPFQwRYlWCe/wUeCiwFv4RFHGYGAElItpEOwKnTc7QAyWRj3fWj6FLWkSQBni2tRAis2hbg4AKXzUmLYcdk7JGOrOi7urPIBxs1ohNsDlA206Wh+NgqvgRE9U9qVZKUXBI6FqtjD0DG+gE1Wc0D4gQJNRvNVmpnqp+2CQ2MmMNmbuWlJUGlISR2eLW4x1iIHiIcicjYvGInaBM4QJZMswJosH7Z+fxFEVpmT0HHFlYWAilAGThJAGRY2VCi8Yb7UuhLAeD6vXdqk7S+ygiFj4oAQOK8kihS8R4SEGqlsccXIORmJzUHjQQVWvxAlGaE5SeJX+nsx3qG+z/gNnmiECdH6JE1A/loA+XkjcZI2mkhbDEPp1TimpwmBQqYxMZeMZjLSLnSG1bNdGa2GcVnfO2eCkY53ioouagpR01g6Sh/qRIPKc+JIIFhDghmx28CeJxVWsmSYqCUPDcAbU9YaJZPQs8jGcgbIbDU9B/G4kDi7S+UIxMS4SpTEHdLRZ14TZmQ9gmzwHYwzlkkqmgG4GF5AdOoLE1MxgpioZYYsJC9XtrZDwvIMP5gu1ASaxkJrCjYhJrPpiUb3BfhxTyC32OSpc+nVN6loSdyFYzlZHrC25IrGht6vOPPSUu2UCtQeUAsSGZQD0YNMUhUKt3YitbfFDZXFH3pmK7Tm8TQJL5AuYpfylB1ud4/2sDqFI6+xkbJq09aUsgxtEhHY4Yld1lJEFgsLl7KshSFKyp2w7d+0T/CCobLtY29ydLTmb427EIKnNlCBcUyYMAEmtqEmXYmGCdHmrLoqPFIIF2lDKeQzu1vooaKs5KtEQJNFMKqOLrWzT1tLSo7PgFLF25YSx0MBsJ+q0ASKO2vE44m/7UGfkMh1TPXYDZRj6LA6n0epHeSAn/FF3CthlCmHmYxJyuqhnWB5AMFIbYjvf8HGsFo3CFiCrDQiL0wDa2g33Mn2AqmzDdfYW1fhTtsumwRaoLtjlmKMfeRKG0H2j1T7LBtAmaldmZ1q79TqdOqDeTh3EN4MxRAqI1FPDHD66bCuQzahjlTdHZdsc5G9hK5RtbYE3o+lZ6QsVL9Y0ShzccxzpjxpXCeRg9QlLoGytORAlYMVgLJO8USdTVkMExuhDtg0REC4jAB6zrChRYLCGVmD8IMs6ImFnQV+1JSRPhtO6KyFVhINyrzjjUxmGVKl6l0fOwE1tbgBZW3KzmMeSAU1uWs4YiyEKwNIMS3V1BzNdFraI98Xr4l9x9sIQNgNFOJj5ksryXz1gNNSgqa/06d3t9ZHTZuS3jzcjD9dHvrtdblnGJcudEx471H72Znr4tdPVyWlkVN2NPwHJx0Y8+PiQ32bEA11SRJ1AkBEl/49Y9f864pv/5PhRe6ORupHE9WQpnRngVEqPhFbn/bRbhdzLcpd/cYz6qXYNm76fQNs8AXqn9wec3WwcrtiwvVDyZe9u4yzesU3xcHfu+69o27v1X79IoHPmu+8ivLnyLoLdDXzi2wzrsec57pnZmV/jXQa/eZPh9nQXFewev+K6Pd+X53UV9fXT27cvf/7w/Ib1ef+PH9++v5l+fDE9v3n/8t3N84f69/btzfPpxcvXP9+8O15aPfwi6hWK43sgJ5WEdrwFMijTWKHiV074O1LBfdDBJZ1jJVYfOQ6lF0cd/2yExyA8O6ykJOd51rO06ehfrwWsVelkalHlVyOPs648OElF79iNV6hgXYklvKNqLSyrWf0dD15vpCdn16pOYdmL6zO91/Lo+F6L1b1yYamzYzbsXkGkcnwJwA4/l2WC3N2RXuTaL6c3ZVavFKR+Mq6lo3H2ToFuLlvWL+Tc+Xr0s+fKqIOIQi15vC6kpLxZxEBVtLoY4vcmhoK7rrOe8w8v7QdRyha1PT5NdLs//9ujWFdI7qN6r1g5mRiXoTt+bc6/lh+gOzpkPT7w8Ktw9PsPNkL7s57P5q4C89fPljnYE8RSfat3JzlaC9FLZDT/TaRUsFc5lpHVBr46amPztvz+YDvyrPfzK3oXp44vh7h6fDuET1WXJtrWFR1w6cwwLUt/9W2Rj1xoa7t0TPN2go+VtIpljlN+XdUqL1ddbrqvy62Tfj15uys9J/2nscR3S2l8GlO84JT3znvYOO8W50dIdBKmC++TmDSdi04YTdY7yazTAHb4qKn2dkTW6Y3wCGnt2sQhDtr8ag9e20mV7smcbchWwmPwnx3W0jSnapZsJqVco0xZ68/8rE96/mwqBVbsoY1T5eTU2f+y0p90ui0D10Mj/bRmv51Uexp5vdWvYwML0NrUsOdU2PU/7IVqNek5qGf96/ifTV0t1copt+O/O+k35HfWh++D41NGn+HYztJ+azw2BnFIs65vBvz8t4H3gded7KkzHSHz+WJo9UW3Nboq3Iw7Rex7G+idLoM2ePnDpwHp6i07XfY03XLI7uP6XILo316//OnDzYMPb1+6+Oh3Rzj95vBvHGzEBgplbmRzdHJlYW0KZW5kb2JqCjExIDAgb2JqCjM5MDAKZW5kb2JqCjE3IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggODggPj4Kc3RyZWFtCnicPY25EcAwCARzqqAEgXikfjyO5P5Tn/ATADvs3Fy6cmNNrFTHTD6EJGbhRRqjaJFKY+sN5Pg9FBqv/cKwo/N2Nqyuo6FbgmTaR8htV73rr1t03skLG84KZW5kc3RyZWFtCmVuZG9iagoxOCAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDMyNSA+PgpzdHJlYW0KeJw1kstxBDEIRO+KohNwlfhKimdcPu3mf3W31j7BgIDmMR2FiWx8WaDjYPXEt420je14jziJmogu+EKEwwzP8HPwxVDHrXT/2GdY7+uZFwonkM5oG9bRGIs7zU4xSsfzoAoxJxYNv57BiXE2OziS1VYbuTXUqKjmgk8WOYupt3JKTqtNsI+huEFwLdlnxJrXS2XKKGejIjW9uJktJAenhB5Jk9rKD4fX+CfyGnkM184/+wH0GsYnTibv6xmBGMuN8mwZbEqEHcdKUnKQhLNhX4h7ywlLtNiyo8JBEeQTm62srnJLJdInxDe5nbNxCmD03YVUFnm1GKyPveSvtxkpZkU0yCC3MqSYS1l22s33cS0FUJA8Vx3vpitnKyPi6uQmFbw7teXcf7cJyjdtwh/Gqu9izCQ3X7ynQHHGP7Bn/PwCc0J2gQplbmRzdHJlYW0KZW5kb2JqCjE5IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMzI3ID4+CnN0cmVhbQp4nD2SS47EMAhE9zkFF2jJ/Pw5T0az6rn/th92ehZRoQBFUbhrSpPo8lKXHCrZm/zoFVPFzeTviYbENHE30MEp97WjCP4EuA5m7gzRSolBvXWJyvKRsfPX19OXB+/L22GwUXqWmFefkrEGC/J0dPEB5tza7n+V7yuTjiy9Sk9F70u9WJaoDzH7YvUp3MbmG9t6MJ5M8Ws2UauZU9baIroM1EVKN7HVC1DtUYHjXEdvFW0DEIE7QQeVCbVqbMFISLRF1i/MaUL3xP/tAbpf2sR17IPYtI1nfEUaQ9DduEdZw8wx6nxqc8Pa09km65TiTC7XsjhWCTRKy1hqS/Csel0UY4MZaKUQzdFqbGVodujrZXg/yAxvO4qxqKVKz543p+BcfezXFHrwPIsdwZuc2C3o55CsQgYtNmHqLF2v8Dnnff1+ACo9fUYKZW5kc3RyZWFtCmVuZG9iagoyMCAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDE1MiA+PgpzdHJlYW0KeJw9T8sRQyEIvFvFNsCMIILW8zI5mf6vAU08sbK4H/GBCmIWkFSHuMOt4sWFtaOr41OkHbQKi4PmBpa/ErGCvIHr1ukYPWabeIrnxhg6Y4awcMyRDFnaxTPuti9Fjg2Cu2FWoekplj7kemEbB1J6s7RdoaZwLqYiY4Zx22mfWyXSjtMvSv2ariK9w9SStYvGn31/Abz3NmcKZW5kc3RyZWFtCmVuZG9iagoyMSAwIG9iago8PCAvQkJveCBbIC0xMDE2IC0zNTEgMTY2MCAxMDY4IF0gL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAzMDMKL1N1YnR5cGUgL0Zvcm0gL1R5cGUgL1hPYmplY3QgPj4Kc3RyZWFtCnicPVJLrsQwCNvnFL5AJSB8kmO8M1Sa1czi3X/zTNs3qlRTEwwmHb9QCJ/7fX7GoYbDpPAZOh3hhfcw+480FjrbUUL3hkYQlejQNXEyM6FFtjHzRtY9GVtkDSp9XrE6YSIog1khHZaz4RxTtYPpG1WYxW4S5F0YTYMbsSbchbUtFGLPpLG/kdKfZUfC3iYIOlD1B+WqYyR5M61B3OtJcMRgx8VCnahsWgulCOOkG8FZCKRn3N/7Ao8+RDoUHDNid3WUtFbTidVjOddBrYWDhzRw1GPl4AJ8bSJNcgWNtM+VX8xkRXILiS5wOqI5p0n2b8g+PbdwdZhJ7wRni2u11W2M3lrKeHu3uNFSR7qzxbX8Etfg9fCWW6mXL+AdnqNnuv+H74/zHq/xM/4A05VvdQplbmRzdHJlYW0KZW5kb2JqCjE1IDAgb2JqCjw8IC9CYXNlRm9udCAvRGVqYVZ1U2Fucy1PYmxpcXVlIC9DaGFyUHJvY3MgMTYgMCBSCi9FbmNvZGluZyA8PCAvRGlmZmVyZW5jZXMgWyA3MiAvSCAxMDAgL2QgL2UgMTA2IC9qIF0gL1R5cGUgL0VuY29kaW5nID4+Ci9GaXJzdENoYXIgMCAvRm9udEJCb3ggWyAtMTAxNiAtMzUxIDE2NjAgMTA2OCBdIC9Gb250RGVzY3JpcHRvciAxNCAwIFIKL0ZvbnRNYXRyaXggWyAwLjAwMSAwIDAgMC4wMDEgMCAwIF0gL0xhc3RDaGFyIDI1NSAvTmFtZSAvRGVqYVZ1U2Fucy1PYmxpcXVlCi9TdWJ0eXBlIC9UeXBlMyAvVHlwZSAvRm9udCAvV2lkdGhzIDEzIDAgUiA+PgplbmRvYmoKMTQgMCBvYmoKPDwgL0FzY2VudCA5MjkgL0NhcEhlaWdodCAwIC9EZXNjZW50IC0yMzYgL0ZsYWdzIDk2Ci9Gb250QkJveCBbIC0xMDE2IC0zNTEgMTY2MCAxMDY4IF0gL0ZvbnROYW1lIC9EZWphVnVTYW5zLU9ibGlxdWUKL0l0YWxpY0FuZ2xlIDAgL01heFdpZHRoIDEzNTAgL1N0ZW1WIDAgL1R5cGUgL0ZvbnREZXNjcmlwdG9yIC9YSGVpZ2h0IDAgPj4KZW5kb2JqCjEzIDAgb2JqClsgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAKNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCAzMTggNDAxIDQ2MCA4MzggNjM2Cjk1MCA3ODAgMjc1IDM5MCAzOTAgNTAwIDgzOCAzMTggMzYxIDMxOCAzMzcgNjM2IDYzNiA2MzYgNjM2IDYzNiA2MzYgNjM2IDYzNgo2MzYgNjM2IDMzNyAzMzcgODM4IDgzOCA4MzggNTMxIDEwMDAgNjg0IDY4NiA2OTggNzcwIDYzMiA1NzUgNzc1IDc1MiAyOTUKMjk1IDY1NiA1NTcgODYzIDc0OCA3ODcgNjAzIDc4NyA2OTUgNjM1IDYxMSA3MzIgNjg0IDk4OSA2ODUgNjExIDY4NSAzOTAgMzM3CjM5MCA4MzggNTAwIDUwMCA2MTMgNjM1IDU1MCA2MzUgNjE1IDM1MiA2MzUgNjM0IDI3OCAyNzggNTc5IDI3OCA5NzQgNjM0IDYxMgo2MzUgNjM1IDQxMSA1MjEgMzkyIDYzNCA1OTIgODE4IDU5MiA1OTIgNTI1IDYzNiAzMzcgNjM2IDgzOCA2MDAgNjM2IDYwMCAzMTgKMzUyIDUxOCAxMDAwIDUwMCA1MDAgNTAwIDEzNTAgNjM1IDQwMCAxMDcwIDYwMCA2ODUgNjAwIDYwMCAzMTggMzE4IDUxOCA1MTgKNTkwIDUwMCAxMDAwIDUwMCAxMDAwIDUyMSA0MDAgMTAyOCA2MDAgNTI1IDYxMSAzMTggNDAxIDYzNiA2MzYgNjM2IDYzNiAzMzcKNTAwIDUwMCAxMDAwIDQ3MSA2MTcgODM4IDM2MSAxMDAwIDUwMCA1MDAgODM4IDQwMSA0MDEgNTAwIDYzNiA2MzYgMzE4IDUwMAo0MDEgNDcxIDYxNyA5NjkgOTY5IDk2OSA1MzEgNjg0IDY4NCA2ODQgNjg0IDY4NCA2ODQgOTc0IDY5OCA2MzIgNjMyIDYzMiA2MzIKMjk1IDI5NSAyOTUgMjk1IDc3NSA3NDggNzg3IDc4NyA3ODcgNzg3IDc4NyA4MzggNzg3IDczMiA3MzIgNzMyIDczMiA2MTEgNjA4CjYzMCA2MTMgNjEzIDYxMyA2MTMgNjEzIDYxMyA5OTUgNTUwIDYxNSA2MTUgNjE1IDYxNSAyNzggMjc4IDI3OCAyNzggNjEyIDYzNAo2MTIgNjEyIDYxMiA2MTIgNjEyIDgzOCA2MTIgNjM0IDYzNCA2MzQgNjM0IDU5MiA2MzUgNTkyIF0KZW5kb2JqCjE2IDAgb2JqCjw8IC9IIDE3IDAgUiAvZCAxOCAwIFIgL2UgMTkgMCBSIC9qIDIwIDAgUiA+PgplbmRvYmoKMjYgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCA4NyA+PgpzdHJlYW0KeJw9jrsRwDAIQ3umYATzCYZ9cqmc/duAP2nQQzpOuAk2DM/R7cLOgTdB7kUvsC5vgAohiyQZ+fbOxaJWmcWvpkXqhDRJnDdR6E6LSucD4/QOeD66dR16CmVuZHN0cmVhbQplbmRvYmoKMjcgMCBvYmoKPDwgL0JCb3ggWyAtMTAyMSAtNDYzIDE3OTQgMTIzMyBdIC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMjM3Ci9TdWJ0eXBlIC9Gb3JtIC9UeXBlIC9YT2JqZWN0ID4+CnN0cmVhbQp4nD1Ru3HFMAzrPQVG4Ef8aJ53lyrZvw0oOSl4gCkRBOSnLNGFn2eI4PtZ7v/IA5KtUG2EJzQVkQ3TwOdJEVhupCbcXtznhGyVI/biXCDCEO08CWmkCxY7GQveFz+Pqx5mrLlh/L4zmn1UdNVRHbx7DuNmTT9OlN3rzayOW5v7dO+uE4drSCaf9x+clEqnlyyDOku4sDaaGtbjvCjGWMw4/ieqsE2ytqMKwdIlSCrQgBhKEsaAxS3+IidaDgvamxtp653JTqo0ioYXowzeoPVGOIp0kXyYayuDsamYNr755CU36Ptnv5+vXwNrWusKZW5kc3RyZWFtCmVuZG9iagoyOCAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDMwNCA+PgpzdHJlYW0KeJw9kjuSwzAMQ3udghfIjPiT5PNkJ5X3/u0+MslWgEmJACgvdZmypjwgaSYJ/9Hh4WI75XfYns3MwLVELxPLKc+hK8TcRfmymY26sjrFqsMwnVv0qJyLhk2TmucqSxm3C57DtYnnln3EDzc0qAd1jUvCDd3VaFkKzXB1/zu9R9l3NTwXm1Tq1BePF1EV5vkhT6KH6UrifDwoIVx7MEYWEuRT0UCOs1yt8l5C9g63GrLCQWpJ57MnPNh1ek8ubhfNEA9kuVT4TlHs7dAzvuxKCT0StuFY7n07mrHpGps47H7vRtbKjK5oIX7IVyfrJWDcUyZFEmROtlhui9We7qEopnOGcxkg6tmKhlLmYlerfww7bywv2SzIlMwLMkanTZ44eMh+jZr0eZXneP0BbPNzOwplbmRzdHJlYW0KZW5kb2JqCjI5IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggNTQgPj4Kc3RyZWFtCnicMzY2VzBQMDQyV9A1MjZVMDI0UDA3M1FIMeSCMXPBLLBsDhdcIYQJks+Bq8zhSgMATJAPFQplbmRzdHJlYW0KZW5kb2JqCjMwIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggNzEgPj4Kc3RyZWFtCnicM7Y0UDBQsDBT0DU0NlQwsjRWMDczUEgx5AIKgVi5XDCxHDDLzBLEMjQ3Q2LpmhlCZZFYIONyuGAG58DMy+FKAwDxtBYjCmVuZHN0cmVhbQplbmRvYmoKMzEgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCA2NyA+PgpzdHJlYW0KeJwztjRQMFCwNFfQNTQ2VDA2MFEwNzNQSDHkgjFzwSywbA4XTB2EZQZiGBmaILHMgMaBJeEMkBk5cNNyuNIAzoMV0wplbmRzdHJlYW0KZW5kb2JqCjMyIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMjI3ID4+CnN0cmVhbQp4nDVPO7IDIQzrOYUukBmMbWDPs5lUL/dvn2SyDRL+SPL0REcmXubICKzZ8bYWGYgZ+BZT8a897cOE6j24hwjl4kKYYSScNeu4m6fjxb9d5TPWwbsNvmKWFwS2MJP1lcWZy3bBWBoncU6yG2PXRGxjXevpFNYRTCgDIZ3tMCXIHBUpfbKjjDk6TuSJ52KqxS6/72F9waYxosIcVwVP0GRQlj3vJqAdF/Tf1Y3fSTSLXgIykWBhnSTmzllO+NVrR8dRiyIxJ6QZ5DIR0pyuYgqhCcU6OwoqFQWX6nPK3T7/aF1bTQplbmRzdHJlYW0KZW5kb2JqCjMzIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMjQ1ID4+CnN0cmVhbQp4nEVQu41DMQzrPQUXCGD9LHued0iV2789SkZwhSFaP5JaEpiIwEsMsZRv4kdGQT0LvxeF4jPEzxeFQc6EpECc9RkQmXiG2kZu6HZwzrzDM4w5AhfFWnCm05n2XNjknAcnEM5tlPGMQrpJVBVxVJ9xTPGqss+N14GltWyz05HsIY2ES0klJpd+Uyr/tClbKujaRROwSOSBk0004Sw/Q5JizKCUUfcwtY70cbKRR3XQydmcOS2Z2e6n7Ux8D1gmmVHlKZ3nMj4nqfNcTn3usx3R5KKlVfuc/d6RlvIitduh1elXJVGZjdWnkLg8/4yf8f4DjqBZPgplbmRzdHJlYW0KZW5kb2JqCjM0IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMzkyID4+CnN0cmVhbQp4nD1SS24FMQjbzym4QKXwTXKeqd7u3X9bm8xUqgovA7YxlJcMqSU/6pKIM0x+9XJd4lHyvWxqZ+Yh7i42pvhYcl+6hthy0ZpisU8cyS/ItFRYoVbdo0PxhSgTDwAt4IEF4b4c//EXqMHXsIVyw3tkAmBK1G5AxkPRGUhZQRFh+5EV6KRQr2zh7yggV9SshaF0YogNlgApvqsNiZio2aCHhJWSqh3S8Yyk8FvBXYlhUFtb2wR4ZtAQ2d6RjREz7dEZcVkRaz896aNRMrVRGQ9NZ3zx3TJS89EV6KTSyN3KQ2fPQidgJOZJmOdwI+Ge20ELMfRxr5ZPbPeYKVaR8AU7ygEDvf3eko3Pe+AsjFzb7Ewn8NFppxwTrb4eYv2DP2xLm1zHK4dFFKi8KAh+10ETcXxYxfdko0R3tAHWIxPVaCUQDBLCzu0w8njGedneFbTm9ERoo0Qe1I4RPSiyxeWcFbCn/KzNsRyeDyZ7b7SPlMzMqIQV1HZ6qLbPYx3Ud577+vwBLgChGQplbmRzdHJlYW0KZW5kb2JqCjM1IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMTMzID4+CnN0cmVhbQp4nE2PQRLDMAgD736FnoCxAfOedHpK/n8tkDbuBe2MgJGGMAg8YgzrMCW8evvhVaRLcDaO+SUZRTwIagvcF1QFR2OKnfjY3aHspeLpFE2L6xFz07SkdDdRKm29ncj4wH2f3h9VtiSdgh5b6oQu0STyRQJz2FQwz+rGS0uPp+3Z3h9mPjPXCmVuZHN0cmVhbQplbmRvYmoKMzYgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAyNDcgPj4Kc3RyZWFtCnicTVG7bUQxDOvfFFzgAOtreZ4LUl32b0PJCJDCIKEvKaclFvbGSwzhB1sPvuSRVUN/Hj8x7DMsPcnk1D/muclUFL4VqpuYUBdi4f1oBLwWdC8iK8oH349lDHPO9+CjEJdgJjRgrG9JJhfVvDNkwomhjsNBm1QYd00ULK4VzTPI7VY3sjqzIGx4JRPixgBEBNkXkM1go4yxlZDFch6oCpIFWmDX6RtRi4IrlNYJdKLWxLrM4Kvn9nY3Qy/y4Ki6eH0M60uwwuileyx8rkIfzPRMO3dJI73wphMRZg8FUpmdkZU6PWJ9t0D/n2Ur+PvJz/P9CxUoXCoKZW5kc3RyZWFtCmVuZG9iagozNyAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDkwID4+CnN0cmVhbQp4nE2NQRLAIAgD77wiT1BE0P90etL/X6vUDr3ATgKJFkWC9DVqSzDuuDIVa1ApmJSXwFUwXAva7qLK/jJJTJ2G03u3A4Oy8XGD0kn79nF6AKv9egbdD9IcIlgKZW5kc3RyZWFtCmVuZG9iagozOCAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDMzOCA+PgpzdHJlYW0KeJxFUktyxTAI2+cUXCAz5mfj87xOV+n9t5VwOt089AwICTI9ZUim3DaWZITkHPKlV2SI1ZCfRo5ExBDfKaHArvK5vJbEXMhuiUrxoR0/l6U3Ms2u0Kq3R6c2i0Y1KyPnIEOEelbozO5R22TD63Yh6TpTFodwLP9DBbKUdcoplARtQd/YI+hvFjwR3Aaz5nKzuUxu9b/uWwue1zpbsW0HQAmWc95gBgDEwwnaAMTc2t4WKSgfVbqKScKt8lwnO1C20Kp0vDeAGQcYOWDDkq0O12hvAMM+D/SiRsX2FaCoLCD+ztlmwd4xyUiwJ+YGTj1xOsWRcEk4xgJAiq3iFLrxHdjiLxeuiJrwCXU6ZU28wp7a4sdCkwjvUnEC8CIbbl0dRbVsT+cJtD8qkjNipB7E0QmR1JLOERSXBvXQGvu4iRmvjcTmnr7dP8I5n+v7Fxa4g+AKZW5kc3RyZWFtCmVuZG9iagozOSAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDY4ID4+CnN0cmVhbQp4nDMyt1AwULA0ARKGFiYK5mYGCimGXEC+qYm5Qi4XSAzEygGzDIC0JZyCiFtCNEGUglgQpWYmZhBJOAMilwYAybQV5QplbmRzdHJlYW0KZW5kb2JqCjQwIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggNDUgPj4Kc3RyZWFtCnicMzK3UDBQsDQBEoYWJgrmZgYKKYZclhBWLhdMLAfMAtGWcAoingYAn30MtQplbmRzdHJlYW0KZW5kb2JqCjQxIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMTYxID4+CnN0cmVhbQp4nEWQSxLDIAxD95xCR/BHBnyedLpK77+tIU2zgKexQAZ3JwSptQUT0QUvbUu6Cz5bCc7GeOg2bjUS5AR1gFak42iUUn25xWmVdPFoNnMrC60THWYOepSjGaAQOhXe7aLkcqbuzvlHcPVf9Uex7pzNxMBk5Q6EZvUp7nybHVFd3WR/0mNu1mt/FfaqsLSspeWE285dM6AE7qkc7f0FqXM6hAplbmRzdHJlYW0KZW5kb2JqCjQyIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMjE0ID4+CnN0cmVhbQp4nD1QuxFDMQjrPQUL5M587TfPy6XL/m0knKRCNkISlJpMyZSHOsqSrClPHT5LYoe8h+VuZDYlKkUvk7Al99AK8X2J5hT33dWWs0M0l2g5fgszKqobHdNLNppwKhO6oNzDM/oNbXQDVocesVsg0KRg17YgcscPGAzBmROLIgxKTQb/rXL3UtzvPRxvooiUdPCu+eX0y88tvE49jkS6vfmKa3GmOgpEcEZq8op0YcWyyEOk1QQ1PQNrtQCu3nr5N2hHdBmA7BOJ4zSlHEP/1rjH6wOHilL0CmVuZHN0cmVhbQplbmRvYmoKNDMgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCA4MCA+PgpzdHJlYW0KeJxFjLsNwDAIRHumYAR+JmafKJWzfxsgStxwT7p7uDoSMlPeYYaHBJ4MLIZT8QaZo2A1uEZSjZ3so7BuX3WB5npTq/X3BypPdnZxPc3LGfQKZW5kc3RyZWFtCmVuZG9iago0NCAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDIzNiA+PgpzdHJlYW0KeJxNUEtuRCEM23OKXOBJJCEBzkPVVef+27HDVO0qhhh/SA/pslUe61NidYns8qVNl8oyeRWo5U/b/1EMAm7/0MhBtLeMnWLmEtbFwiQ85TQjGyfXLB+PO08bZoXGxI3jnS4ZYJ8WATVblc2BOW06N0C6kBq3qrPeZFAMIupCzQeTLpyn0ZeIOZ6oYEp3JrWQG1w+1aEDcVq9Crlji5NvxBxZocBh0Exx1l8B1qjJslnIIEmGIc59o3uUCo2oynkrFcIPk6ER9YbVoAaVuYWiqeWS/B3aAjAFtox16QxKgaoAwd8qp32/ASSNXVMKZW5kc3RyZWFtCmVuZG9iago0NSAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDE0NyA+PgpzdHJlYW0KeJw9T7kNAzEM6z0FFzjAeixb81yQ6rJ/G8pGUggiQPGRZUfHClxiApOOORIvaT/4aRqBWAY1R/SEimFY4G6SAg+DLEpXni1eDJHaQl1I+NYQ3q1MZKI8rxE7cCcXowc+VBtZHnpAO0QVWa5Jw1jVVl1qnbACHLLOwnU9zKoE5dEnaykfUFRCvXT/n3va+wsAby/rCmVuZHN0cmVhbQplbmRvYmoKNDYgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAxNDkgPj4Kc3RyZWFtCnicNY9LDgMhDEP3OYUvMFJ+hHAeqq6m9982YVoJCQvbL8EWg5GMS0xg7Jhj4SVUT60+JCOPukk5EKlQNwRPaEwMM2zSJfDKdN8ynlu8nFbqgk5I5OmsNhqijGZew9FTzgqb/svcJGplRpkDMutUtxOysmAF5gW1PPcz7qhc6ISHncqw6E4xotxmRhp+/9v0/gJ7MjBjCmVuZHN0cmVhbQplbmRvYmoKNDcgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCA0OSA+PgpzdHJlYW0KeJwzNrRQMFAwNDAHkkaGQJaRiUKKIRdIAMTM5YIJ5oBZBkAaojgHriaHKw0AxugNJgplbmRzdHJlYW0KZW5kb2JqCjQ4IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMTU3ID4+CnN0cmVhbQp4nEWQuRFDMQhEc1VBCRKwCOqxx9F3/6kX+Uq0bwAth68lU6ofJyKm3Ndo9DB5Dp9NJVYs2Ca2kxpyGxZBSjGYeE4xq6O3oZmH1Ou4qKq4dWaV02nLysV/82hXM5M9wjXqJ/BN6PifPLSp6FugrwuUfUC1OJ1JUDF9r2KBo5x2fyKcGOA+GUeZKSNxYm4K7PcZAGa+V7jG4wXdATd5CmVuZHN0cmVhbQplbmRvYmoKNDkgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAzMzIgPj4Kc3RyZWFtCnicLVI5jiQxDMv9Cn5gAOvy8Z4eTNT7/3RJVQUFqmzLPORyw0QlfiyQ21Fr4tdGZqDC8K+rzIXvSNvIOohryEVcyZbCZ0Qs5DHEPMSC79v4GR75rMzJswfGL9n3GVbsqQnLQsaLM7TDKo7DKsixYOsiqnt4U6TDqSTY44v/PsVzF4IWviNowC/556sjeL6kRdo9Ztu0Ww+WaUeVFJaD7WnOy+RL6yxXx+P5INneFTtCaleAojB3xnkujjJtZURrYWeDpMbF9ubYj6UEXejGZaQ4AvmZKsIDSprMbKIg/sjpIacyEKau6Uont1EVd+rJXLO5vJ1JMlv3RYrNFM7rwpn1d5gyq807eZYTpU5F+Bl7tgQNnePq2WuZhUa3OcErJXw2dnpy8r2aWQ/JqUhIFdO6Ck6jyBRL2Jb4moqa0tTL8N+X9xl//wEz4nwBCmVuZHN0cmVhbQplbmRvYmoKNTAgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAzMTcgPj4Kc3RyZWFtCnicNVJLckMxCNu/U3CBzpi/fZ50smruv62EJyuwLUBCLi9Z0kt+1CXbpcPkVx/3JbFCPo/tmsxSxfcWsxTPLa9HzxG3LQoEURM9+DInFSLUz9ToOnhhlz4DrxBOKRZ4B5MABq/hX3iUToPAOxsy3hGTkRoQJMGaS4tNSJQ9Sfwr5fWklTR0fiYrc/l7cqkUaqPJCBUgWLnYB6QrKR4kEz2JSLJyvTdWiN6QV5LHZyUmGRDdJrFNtMDj3JW0hJmYQgXmWIDVdLO6+hxMWOOwhPEqYRbVg02eNamEZrSOY2TDePfCTImFhsMSUJt9lQmql4/T3AkjpkdNdu3Csls27yFEo/kzLJTBxygkAYdOYyQK0rCAEYE5vbCKveYLORbAiGWdmiwMbWglu3qOhcDQnLOlYcbXntfz/gdFW3ujCmVuZHN0cmVhbQplbmRvYmoKNTEgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCA1MiA+PgpzdHJlYW0KeJwzNjZXMABCXUsjBWMg29zIUiHFkMvI1ATMzOWCCeZwWRiDVeVwGUBpmKIcrjQA36oNrQplbmRzdHJlYW0KZW5kb2JqCjUyIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMTcgPj4Kc3RyZWFtCnicMza0UDCAwxRDLgAalALsCmVuZHN0cmVhbQplbmRvYmoKNTMgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAxMzEgPj4Kc3RyZWFtCnicRY/LDQQhDEPvVOES8hk+qYfVntj+r+swmkFC+EEiO/EwCKzz8jbQxfDRosM3/jbVq2OVLB+6elJWD+mQh7zyFVBpMFHEhVlMHUNhzpjKyJYytxvhtk2DrGyVVK2DdjwGD7anZasIfqltYeos8QzCVV64xw0/kEutd71Vvn9CUzCXCmVuZHN0cmVhbQplbmRvYmoKNTQgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAzMzggPj4Kc3RyZWFtCnicNVI5rt1ADOt9Cl0ggHbNnOcFqX7u34aUXwpDtFaKmo4WlWn5ZSFVLZMuv+1JbYkb8vfJCokTklcl2qUMkVD5PIVUv2fLvL7WnBEgS5UKk5OSxyUL/gyX3i4c52NrP48jdz16YFWMhBIByxQTo2tZOrvDmo38PKYBP+IRcq5YtxxjFUgNunHaFe9D83nIGiBmmJaKCl1WiRZ+QfGgR61991hUWCDR7RxJcIyNUJGAdoHaSAw5sxa7qC/6WZSYCXTtiyLuosASScycYl06+g8+dCyovzbjy6+OSvpIK2tM2nejSWnMIpOul0VvN299PbhA8y7Kf17NIEFT1ihpfNCqnWMomhllhXccmgw0xxyHzBM8hzMSlPR9KH5fSya6KJE/Dg2hf18eo4ycBm8Bc9GftooDF/HZYa8cYIXSxZrkfUAqE3pg+v/X+Hn+/AMctoBUCmVuZHN0cmVhbQplbmRvYmoKNTUgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAyNDggPj4Kc3RyZWFtCnicLVE5kgNBCMvnFXpCc9PvscuR9//pCsoBg4ZDIDotcVDGTxCWK97yyFW04e+ZGMF3waHfynUbFjkQFUjSGFRNqF28Hr0HdhxmAvOkNSyDGesDP2MKN3pxeEzG2e11GTUEe9drT2ZQMisXccnEBVN12MiZw0+mjAvtXM8NyLkR1mUYpJuVxoyEI00hUkih6iapM0GQBKOrUaONHMV+6csjnWFVI2oM+1xL29dzE84aNDsWqzw5pUdXnMvJxQsrB/28zcBFVBqrPBAScL/bQ/2c7OQ33tK5s8X0+F5zsrwwFVjx5rUbkE21+Dcv4vg94+v5/AOopVsWCmVuZHN0cmVhbQplbmRvYmoKNTYgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAxNzEgPj4Kc3RyZWFtCnicTZBNDkIhEIP3nKIXMKHzA4/zaFzp/bd28PnigvRLIUOnwwMdR+JGR4bO6HiwyTEOvAsyJl6N85+M6ySOCeoVbcG6tDvuzSwxJywTI2BrlNybRxT44ZgLQYLs8sMXGESka5hvNZ91k35+u9Nd1KV199MjCpzIjlAMG3AF2NM9DtwSzu+aJr9UKRmbOJQPVBeRstkJhailYpdTVWiM4lY974te7fkBwfY7+wplbmRzdHJlYW0KZW5kb2JqCjU3IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMjEwID4+CnN0cmVhbQp4nDVQyw1DMQi7ZwoWqBQCgWSeVr11/2tt0DthEf9CWMiUCHmpyc4p6Us+OkwPti6/sSILrXUl7MqaIJ4r76GZsrHR2OJgcBomXoAWN2DoaY0aNXThgqYulUKBxSXwmXx1e+i+Txl4ahlydgQRQ8lgCWq6Fk1YtDyfkE4B4v9+w+4t5KGS88qeG/kbnO3wO7Nu4SdqdiLRchUy1LM0xxgIE0UePHlFpnDis9Z31TQS1GYLTpYBrk4/jA4AYCJeWYDsrkQ5S9KOpZ9vvMf3D0AAU7QKZW5kc3RyZWFtCmVuZG9iagoyNCAwIG9iago8PCAvQmFzZUZvbnQgL0RlamFWdVNhbnMgL0NoYXJQcm9jcyAyNSAwIFIKL0VuY29kaW5nIDw8Ci9EaWZmZXJlbmNlcyBbIDMyIC9zcGFjZSA0MCAvcGFyZW5sZWZ0IC9wYXJlbnJpZ2h0IDQ2IC9wZXJpb2QgL3NsYXNoIC96ZXJvIC9vbmUgL3R3bwovdGhyZWUgL2ZvdXIgL2ZpdmUgL3NpeCA1NiAvZWlnaHQgNzcgL00gOTEgL2JyYWNrZXRsZWZ0IDkzIC9icmFja2V0cmlnaHQgOTcKL2EgMTAwIC9kIC9lIC9mIC9nIDEwNSAvaSAxMDggL2wgMTEwIC9uIC9vIC9wIDExNCAvciAvcyAvdCAvdSAxMjQgL2JhciBdCi9UeXBlIC9FbmNvZGluZyA+PgovRmlyc3RDaGFyIDAgL0ZvbnRCQm94IFsgLTEwMjEgLTQ2MyAxNzk0IDEyMzMgXSAvRm9udERlc2NyaXB0b3IgMjMgMCBSCi9Gb250TWF0cml4IFsgMC4wMDEgMCAwIDAuMDAxIDAgMCBdIC9MYXN0Q2hhciAyNTUgL05hbWUgL0RlamFWdVNhbnMKL1N1YnR5cGUgL1R5cGUzIC9UeXBlIC9Gb250IC9XaWR0aHMgMjIgMCBSID4+CmVuZG9iagoyMyAwIG9iago8PCAvQXNjZW50IDkyOSAvQ2FwSGVpZ2h0IDAgL0Rlc2NlbnQgLTIzNiAvRmxhZ3MgMzIKL0ZvbnRCQm94IFsgLTEwMjEgLTQ2MyAxNzk0IDEyMzMgXSAvRm9udE5hbWUgL0RlamFWdVNhbnMgL0l0YWxpY0FuZ2xlIDAKL01heFdpZHRoIDEzNDIgL1N0ZW1WIDAgL1R5cGUgL0ZvbnREZXNjcmlwdG9yIC9YSGVpZ2h0IDAgPj4KZW5kb2JqCjIyIDAgb2JqClsgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAKNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCAzMTggNDAxIDQ2MCA4MzggNjM2Cjk1MCA3ODAgMjc1IDM5MCAzOTAgNTAwIDgzOCAzMTggMzYxIDMxOCAzMzcgNjM2IDYzNiA2MzYgNjM2IDYzNiA2MzYgNjM2IDYzNgo2MzYgNjM2IDMzNyAzMzcgODM4IDgzOCA4MzggNTMxIDEwMDAgNjg0IDY4NiA2OTggNzcwIDYzMiA1NzUgNzc1IDc1MiAyOTUKMjk1IDY1NiA1NTcgODYzIDc0OCA3ODcgNjAzIDc4NyA2OTUgNjM1IDYxMSA3MzIgNjg0IDk4OSA2ODUgNjExIDY4NSAzOTAgMzM3CjM5MCA4MzggNTAwIDUwMCA2MTMgNjM1IDU1MCA2MzUgNjE1IDM1MiA2MzUgNjM0IDI3OCAyNzggNTc5IDI3OCA5NzQgNjM0IDYxMgo2MzUgNjM1IDQxMSA1MjEgMzkyIDYzNCA1OTIgODE4IDU5MiA1OTIgNTI1IDYzNiAzMzcgNjM2IDgzOCA2MDAgNjM2IDYwMCAzMTgKMzUyIDUxOCAxMDAwIDUwMCA1MDAgNTAwIDEzNDIgNjM1IDQwMCAxMDcwIDYwMCA2ODUgNjAwIDYwMCAzMTggMzE4IDUxOCA1MTgKNTkwIDUwMCAxMDAwIDUwMCAxMDAwIDUyMSA0MDAgMTAyMyA2MDAgNTI1IDYxMSAzMTggNDAxIDYzNiA2MzYgNjM2IDYzNiAzMzcKNTAwIDUwMCAxMDAwIDQ3MSA2MTIgODM4IDM2MSAxMDAwIDUwMCA1MDAgODM4IDQwMSA0MDEgNTAwIDYzNiA2MzYgMzE4IDUwMAo0MDEgNDcxIDYxMiA5NjkgOTY5IDk2OSA1MzEgNjg0IDY4NCA2ODQgNjg0IDY4NCA2ODQgOTc0IDY5OCA2MzIgNjMyIDYzMiA2MzIKMjk1IDI5NSAyOTUgMjk1IDc3NSA3NDggNzg3IDc4NyA3ODcgNzg3IDc4NyA4MzggNzg3IDczMiA3MzIgNzMyIDczMiA2MTEgNjA1CjYzMCA2MTMgNjEzIDYxMyA2MTMgNjEzIDYxMyA5ODIgNTUwIDYxNSA2MTUgNjE1IDYxNSAyNzggMjc4IDI3OCAyNzggNjEyIDYzNAo2MTIgNjEyIDYxMiA2MTIgNjEyIDgzOCA2MTIgNjM0IDYzNCA2MzQgNjM0IDU5MiA2MzUgNTkyIF0KZW5kb2JqCjI1IDAgb2JqCjw8IC9NIDI2IDAgUiAvYSAyOCAwIFIgL2JhciAyOSAwIFIgL2JyYWNrZXRsZWZ0IDMwIDAgUgovYnJhY2tldHJpZ2h0IDMxIDAgUiAvZCAzMiAwIFIgL2UgMzMgMCBSIC9laWdodCAzNCAwIFIgL2YgMzUgMCBSCi9maXZlIDM2IDAgUiAvZm91ciAzNyAwIFIgL2cgMzggMCBSIC9pIDM5IDAgUiAvbCA0MCAwIFIgL24gNDEgMCBSIC9vIDQyIDAgUgovb25lIDQzIDAgUiAvcCA0NCAwIFIgL3BhcmVubGVmdCA0NSAwIFIgL3BhcmVucmlnaHQgNDYgMCBSIC9wZXJpb2QgNDcgMCBSCi9yIDQ4IDAgUiAvcyA0OSAwIFIgL3NpeCA1MCAwIFIgL3NsYXNoIDUxIDAgUiAvc3BhY2UgNTIgMCBSIC90IDUzIDAgUgovdGhyZWUgNTQgMCBSIC90d28gNTUgMCBSIC91IDU2IDAgUiAvemVybyA1NyAwIFIgPj4KZW5kb2JqCjMgMCBvYmoKPDwgL0YxIDI0IDAgUiAvRjIgMTUgMCBSID4+CmVuZG9iago0IDAgb2JqCjw8IC9BMSA8PCAvQ0EgMCAvVHlwZSAvRXh0R1N0YXRlIC9jYSAxID4+Ci9BMiA8PCAvQ0EgMSAvVHlwZSAvRXh0R1N0YXRlIC9jYSAxID4+Ci9BMyA8PCAvQ0EgMC44IC9UeXBlIC9FeHRHU3RhdGUgL2NhIDAuOCA+PiA+PgplbmRvYmoKNSAwIG9iago8PCA+PgplbmRvYmoKNiAwIG9iago8PCA+PgplbmRvYmoKNyAwIG9iago8PCAvRGVqYVZ1U2Fucy1PYmxpcXVlLXVuaTAzQkMgMjEgMCBSIC9EZWphVnVTYW5zLU9tZWdhIDI3IDAgUiAvTTAgMTIgMCBSCj4+CmVuZG9iagoxMiAwIG9iago8PCAvQkJveCBbIC0zLjUgLTMuNSAzLjUgMy41IF0gL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAxMzEKL1N1YnR5cGUgL0Zvcm0gL1R5cGUgL1hPYmplY3QgPj4Kc3RyZWFtCnicbZBBDoQgDEX3PUUv8ElLRWXr0mu4mUzi/bcDcUBM3TTQvjx+Uf6S8E6lwPgkCUtOs+R605DSukyMGObVsijHoFEt1s51OKjP0HBjdIuxFKbU1uh4o5vpNt6TP/qwWSFGPxwOr4R7FkMmXCkxBoffCy/bw/8Rnl7UwB+ijX5jWkP9CmVuZHN0cmVhbQplbmRvYmoKMiAwIG9iago8PCAvQ291bnQgMSAvS2lkcyBbIDEwIDAgUiBdIC9UeXBlIC9QYWdlcyA+PgplbmRvYmoKNTggMCBvYmoKPDwgL0NyZWF0aW9uRGF0ZSAoRDoyMDIwMDEyODE3MTcwOSswMicwMCcpCi9DcmVhdG9yIChtYXRwbG90bGliIDMuMS4xLCBodHRwOi8vbWF0cGxvdGxpYi5vcmcpCi9Qcm9kdWNlciAobWF0cGxvdGxpYiBwZGYgYmFja2VuZCAzLjEuMSkgPj4KZW5kb2JqCnhyZWYKMCA1OQowMDAwMDAwMDAwIDY1NTM1IGYgCjAwMDAwMDAwMTYgMDAwMDAgbiAKMDAwMDAxODQyMCAwMDAwMCBuIAowMDAwMDE3ODM5IDAwMDAwIG4gCjAwMDAwMTc4ODIgMDAwMDAgbiAKMDAwMDAxODAyNCAwMDAwMCBuIAowMDAwMDE4MDQ1IDAwMDAwIG4gCjAwMDAwMTgwNjYgMDAwMDAgbiAKMDAwMDAwMDA2NSAwMDAwMCBuIAowMDAwMDAwMzk3IDAwMDAwIG4gCjAwMDAwMDAyMDggMDAwMDAgbiAKMDAwMDAwNDM3MiAwMDAwMCBuIAowMDAwMDE4MTU4IDAwMDAwIG4gCjAwMDAwMDY1NTMgMDAwMDAgbiAKMDAwMDAwNjM0NSAwMDAwMCBuIAowMDAwMDA2MDEzIDAwMDAwIG4gCjAwMDAwMDc2MDYgMDAwMDAgbiAKMDAwMDAwNDM5MyAwMDAwMCBuIAowMDAwMDA0NTUzIDAwMDAwIG4gCjAwMDAwMDQ5NTEgMDAwMDAgbiAKMDAwMDAwNTM1MSAwMDAwMCBuIAowMDAwMDA1NTc2IDAwMDAwIG4gCjAwMDAwMTYzNzggMDAwMDAgbiAKMDAwMDAxNjE3OCAwMDAwMCBuIAowMDAwMDE1NjY4IDAwMDAwIG4gCjAwMDAwMTc0MzEgMDAwMDAgbiAKMDAwMDAwNzY2OCAwMDAwMCBuIAowMDAwMDA3ODI3IDAwMDAwIG4gCjAwMDAwMDgxOTggMDAwMDAgbiAKMDAwMDAwODU3NSAwMDAwMCBuIAowMDAwMDA4NzAxIDAwMDAwIG4gCjAwMDAwMDg4NDQgMDAwMDAgbiAKMDAwMDAwODk4MyAwMDAwMCBuIAowMDAwMDA5MjgzIDAwMDAwIG4gCjAwMDAwMDk2MDEgMDAwMDAgbiAKMDAwMDAxMDA2NiAwMDAwMCBuIAowMDAwMDEwMjcyIDAwMDAwIG4gCjAwMDAwMTA1OTIgMDAwMDAgbiAKMDAwMDAxMDc1NCAwMDAwMCBuIAowMDAwMDExMTY1IDAwMDAwIG4gCjAwMDAwMTEzMDUgMDAwMDAgbiAKMDAwMDAxMTQyMiAwMDAwMCBuIAowMDAwMDExNjU2IDAwMDAwIG4gCjAwMDAwMTE5NDMgMDAwMDAgbiAKMDAwMDAxMjA5NSAwMDAwMCBuIAowMDAwMDEyNDA0IDAwMDAwIG4gCjAwMDAwMTI2MjQgMDAwMDAgbiAKMDAwMDAxMjg0NiAwMDAwMCBuIAowMDAwMDEyOTY3IDAwMDAwIG4gCjAwMDAwMTMxOTcgMDAwMDAgbiAKMDAwMDAxMzYwMiAwMDAwMCBuIAowMDAwMDEzOTkyIDAwMDAwIG4gCjAwMDAwMTQxMTYgMDAwMDAgbiAKMDAwMDAxNDIwNSAwMDAwMCBuIAowMDAwMDE0NDA5IDAwMDAwIG4gCjAwMDAwMTQ4MjAgMDAwMDAgbiAKMDAwMDAxNTE0MSAwMDAwMCBuIAowMDAwMDE1Mzg1IDAwMDAwIG4gCjAwMDAwMTg0ODAgMDAwMDAgbiAKdHJhaWxlcgo8PCAvSW5mbyA1OCAwIFIgL1Jvb3QgMSAwIFIgL1NpemUgNTkgPj4Kc3RhcnR4cmVmCjE4NjM0CiUlRU9GCg==\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"application/pdf": "JVBERi0xLjQKJazcIKu6CjEgMCBvYmoKPDwgL1BhZ2VzIDIgMCBSIC9UeXBlIC9DYXRhbG9nID4+CmVuZG9iago4IDAgb2JqCjw8IC9FeHRHU3RhdGUgNCAwIFIgL0ZvbnQgMyAwIFIgL1BhdHRlcm4gNSAwIFIKL1Byb2NTZXQgWyAvUERGIC9UZXh0IC9JbWFnZUIgL0ltYWdlQyAvSW1hZ2VJIF0gL1NoYWRpbmcgNiAwIFIKL1hPYmplY3QgNyAwIFIgPj4KZW5kb2JqCjEwIDAgb2JqCjw8IC9Bbm5vdHMgWyBdIC9Db250ZW50cyA5IDAgUgovR3JvdXAgPDwgL0NTIC9EZXZpY2VSR0IgL1MgL1RyYW5zcGFyZW5jeSAvVHlwZSAvR3JvdXAgPj4KL01lZGlhQm94IFsgMCAwIDYxNS40OTM3NSAyMjYuMTg4NzUgXSAvUGFyZW50IDIgMCBSIC9SZXNvdXJjZXMgOCAwIFIKL1R5cGUgL1BhZ2UgPj4KZW5kb2JqCjkgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAxMSAwIFIgPj4Kc3RyZWFtCnic1VjBUhxHDL3PV/TRPtBI6m5JfbTLiatySWxT8SHOgcCCoQAHE8e/n9czs2wPYG+yVSZlqK2dedvzRnrSqKXhcD5wOA0UzvH5HH4Lv+P7OHB4ic/pQDi7HJRLzDVZwdlFdyaikd1xdIGV/dn7YTgZ9p+B4gbXvByGQlHGa5LFktsBaMnvghcdKJSi64TeXt6D402uw33qUjywakwSPq7C23AV9p9JM0XCT3ALrkbfODtQ1Epclcwz/N5/sfr77Gj1+uXzcHQzWIlaLLn2lm/A3p7hzfAqXK/vRZD13r2aGO2XbbQpR5oFGZ4jQp+H5wdh/0cOTOHgZFCLRlmUkybYILGWcHA8PKFIT8PBefjhYLTk2yrDRWMmEVoEtUN31WYr8RZ1OHvMuZLVWhbilMcTR8DK2Uhy70OH7irOVuIt4ojUyDV59ZI0d/LwY+ZOYote2bP0XnTorvJsJd4iT6IaoY6xsYgv5HnE7EnVI55sVV54sUF3lmcb8TZ5Kuz2VFIxqtLJI4+ZPdlqTI58r70XHbqrPFuJt8iTjWMW6JOlFl3I84jZU5Qii0r13osO3VWercRb5ClFIhseRnHvkydtkucaV1HYI1iRpMwq1SjmLCUcXYJwaMtgIbWVdHsQdVoALc4Pf/305vDqZu/ny9XpYXjxYXjV/r+98Gt2g5+etdZFl7NB/6PsD9FmjXafdRK9ExEiS1BH/ppLRrtgk4hdVPCjeaUmH02lbszVUebhnsx3Jb48u/p08z9IzJxiKWasC407eEeRF8S3Ki95H5aZsXcYTMkseZ2sX9WZvgedS8aGSJbSUucNvKvOPfFG5wXvfZ0dUZgXcuSUvKAwsGwX+7vI6QpCujscbdBdle5oN0L3rA/t9Io45Gkldi/SNtiNbfSmVLeI7DUFMRFO6S8j41SmNZaqanW8ktC7t2CAYXOPJ++ejFFhNFfYMaeF403ePb0N1wOVfqK6W+v/uDi7/rTa+/P92RS6u1cyLqxOeWHPN9gw4Mwi8sjPoq4y3VXnP8OJUcFGmIrU8PpuUnTDYB8/wWZLrhl1KJfIcwAbiqknZQvoQCijBPEMC5MYYIq1mqa2SwiaONfSZAAHjlIqM1yx0WLAAolTrVXXsFfDoAnYShVpz2YS+Ik7UgrIKTVT9IMTrBmMqW1MirVlvdrIBBMH4GKMx7bBaAiSiqPxzBZzqs3UCc6CfkuCJWxdCR35GnY1meCUEIYGO/oHJ4w0AYOfFNaUZ5izIEyWMfGgPykzKtTKc0MzOpJmXkZ191I9e8gVuQJz6wxXYUPjh9W1mPsa9YQGeETJmEY4ZzhmybRxuLTdYoYhO0paQEQNI1parzZizG0jzDVrMy/jJJXWYbfMQ4hYZYYzu2GN4bFK7JPZDXZSxAlwdqbpXYlGsrbXB9TIhCF4dKbBDLErImMxZfCt0eqCwREofszUrMZsCEGSC4fWsykz5RmuXKxAVEf2FRutHmFkgI8wlVzHXChqLdTNF7R6lrLyjGpKGK6wFjMZ5qw1WosgbwEjyGNKFpe2GzDn0J44qFv0y/CyOLbHcSqM9OWK27exD71iAuUDb6kuv/CWCqv/9Xuufu2G4yvM1PyZCz4vyv3pbeWWccIvjkI3VjlBSZ4oWlH95f3hzSp8OAnHq5uz06vVcTg5u/hr9fF2Mhn+AaKePAQKZW5kc3RyZWFtCmVuZG9iagoxMSAwIG9iagoxMjYxCmVuZG9iagoxNiAwIG9iago8PCAvQkJveCBbIC0xMDE2IC0zNTEgMTY2MCAxMDY4IF0gL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAyODEKL1N1YnR5cGUgL0Zvcm0gL1R5cGUgL1hPYmplY3QgPj4Kc3RyZWFtCnicPZE5ckQxCAVznYILuEqsks4zVY7G90/d6I8daQEezWNEhcQK+RkRdm9hSyKnhG6J6fIani615T1830tHdpJUonpIiDNF40iqi02VRMJWl6Yf8eDHS/w4GSXh89YglEdi69P2A0JkoZQKUlreWxan8XtA20VOOVUxpVq/jpTZp2NNqKDLBZNyapDVsqUCX0yTL1VxX/d8DTtHvmwuBjSd/9fYN/4eup8KdW8BnfMRBEp5twv4AvoDcAwi/oz5vGPYunsugzHxyyBLPHGrOx0G0zZW97LNhKhbuxG4yIxBHdUzxNHR3ey0rvNpqBA0sxYTZ94MZUVEmIwSoxFra83qb8fK3iwLpUWyMMfYRvmz/jW+fwF7j2RQCmVuZHN0cmVhbQplbmRvYmoKMTQgMCBvYmoKPDwgL0Jhc2VGb250IC9EZWphVnVTYW5zLU9ibGlxdWUgL0NoYXJQcm9jcyAxNSAwIFIKL0VuY29kaW5nIDw8IC9EaWZmZXJlbmNlcyBbIF0gL1R5cGUgL0VuY29kaW5nID4+IC9GaXJzdENoYXIgMAovRm9udEJCb3ggWyAtMTAxNiAtMzUxIDE2NjAgMTA2OCBdIC9Gb250RGVzY3JpcHRvciAxMyAwIFIKL0ZvbnRNYXRyaXggWyAwLjAwMSAwIDAgMC4wMDEgMCAwIF0gL0xhc3RDaGFyIDI1NSAvTmFtZSAvRGVqYVZ1U2Fucy1PYmxpcXVlCi9TdWJ0eXBlIC9UeXBlMyAvVHlwZSAvRm9udCAvV2lkdGhzIDEyIDAgUiA+PgplbmRvYmoKMTMgMCBvYmoKPDwgL0FzY2VudCA5MjkgL0NhcEhlaWdodCAwIC9EZXNjZW50IC0yMzYgL0ZsYWdzIDk2Ci9Gb250QkJveCBbIC0xMDE2IC0zNTEgMTY2MCAxMDY4IF0gL0ZvbnROYW1lIC9EZWphVnVTYW5zLU9ibGlxdWUKL0l0YWxpY0FuZ2xlIDAgL01heFdpZHRoIDEzNTAgL1N0ZW1WIDAgL1R5cGUgL0ZvbnREZXNjcmlwdG9yIC9YSGVpZ2h0IDAgPj4KZW5kb2JqCjEyIDAgb2JqClsgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAKNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCAzMTggNDAxIDQ2MCA4MzggNjM2Cjk1MCA3ODAgMjc1IDM5MCAzOTAgNTAwIDgzOCAzMTggMzYxIDMxOCAzMzcgNjM2IDYzNiA2MzYgNjM2IDYzNiA2MzYgNjM2IDYzNgo2MzYgNjM2IDMzNyAzMzcgODM4IDgzOCA4MzggNTMxIDEwMDAgNjg0IDY4NiA2OTggNzcwIDYzMiA1NzUgNzc1IDc1MiAyOTUKMjk1IDY1NiA1NTcgODYzIDc0OCA3ODcgNjAzIDc4NyA2OTUgNjM1IDYxMSA3MzIgNjg0IDk4OSA2ODUgNjExIDY4NSAzOTAgMzM3CjM5MCA4MzggNTAwIDUwMCA2MTMgNjM1IDU1MCA2MzUgNjE1IDM1MiA2MzUgNjM0IDI3OCAyNzggNTc5IDI3OCA5NzQgNjM0IDYxMgo2MzUgNjM1IDQxMSA1MjEgMzkyIDYzNCA1OTIgODE4IDU5MiA1OTIgNTI1IDYzNiAzMzcgNjM2IDgzOCA2MDAgNjM2IDYwMCAzMTgKMzUyIDUxOCAxMDAwIDUwMCA1MDAgNTAwIDEzNTAgNjM1IDQwMCAxMDcwIDYwMCA2ODUgNjAwIDYwMCAzMTggMzE4IDUxOCA1MTgKNTkwIDUwMCAxMDAwIDUwMCAxMDAwIDUyMSA0MDAgMTAyOCA2MDAgNTI1IDYxMSAzMTggNDAxIDYzNiA2MzYgNjM2IDYzNiAzMzcKNTAwIDUwMCAxMDAwIDQ3MSA2MTcgODM4IDM2MSAxMDAwIDUwMCA1MDAgODM4IDQwMSA0MDEgNTAwIDYzNiA2MzYgMzE4IDUwMAo0MDEgNDcxIDYxNyA5NjkgOTY5IDk2OSA1MzEgNjg0IDY4NCA2ODQgNjg0IDY4NCA2ODQgOTc0IDY5OCA2MzIgNjMyIDYzMiA2MzIKMjk1IDI5NSAyOTUgMjk1IDc3NSA3NDggNzg3IDc4NyA3ODcgNzg3IDc4NyA4MzggNzg3IDczMiA3MzIgNzMyIDczMiA2MTEgNjA4CjYzMCA2MTMgNjEzIDYxMyA2MTMgNjEzIDYxMyA5OTUgNTUwIDYxNSA2MTUgNjE1IDYxNSAyNzggMjc4IDI3OCAyNzggNjEyIDYzNAo2MTIgNjEyIDYxMiA2MTIgNjEyIDgzOCA2MTIgNjM0IDYzNCA2MzQgNjM0IDU5MiA2MzUgNTkyIF0KZW5kb2JqCjE1IDAgb2JqCjw8ID4+CmVuZG9iagoyMSAwIG9iago8PCAvQkJveCBbIC0xMDIxIC00NjMgMTc5NCAxMjMzIF0gL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAyMzcKL1N1YnR5cGUgL0Zvcm0gL1R5cGUgL1hPYmplY3QgPj4Kc3RyZWFtCnicPVG7ccUwDOs9BUbgR/xonneXKtm/DSg5KXiAKREE5Kcs0YWfZ4jg+1nu/8gDkq1QbYQnNBWRDdPA50kRWG6kJtxe3OeEbJUj9uJcIMIQ7TwJaaQLFjsZC94XP4+rHmasuWH8vjOafVR01VEdvHsO42ZNP06U3evNrI5bm/t0764Th2tIJp/3H5yUSqeXLIM6S7iwNpoa1uO8KMZYzDj+J6qwTbK2owrB0iVIKtCAGEoSxoDFLf4iJ1oOC9qbG2nrnclOqjSKhhejDN6g9UY4inSRfJhrK4OxqZg2vvnkJTfo+2e/n69fA2ta6wplbmRzdHJlYW0KZW5kb2JqCjIyIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMTY1ID4+CnN0cmVhbQp4nEWPOxIDIQxDe06hI4B/wHk2k4q9fxvLO0kaLIwlP6IrOvbKw2NjysZrtLEnwhbuUjoNp6mMr4qnZ12gy2EyU29czVxgqrDIbk6x+hh8ofLs5oSvVZ4YwpdMCQ0wlTu5h/X6UZyWfCS7C4LqlI3KwjBH0vdATE2bp4WB/I8veWpBUJnmjWuWlUdrFVM0Z5gqWwuC9YGgOqX6A9P/TKe9P9z0PYAKZW5kc3RyZWFtCmVuZG9iagoyMyAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDMwNCA+PgpzdHJlYW0KeJw9kjuSwzAMQ3udghfIjPiT5PNkJ5X3/u0+MslWgEmJACgvdZmypjwgaSYJ/9Hh4WI75XfYns3MwLVELxPLKc+hK8TcRfmymY26sjrFqsMwnVv0qJyLhk2TmucqSxm3C57DtYnnln3EDzc0qAd1jUvCDd3VaFkKzXB1/zu9R9l3NTwXm1Tq1BePF1EV5vkhT6KH6UrifDwoIVx7MEYWEuRT0UCOs1yt8l5C9g63GrLCQWpJ57MnPNh1ek8ubhfNEA9kuVT4TlHs7dAzvuxKCT0StuFY7n07mrHpGps47H7vRtbKjK5oIX7IVyfrJWDcUyZFEmROtlhui9We7qEopnOGcxkg6tmKhlLmYlerfww7bywv2SzIlMwLMkanTZ44eMh+jZr0eZXneP0BbPNzOwplbmRzdHJlYW0KZW5kb2JqCjI0IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMjI3ID4+CnN0cmVhbQp4nDVPO7IDIQzrOYUukBmMbWDPs5lUL/dvn2SyDRL+SPL0REcmXubICKzZ8bYWGYgZ+BZT8a897cOE6j24hwjl4kKYYSScNeu4m6fjxb9d5TPWwbsNvmKWFwS2MJP1lcWZy3bBWBoncU6yG2PXRGxjXevpFNYRTCgDIZ3tMCXIHBUpfbKjjDk6TuSJ52KqxS6/72F9waYxosIcVwVP0GRQlj3vJqAdF/Tf1Y3fSTSLXgIykWBhnSTmzllO+NVrR8dRiyIxJ6QZ5DIR0pyuYgqhCcU6OwoqFQWX6nPK3T7/aF1bTQplbmRzdHJlYW0KZW5kb2JqCjI1IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMjQ1ID4+CnN0cmVhbQp4nEVQu41DMQzrPQUXCGD9LHued0iV2789SkZwhSFaP5JaEpiIwEsMsZRv4kdGQT0LvxeF4jPEzxeFQc6EpECc9RkQmXiG2kZu6HZwzrzDM4w5AhfFWnCm05n2XNjknAcnEM5tlPGMQrpJVBVxVJ9xTPGqss+N14GltWyz05HsIY2ES0klJpd+Uyr/tClbKujaRROwSOSBk0004Sw/Q5JizKCUUfcwtY70cbKRR3XQydmcOS2Z2e6n7Ux8D1gmmVHlKZ3nMj4nqfNcTn3usx3R5KKlVfuc/d6RlvIitduh1elXJVGZjdWnkLg8/4yf8f4DjqBZPgplbmRzdHJlYW0KZW5kb2JqCjI2IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMTMzID4+CnN0cmVhbQp4nE2PQRLDMAgD736FnoCxAfOedHpK/n8tkDbuBe2MgJGGMAg8YgzrMCW8evvhVaRLcDaO+SUZRTwIagvcF1QFR2OKnfjY3aHspeLpFE2L6xFz07SkdDdRKm29ncj4wH2f3h9VtiSdgh5b6oQu0STyRQJz2FQwz+rGS0uPp+3Z3h9mPjPXCmVuZHN0cmVhbQplbmRvYmoKMjcgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAyNDcgPj4Kc3RyZWFtCnicTVG7bUQxDOvfFFzgAOtreZ4LUl32b0PJCJDCIKEvKaclFvbGSwzhB1sPvuSRVUN/Hj8x7DMsPcnk1D/muclUFL4VqpuYUBdi4f1oBLwWdC8iK8oH349lDHPO9+CjEJdgJjRgrG9JJhfVvDNkwomhjsNBm1QYd00ULK4VzTPI7VY3sjqzIGx4JRPixgBEBNkXkM1go4yxlZDFch6oCpIFWmDX6RtRi4IrlNYJdKLWxLrM4Kvn9nY3Qy/y4Ki6eH0M60uwwuileyx8rkIfzPRMO3dJI73wphMRZg8FUpmdkZU6PWJ9t0D/n2Ur+PvJz/P9CxUoXCoKZW5kc3RyZWFtCmVuZG9iagoyOCAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDMzOCA+PgpzdHJlYW0KeJxFUktyxTAI2+cUXCAz5mfj87xOV+n9t5VwOt089AwICTI9ZUim3DaWZITkHPKlV2SI1ZCfRo5ExBDfKaHArvK5vJbEXMhuiUrxoR0/l6U3Ms2u0Kq3R6c2i0Y1KyPnIEOEelbozO5R22TD63Yh6TpTFodwLP9DBbKUdcoplARtQd/YI+hvFjwR3Aaz5nKzuUxu9b/uWwue1zpbsW0HQAmWc95gBgDEwwnaAMTc2t4WKSgfVbqKScKt8lwnO1C20Kp0vDeAGQcYOWDDkq0O12hvAMM+D/SiRsX2FaCoLCD+ztlmwd4xyUiwJ+YGTj1xOsWRcEk4xgJAiq3iFLrxHdjiLxeuiJrwCXU6ZU28wp7a4sdCkwjvUnEC8CIbbl0dRbVsT+cJtD8qkjNipB7E0QmR1JLOERSXBvXQGvu4iRmvjcTmnr7dP8I5n+v7Fxa4g+AKZW5kc3RyZWFtCmVuZG9iagoyOSAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDE2MyA+PgpzdHJlYW0KeJxFkLl1BDEMQ3NVgRJ4gDrqGT9Hs/2nC2m83kD6eIR4iD0Jw3JdxYXRDT/etsw0vI4y3I31Zcb4qLFATtAHGCITV6NJ9e2KM1Tp4dVirqOiXC86IhLMkuOrQCN8OrLHQ1vbmX46r3/sIe8T/yoq525hAS6q7kD5Uh/x1I/ZUeqaoY8qK2seatq/CLsilLZ9XE5lnLp7B7TCZytX+30DqOc6gAplbmRzdHJlYW0KZW5kb2JqCjMwIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggNjggPj4Kc3RyZWFtCnicMzK3UDBQsDQBEoYWJgrmZgYKKYZcQL6piblCLhdIDMTKAbMMgLQlnIKIW0I0QZSCWBClZiZmEEk4AyKXBgDJtBXlCmVuZHN0cmVhbQplbmRvYmoKMzEgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCA0NSA+PgpzdHJlYW0KeJwzMrdQMFCwNAEShhYmCuZmBgophlyWEFYuF0wsB8wC0ZZwCiKeBgCffQy1CmVuZHN0cmVhbQplbmRvYmoKMzIgMCBvYmoKPDwgL0JCb3ggWyAtMTAyMSAtNDYzIDE3OTQgMTIzMyBdIC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMzcKL1N1YnR5cGUgL0Zvcm0gL1R5cGUgL1hPYmplY3QgPj4Kc3RyZWFtCnic4zI0MFMwNjVVyOUyNzYCs3LALCNzIyALJItgQWTTAAFfCgoKZW5kc3RyZWFtCmVuZG9iagozMyAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDE2MSA+PgpzdHJlYW0KeJxFkEsSwyAMQ/ecQkfwRwZ8nnS6Su+/rSFNs4CnsUAGdycEqbUFE9EFL21Lugs+WwnOxnjoNm41EuQEdYBWpONolFJ9ucVplXTxaDZzKwutEx1mDnqUoxmgEDoV3u2i5HKm7s75R3D1X/VHse6czcTAZOUOhGb1Ke58mx1RXd1kf9JjbtZrfxX2qrC0rKXlhNvOXTOgBO6pHO39BalzOoQKZW5kc3RyZWFtCmVuZG9iagozNCAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDIxNCA+PgpzdHJlYW0KeJw9ULsRQzEI6z0FC+TOfO03z8uly/5tJJykQjZCEpSaTMmUhzrKkqwpTx0+S2KHvIflbmQ2JSpFL5OwJffQCvF9ieYU993VlrNDNJdoOX4LMyqqGx3TSzaacCoTuqDcwzP6DW10A1aHHrFbINCkYNe2IHLHDxgMwZkTiyIMSk0G/61y91Lc7z0cb6KIlHTwrvnl9MvPLbxOPY5Eur35imtxpjoKRHBGavKKdGHFsshDpNUENT0Da7UArt56+TdoR3QZgOwTieM0pRxD/9a4x+sDh4pS9AplbmRzdHJlYW0KZW5kb2JqCjM1IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggODAgPj4Kc3RyZWFtCnicRYy7DcAwCER7pmAEfiZmnyiVs38bIErccE+6e7g6EjJT3mGGhwSeDCyGU/EGmaNgNbhGUo2d7KOwbl91geZ6U6v19wcqT3Z2cT3Nyxn0CmVuZHN0cmVhbQplbmRvYmoKMzYgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAxNDcgPj4Kc3RyZWFtCnicPU+5DQMxDOs9BRc4wHosW/NckOqyfxvKRlIIIkDxkWVHxwpcYgKTjjkSL2k/+GkagVgGNUf0hIphWOBukgIPgyxKV54tXgyR2kJdSPjWEN6tTGSiPK8RO3AnF6MHPlQbWR56QDtEFVmuScNY1VZdap2wAhyyzsJ1PcyqBOXRJ2spH1BUQr10/5972vsLAG8v6wplbmRzdHJlYW0KZW5kb2JqCjM3IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMTQ5ID4+CnN0cmVhbQp4nDWPSw4DIQxD9zmFLzBSfoRwHqqupvffNmFaCQkL2y/BFoORjEtMYOyYY+ElVE+tPiQjj7pJORCpUDcET2hMDDNs0iXwynTfMp5bvJxW6oJOSOTprDYaooxmXsPRU84Km/7L3CRqZUaZAzLrVLcTsrJgBeYFtTz3M+6oXOiEh53KsOhOMaLcZkYafv/b9P4CezIwYwplbmRzdHJlYW0KZW5kb2JqCjM4IDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggNDkgPj4Kc3RyZWFtCnicMza0UDBQMDQwB5JGhkCWkYlCiiEXSADEzOWCCeaAWQZAGqI4B64mhysNAMboDSYKZW5kc3RyZWFtCmVuZG9iagozOSAwIG9iago8PCAvRmlsdGVyIC9GbGF0ZURlY29kZSAvTGVuZ3RoIDE1NyA+PgpzdHJlYW0KeJxFkLkRQzEIRHNVQQkSsAjqscfRd/+pF/lKtG8ALYevJVOqHyciptzXaPQweQ6fTSVWLNgmtpMachsWQUoxmHhOMaujt6GZh9TruKiquHVmldNpy8rFf/NoVzOTPcI16ifwTej4nzy0qehboK8LlH1AtTidSVAxfa9igaOcdn8inBjgPhlHmSkjcWJuCuz3GQBmvle4xuMF3QE3eQplbmRzdHJlYW0KZW5kb2JqCjQwIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMzMyID4+CnN0cmVhbQp4nC1SOY4kMQzL/Qp+YADr8vGeHkzU+/90SVUFBapsyzzkcsNEJX4skNtRa+LXRmagwvCvq8yF70jbyDqIa8hFXMmWwmdELOQxxDzEgu/b+Bke+azMybMHxi/Z9xlW7KkJy0LGizO0wyqOwyrIsWDrIqp7eFOkw6kk2OOL/z7FcxeCFr4jaMAv+eerI3i+pEXaPWbbtFsPlmlHlRSWg+1pzsvkS+ssV8fj+SDZ3hU7QmpXgKIwd8Z5Lo4ybWVEa2Fng6TGxfbm2I+lBF3oxmWkOAL5mSrCA0qazGyiIP7I6SGnMhCmrulKJ7dRFXfqyVyzubydSTJb90WKzRTO68KZ9XeYMqvNO3mWE6VORfgZe7YEDZ3j6tlrmYVGtznBKyV8NnZ6cvK9mlkPyalISBXTugpOo8gUS9iW+JqKmtLUy/Dfl/cZf/8BM+J8AQplbmRzdHJlYW0KZW5kb2JqCjQxIDAgb2JqCjw8IC9GaWx0ZXIgL0ZsYXRlRGVjb2RlIC9MZW5ndGggMTcgPj4Kc3RyZWFtCnicMza0UDCAwxRDLgAalALsCmVuZHN0cmVhbQplbmRvYmoKNDIgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAxMzEgPj4Kc3RyZWFtCnicRY/LDQQhDEPvVOES8hk+qYfVntj+r+swmkFC+EEiO/EwCKzz8jbQxfDRosM3/jbVq2OVLB+6elJWD+mQh7zyFVBpMFHEhVlMHUNhzpjKyJYytxvhtk2DrGyVVK2DdjwGD7anZasIfqltYeos8QzCVV64xw0/kEutd71Vvn9CUzCXCmVuZHN0cmVhbQplbmRvYmoKNDMgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAzMzggPj4Kc3RyZWFtCnicNVI5rt1ADOt9Cl0ggHbNnOcFqX7u34aUXwpDtFaKmo4WlWn5ZSFVLZMuv+1JbYkb8vfJCokTklcl2qUMkVD5PIVUv2fLvL7WnBEgS5UKk5OSxyUL/gyX3i4c52NrP48jdz16YFWMhBIByxQTo2tZOrvDmo38PKYBP+IRcq5YtxxjFUgNunHaFe9D83nIGiBmmJaKCl1WiRZ+QfGgR61991hUWCDR7RxJcIyNUJGAdoHaSAw5sxa7qC/6WZSYCXTtiyLuosASScycYl06+g8+dCyovzbjy6+OSvpIK2tM2nejSWnMIpOul0VvN299PbhA8y7Kf17NIEFT1ihpfNCqnWMomhllhXccmgw0xxyHzBM8hzMSlPR9KH5fSya6KJE/Dg2hf18eo4ycBm8Bc9GftooDF/HZYa8cYIXSxZrkfUAqE3pg+v/X+Hn+/AMctoBUCmVuZHN0cmVhbQplbmRvYmoKNDQgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAyNDggPj4Kc3RyZWFtCnicLVE5kgNBCMvnFXpCc9PvscuR9//pCsoBg4ZDIDotcVDGTxCWK97yyFW04e+ZGMF3waHfynUbFjkQFUjSGFRNqF28Hr0HdhxmAvOkNSyDGesDP2MKN3pxeEzG2e11GTUEe9drT2ZQMisXccnEBVN12MiZw0+mjAvtXM8NyLkR1mUYpJuVxoyEI00hUkih6iapM0GQBKOrUaONHMV+6csjnWFVI2oM+1xL29dzE84aNDsWqzw5pUdXnMvJxQsrB/28zcBFVBqrPBAScL/bQ/2c7OQ33tK5s8X0+F5zsrwwFVjx5rUbkE21+Dcv4vg94+v5/AOopVsWCmVuZHN0cmVhbQplbmRvYmoKNDUgMCBvYmoKPDwgL0ZpbHRlciAvRmxhdGVEZWNvZGUgL0xlbmd0aCAyMTAgPj4Kc3RyZWFtCnicNVDLDUMxCLtnChaoFAKBZJ5WvXX/a23QO2ER/0JYyJQIeanJzinpSz46TA+2Lr+xIgutdSXsypognivvoZmysdHY4mBwGiZegBY3YOhpjRo1dOGCpi6VQoHFJfCZfHV76L5PGXhqGXJ2BBFDyWAJaroWTVi0PJ+QTgHi/37D7i3koZLzyp4b+Ruc7fA7s27hJ2p2ItFyFTLUszTHGAgTRR48eUWmcOKz1nfVNBLUZgtOlgGuTj+MDgBgIl5ZgOyuRDlL0o6ln2+8x/cPQABTtAplbmRzdHJlYW0KZW5kb2JqCjE5IDAgb2JqCjw8IC9CYXNlRm9udCAvRGVqYVZ1U2FucyAvQ2hhclByb2NzIDIwIDAgUgovRW5jb2RpbmcgPDwKL0RpZmZlcmVuY2VzIFsgMzIgL3NwYWNlIDQwIC9wYXJlbmxlZnQgL3BhcmVucmlnaHQgNDYgL3BlcmlvZCA0OCAvemVybyAvb25lIC90d28gL3RocmVlCjUzIC9maXZlIDgwIC9QIDk3IC9hIDEwMCAvZCAvZSAvZiAvZyAvaCAvaSAxMDggL2wgMTEwIC9uIC9vIDExNCAvciAvcyAvdCBdCi9UeXBlIC9FbmNvZGluZyA+PgovRmlyc3RDaGFyIDAgL0ZvbnRCQm94IFsgLTEwMjEgLTQ2MyAxNzk0IDEyMzMgXSAvRm9udERlc2NyaXB0b3IgMTggMCBSCi9Gb250TWF0cml4IFsgMC4wMDEgMCAwIDAuMDAxIDAgMCBdIC9MYXN0Q2hhciAyNTUgL05hbWUgL0RlamFWdVNhbnMKL1N1YnR5cGUgL1R5cGUzIC9UeXBlIC9Gb250IC9XaWR0aHMgMTcgMCBSID4+CmVuZG9iagoxOCAwIG9iago8PCAvQXNjZW50IDkyOSAvQ2FwSGVpZ2h0IDAgL0Rlc2NlbnQgLTIzNiAvRmxhZ3MgMzIKL0ZvbnRCQm94IFsgLTEwMjEgLTQ2MyAxNzk0IDEyMzMgXSAvRm9udE5hbWUgL0RlamFWdVNhbnMgL0l0YWxpY0FuZ2xlIDAKL01heFdpZHRoIDEzNDIgL1N0ZW1WIDAgL1R5cGUgL0ZvbnREZXNjcmlwdG9yIC9YSGVpZ2h0IDAgPj4KZW5kb2JqCjE3IDAgb2JqClsgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAKNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCA2MDAgNjAwIDYwMCAzMTggNDAxIDQ2MCA4MzggNjM2Cjk1MCA3ODAgMjc1IDM5MCAzOTAgNTAwIDgzOCAzMTggMzYxIDMxOCAzMzcgNjM2IDYzNiA2MzYgNjM2IDYzNiA2MzYgNjM2IDYzNgo2MzYgNjM2IDMzNyAzMzcgODM4IDgzOCA4MzggNTMxIDEwMDAgNjg0IDY4NiA2OTggNzcwIDYzMiA1NzUgNzc1IDc1MiAyOTUKMjk1IDY1NiA1NTcgODYzIDc0OCA3ODcgNjAzIDc4NyA2OTUgNjM1IDYxMSA3MzIgNjg0IDk4OSA2ODUgNjExIDY4NSAzOTAgMzM3CjM5MCA4MzggNTAwIDUwMCA2MTMgNjM1IDU1MCA2MzUgNjE1IDM1MiA2MzUgNjM0IDI3OCAyNzggNTc5IDI3OCA5NzQgNjM0IDYxMgo2MzUgNjM1IDQxMSA1MjEgMzkyIDYzNCA1OTIgODE4IDU5MiA1OTIgNTI1IDYzNiAzMzcgNjM2IDgzOCA2MDAgNjM2IDYwMCAzMTgKMzUyIDUxOCAxMDAwIDUwMCA1MDAgNTAwIDEzNDIgNjM1IDQwMCAxMDcwIDYwMCA2ODUgNjAwIDYwMCAzMTggMzE4IDUxOCA1MTgKNTkwIDUwMCAxMDAwIDUwMCAxMDAwIDUyMSA0MDAgMTAyMyA2MDAgNTI1IDYxMSAzMTggNDAxIDYzNiA2MzYgNjM2IDYzNiAzMzcKNTAwIDUwMCAxMDAwIDQ3MSA2MTIgODM4IDM2MSAxMDAwIDUwMCA1MDAgODM4IDQwMSA0MDEgNTAwIDYzNiA2MzYgMzE4IDUwMAo0MDEgNDcxIDYxMiA5NjkgOTY5IDk2OSA1MzEgNjg0IDY4NCA2ODQgNjg0IDY4NCA2ODQgOTc0IDY5OCA2MzIgNjMyIDYzMiA2MzIKMjk1IDI5NSAyOTUgMjk1IDc3NSA3NDggNzg3IDc4NyA3ODcgNzg3IDc4NyA4MzggNzg3IDczMiA3MzIgNzMyIDczMiA2MTEgNjA1CjYzMCA2MTMgNjEzIDYxMyA2MTMgNjEzIDYxMyA5ODIgNTUwIDYxNSA2MTUgNjE1IDYxNSAyNzggMjc4IDI3OCAyNzggNjEyIDYzNAo2MTIgNjEyIDYxMiA2MTIgNjEyIDgzOCA2MTIgNjM0IDYzNCA2MzQgNjM0IDU5MiA2MzUgNTkyIF0KZW5kb2JqCjIwIDAgb2JqCjw8IC9QIDIyIDAgUiAvYSAyMyAwIFIgL2QgMjQgMCBSIC9lIDI1IDAgUiAvZiAyNiAwIFIgL2ZpdmUgMjcgMCBSCi9nIDI4IDAgUiAvaCAyOSAwIFIgL2kgMzAgMCBSIC9sIDMxIDAgUiAvbiAzMyAwIFIgL28gMzQgMCBSIC9vbmUgMzUgMCBSCi9wYXJlbmxlZnQgMzYgMCBSIC9wYXJlbnJpZ2h0IDM3IDAgUiAvcGVyaW9kIDM4IDAgUiAvciAzOSAwIFIgL3MgNDAgMCBSCi9zcGFjZSA0MSAwIFIgL3QgNDIgMCBSIC90aHJlZSA0MyAwIFIgL3R3byA0NCAwIFIgL3plcm8gNDUgMCBSID4+CmVuZG9iagozIDAgb2JqCjw8IC9GMSAxOSAwIFIgL0YyIDE0IDAgUiA+PgplbmRvYmoKNCAwIG9iago8PCAvQTEgPDwgL0NBIDAgL1R5cGUgL0V4dEdTdGF0ZSAvY2EgMSA+PgovQTIgPDwgL0NBIDEgL1R5cGUgL0V4dEdTdGF0ZSAvY2EgMSA+PiA+PgplbmRvYmoKNSAwIG9iago8PCA+PgplbmRvYmoKNiAwIG9iago8PCA+PgplbmRvYmoKNyAwIG9iago8PCAvRGVqYVZ1U2Fucy1PYmxpcXVlLXBoaSAxNiAwIFIgL0RlamFWdVNhbnMtT21lZ2EgMjEgMCBSCi9EZWphVnVTYW5zLW1pbnVzIDMyIDAgUiA+PgplbmRvYmoKMiAwIG9iago8PCAvQ291bnQgMSAvS2lkcyBbIDEwIDAgUiBdIC9UeXBlIC9QYWdlcyA+PgplbmRvYmoKNDYgMCBvYmoKPDwgL0NyZWF0aW9uRGF0ZSAoRDoyMDIwMDEyODE3MTcwOSswMicwMCcpCi9DcmVhdG9yIChtYXRwbG90bGliIDMuMS4xLCBodHRwOi8vbWF0cGxvdGxpYi5vcmcpCi9Qcm9kdWNlciAobWF0cGxvdGxpYiBwZGYgYmFja2VuZCAzLjEuMSkgPj4KZW5kb2JqCnhyZWYKMCA0NwowMDAwMDAwMDAwIDY1NTM1IGYgCjAwMDAwMDAwMTYgMDAwMDAgbiAKMDAwMDAxMjQxNCAwMDAwMCBuIAowMDAwMDEyMTI4IDAwMDAwIG4gCjAwMDAwMTIxNzEgMDAwMDAgbiAKMDAwMDAxMjI3MCAwMDAwMCBuIAowMDAwMDEyMjkxIDAwMDAwIG4gCjAwMDAwMTIzMTIgMDAwMDAgbiAKMDAwMDAwMDA2NSAwMDAwMCBuIAowMDAwMDAwMzk3IDAwMDAwIG4gCjAwMDAwMDAyMDggMDAwMDAgbiAKMDAwMDAwMTczMyAwMDAwMCBuIAowMDAwMDAyNjg2IDAwMDAwIG4gCjAwMDAwMDI0NzggMDAwMDAgbiAKMDAwMDAwMjE2OSAwMDAwMCBuIAowMDAwMDAzNzM5IDAwMDAwIG4gCjAwMDAwMDE3NTQgMDAwMDAgbiAKMDAwMDAxMDc4MyAwMDAwMCBuIAowMDAwMDEwNTgzIDAwMDAwIG4gCjAwMDAwMTAxNDQgMDAwMDAgbiAKMDAwMDAxMTgzNiAwMDAwMCBuIAowMDAwMDAzNzYxIDAwMDAwIG4gCjAwMDAwMDQxMzIgMDAwMDAgbiAKMDAwMDAwNDM3MCAwMDAwMCBuIAowMDAwMDA0NzQ3IDAwMDAwIG4gCjAwMDAwMDUwNDcgMDAwMDAgbiAKMDAwMDAwNTM2NSAwMDAwMCBuIAowMDAwMDA1NTcxIDAwMDAwIG4gCjAwMDAwMDU4OTEgMDAwMDAgbiAKMDAwMDAwNjMwMiAwMDAwMCBuIAowMDAwMDA2NTM4IDAwMDAwIG4gCjAwMDAwMDY2NzggMDAwMDAgbiAKMDAwMDAwNjc5NSAwMDAwMCBuIAowMDAwMDA2OTY1IDAwMDAwIG4gCjAwMDAwMDcxOTkgMDAwMDAgbiAKMDAwMDAwNzQ4NiAwMDAwMCBuIAowMDAwMDA3NjM4IDAwMDAwIG4gCjAwMDAwMDc4NTggMDAwMDAgbiAKMDAwMDAwODA4MCAwMDAwMCBuIAowMDAwMDA4MjAxIDAwMDAwIG4gCjAwMDAwMDg0MzEgMDAwMDAgbiAKMDAwMDAwODgzNiAwMDAwMCBuIAowMDAwMDA4OTI1IDAwMDAwIG4gCjAwMDAwMDkxMjkgMDAwMDAgbiAKMDAwMDAwOTU0MCAwMDAwMCBuIAowMDAwMDA5ODYxIDAwMDAwIG4gCjAwMDAwMTI0NzQgMDAwMDAgbiAKdHJhaWxlcgo8PCAvSW5mbyA0NiAwIFIgL1Jvb3QgMSAwIFIgL1NpemUgNDcgPj4Kc3RhcnR4cmVmCjEyNjI4CiUlRU9GCg==\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"N = 33 # length of filter\n",
"Omc = np.pi / 3 # corner frequency of low-pass\n",
"\n",
"# specify desired frequency response\n",
"Ommu = 2 * np.pi / N * np.arange(N)\n",
"Hd = np.zeros(N)\n",
"Hd[Ommu <= Omc] = 1\n",
"Hd[Ommu >= (2 * np.pi - Omc)] = 1\n",
"Hd = Hd * np.exp(-1j * Ommu * (N - 1) / 2)\n",
"\n",
"# compute impulse response of filter\n",
"h = np.fft.ifft(Hd)\n",
"h = np.real(h) # due to round-off errors\n",
"# compute frequency response of filter\n",
"Om, H = sig.freqz(h, worN=8192)\n",
"\n",
"# plot impulse response\n",
"plt.figure(figsize=(10, 3))\n",
"plt.stem(h)\n",
"plt.title(\"Impulse response\")\n",
"plt.xlabel(r\"$k$\")\n",
"plt.ylabel(r\"$h[k]$\")\n",
"# plot frequency response\n",
"plt.figure(figsize=(10, 3))\n",
"plt.plot(Om, np.abs(H), \"b-\", label=r\"designed $|H(e^{j \\Omega})|$\")\n",
"plt.stem(Ommu, np.abs(Hd), \"g\", label=r\"desired $|H_d[\\mu]|$\")\n",
"plt.plot([0, Omc, Omc], [1, 1, 0], \"r--\")\n",
"plt.title(\"Magnitude response of desired/designed filter\")\n",
"plt.xlabel(r\"$\\Omega$\")\n",
"plt.legend()\n",
"plt.axis([0, np.pi, -0.05, 1.5])\n",
"# plot phase\n",
"plt.figure(figsize=(10, 3))\n",
"plt.plot(Om, np.unwrap(np.angle(H)))\n",
"plt.title(\"Phase of designed filter\")\n",
"plt.xlabel(r\"$\\Omega$\")\n",
"plt.ylabel(r\"$\\varphi(\\Omega)$\")\n",
"plt.grid()"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"**Exercises**\n",
"\n",
"* Does the designed filter have the desired linear phase?\n",
"* Increase the length `N` of the filter. What is different to the previous example?\n",
"* How could the method be modified to change the properties of the frequency response?\n",
"\n",
"Solution: The designed filter has the desired linear phase in the pass-band, here below $\\Omega = \\frac{\\pi}{3}$. Increasing the length `N` of the filter results in a better approximation of the desired ideal low-pass, especially in a higher attenuation in the stop-band. A window function could be applied to the impulse response of the designed filter in order to modify its properties."
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"### Comparison to Window Method\n",
"\n",
"For a comparison of the frequency sampling to the [window method](../filter_design/window_method.ipynb) it is assumed that the desired frequency response $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ is given. The coefficients $h[k]$ of an FIR approximation are then computed as follows\n",
"\n",
"1. Window Method\n",
"\\begin{align}\n",
"h_\\text{d}[k] &= \\mathcal{F}_{*}^{-1} \\{ H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega}) \\} \\\\\n",
"h[k] &= h_\\text{d}[k] \\cdot w[k]\n",
"\\end{align}\n",
"\n",
"2. Frequency Sampling Method\n",
"\\begin{align}\n",
"H_\\text{d}[\\mu] &= H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j} \\frac{2 \\pi}{N} \\mu}) \\\\\n",
"h[k] &= \\text{DFT}_N^{-1} \\{ H_\\text{d}[\\mu] \\}\n",
"\\end{align}\n",
"\n",
"For finite lengths $N$, the difference between both methods is related to the periodicity of the DFT. For a desired frequency response $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ which does not result in a FIR $h_\\text{d}[k]$ of length $N$, the inverse DFT in the frequency sampling method will suffer from time-domain aliasing. In the general case, filter coefficients computed by the window and frequency sampling method will hence differ.\n",
"\n",
"However, for a rectangular window $w[k]$ and $N \\to \\infty$ both methods will become equivalent. This reasoning motivates an oversampled frequency sampling method, where $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ is sampled at $M \\gg N$ points in order to derive an approximation of $h_\\text{d}[k]$ which is then windowed to the target length $N$. The method is beneficial in cases where a closed-form inverse DTFT of $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$, as required for the window method, cannot be found."
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"#### Example: Oversampled frequency sampling method\n",
"\n",
"We consider the design of a linear-phase approximation of an ideal low-pass filter using the oversampled frequency sampling method. For the sake of comparison, the parameters have been chosen in accordance to a [similar example using the window method](../filter_design/window_method.ipynb#Example:-Causal-linear-phase-approximation-of-ideal-low-pass). Using $H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j}\\,\\Omega})$ from the previous example in this section, the filter is computed by\n",
"\n",
"1. (Over)-Sampling the desired response at $M$ frequencies\n",
"\\begin{equation}\n",
"H_\\text{d}[\\mu] = H_\\text{d}(\\mathrm{e}^{\\,\\mathrm{j} \\frac{2 \\pi}{M} \\mu})\n",
"\\end{equation}\n",
"\n",
"2. Inverse DFT of length $M$\n",
"\\begin{equation}\n",
"h[k] = \\text{DFT}_M^{-1} \\{ H_\\text{d}[\\mu] \\}\n",
"\\end{equation}\n",
"\n",
"3. Windowing to desired length $N$\n",
"\\begin{equation}\n",
"h[k] = h_\\text{d}[k] \\cdot w[k]\n",
"\\end{equation}\n",
"\n"
]
},
{
"cell_type": "code",
"execution_count": 3,
"metadata": {},
"outputs": [
{
"data": {
"application/pdf": "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\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"application/pdf": "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\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
},
{
"data": {
"application/pdf": "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\n",
"image/svg+xml": [
"\n",
"\n",
"\n",
"\n"
],
"text/plain": [
""
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"N = 33 # length of filter\n",
"M = 8192 # number of frequency samples\n",
"Omc = np.pi / 2 # corner frequency of low-pass\n",
"\n",
"# specify desired frequency response\n",
"Ommu = 2 * np.pi / M * np.arange(M)\n",
"Hd = np.zeros(M)\n",
"Hd[Ommu <= Omc] = 1\n",
"Hd[Ommu >= (2 * np.pi - Omc)] = 1\n",
"Hd = Hd * np.exp(-1j * Ommu * (N - 1) / 2)\n",
"\n",
"# compute impulse response of filter\n",
"h = np.fft.ifft(Hd)\n",
"h = np.real(h) # due to round-off errors\n",
"h = h[0:N] # rectangular window\n",
"# compute frequency response of filter\n",
"Om, H = sig.freqz(h, worN=8192)\n",
"\n",
"# plot impulse response\n",
"plt.figure(figsize=(10, 3))\n",
"plt.stem(h)\n",
"plt.title(\"Impulse response\")\n",
"plt.xlabel(r\"$k$\")\n",
"plt.ylabel(r\"$h[k]$\")\n",
"# plot frequency response\n",
"plt.figure(figsize=(10, 3))\n",
"plt.plot(Om, 20 * np.log10(abs(H)), label=\"rectangular window\")\n",
"plt.plot([0, Omc, Omc], [0, 0, -100], \"r--\")\n",
"plt.title(\"Magnitude response of designed filter\")\n",
"plt.xlabel(r\"$\\Omega$\")\n",
"plt.ylabel(r\"$|H(e^{j \\Omega})|$ in dB\")\n",
"plt.axis([0, np.pi, -100, 3])\n",
"plt.legend()\n",
"plt.grid()\n",
"# plot phase\n",
"plt.figure(figsize=(10, 3))\n",
"plt.plot(Om, np.unwrap(np.angle(H)))\n",
"plt.title(\"Phase of designed filter\")\n",
"plt.xlabel(r\"$\\Omega$\")\n",
"plt.ylabel(r\"$\\varphi(\\Omega)$\")\n",
"plt.grid()"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"**Exercises**\n",
"\n",
"* Compare the designed filter and its properties to the [same design using the window method](../filter_design/window_method.ipynb#Example:-Causal-linear-phase-approximation-of-ideal-low-pass)\n",
"* Change the number of samples `M` used for sampling the desired response. What changes if you increase/decrease `M`?\n",
"\n",
"Solution: Comparison of above results to the window method (with a rectangular window) reveals that both provide a similar performance in terms of achievable stop-band attenuation. Increasing `M` in above example does not result in obvious changes since the initial choice constitutes already a high amount of oversampling. However, decreasing `M` till it is the range of the filter length `N` results in a smooth degradation of the performance towards the original (not oversampled) frequency sampling method."
]
},
{
"cell_type": "markdown",
"metadata": {
"nbsphinx": "hidden"
},
"source": [
"**Copyright**\n",
"\n",
"This notebook is provided as [Open Educational Resource](https://en.wikipedia.org/wiki/Open_educational_resources). Feel free to use the notebook for your own purposes. The text is licensed under [Creative Commons Attribution 4.0](https://creativecommons.org/licenses/by/4.0/), the code of the IPython examples under the [MIT license](https://opensource.org/licenses/MIT). Please attribute the work as follows: *Sascha Spors, Digital Signal Processing - Lecture notes featuring computational examples*."
]
}
],
"metadata": {
"anaconda-cloud": {},
"kernelspec": {
"display_name": "Python 3",
"language": "python",
"name": "python3"
},
"language_info": {
"codemirror_mode": {
"name": "ipython",
"version": 3
},
"file_extension": ".py",
"mimetype": "text/x-python",
"name": "python",
"nbconvert_exporter": "python",
"pygments_lexer": "ipython3",
"version": "3.7.5"
}
},
"nbformat": 4,
"nbformat_minor": 1
}