Mavzu: Qo’lda yozilgan raqamni aniqlash uchun dataset shakllantirish Bajardi : Ismoilov Temurbek Qabul qildi : Temirov Azizbek tuit 2022-2023 Ishning maqsadi

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• Mavzu: Qo’lda yozilgan raqamni aniqlash uchun dataset shakllantirish Bajardi : Ismoilov Temurbek Qabul qildi : Temirov Azizbek
• Bu ishni bajarishimiz uchun KNN algoritmidan foydalanamiz K ta eng yaqin qo’shni sonlarni ajratib olish va o’zaro taqqoslash asosida sonlarni topamiz
• {image.format} ) print(fSize {image.size} ) print(fMode {image.mode}

O’ZBEKISTON RESPUBLIKASI AXBOROT TEXNALOGIYALARI VA KOMMUNIKATSIYALARINI RIVOJLANTIRISH VAZIRLIGI MUHAMMAD AL-XORAZMIY NOMIDAGI TOSHKENT AXBOROT TEXNOLOGIYALARI UNIVERSITETI Kafedra : Kompyuter tizimlari Fan nomi : Ma'lumotlarning intellektual tahlili 3-AMALIY MASHG’ULOT Mavzu: Qo’lda yozilgan raqamni aniqlash uchun dataset shakllantirish Bajardi : Ismoilov Temurbek Qabul qildi : Temirov Azizbek TUIT 2022-2023 Ishning maqsadi : Datasetlar bilan ishlar, ularni yaratish va tushunish Nazariy ma’lumot. Foydalanilgan kodlar tahlili Bu ishni bajarishimiz uchun KNN algoritmidan foydalanamiz K ta eng yaqin qo’shni sonlarni ajratib olish va o’zaro taqqoslash asosida sonlarni topamiz Code Ta’rifi from PIL import Image import matplotlib.pyplot as plt import numpy as np Biz avvalo kerakli kutubxonalarni yuklaymiz va import qilib olamiz input_folder = '../input/' filename = input_folder+'digits.png' image = Image.open(filename) Rasmlarni saqlash uchun papka manzilini tanlaymiz va bizga kerakli rasmlarni ochishni boshlaymiz def show(img, figsize=(8, 4), title=None): plt.figure(figsize=figsize) plt.imshow(img) if title: plt.title(title) plt.show() Show() funksiyasini yaratamiz va u bizga kerakli rasmlarni ochib beradi print(f'Image details') print(f'Format {image.format}') print(f'Size {image.size}') print(f'Mode {image.mode}') Rasmni tahlil qilamiz from PIL import ImageEnhance bw_image = image.convert(mode='L') show(bw_image, figsize=(12, 12)) bw_image = ImageEnhance.Contrast(bw_image).enhance(1.5) show(bw_image, figsize=(12, 12)) ImageEnhance funksiyasini import qilib olamiz va rasmni ko’rib chiqamiz f = plt.figure(figsize=(18,2)) ax = f.subplots(1, 6) for i, n in enumerate(np.random.randint(0, len(samples), size=6)): m = (np.random.randint(0, len(samples[n]))) ax[i].imshow(samples[n][m]) ax[i].set_title(f'Digit: [{n}]') plt.show() Tanlangan rasmlarni alohida chiqarib ularnitahlil qilamiz preview = Image.new('L', (len(samples[0])*new_size, len(samples)*new_size)) x = 0 y = 0 for row in resized_samples: for sample in row: preview.paste(sample, (x, y)) x += new_size y+=new_size x = 0 show(preview, figsize=(18,18), title='Processed images') preview.save('preview.png') Kiritilgan sonlarni chiqarish va saqlashni boshlaymiz from PIL import ImageOps import matplotlib.patches as patches inv_sample = ImageOps.invert(sample) bbox = inv_sample.getbbox() fig = plt.figure(figsize=(2, 2)) ax = fig.add_axes([0,0,1,1]) ax.imshow(inv_sample) rect = patches.Rectangle( (bbox[0], bbox[3]), bbox[2]-bbox[0], -bbox[3]+bbox[1]-1, fill=False, alpha=1, edgecolor='w') ax.add_patch(rect) plt.show() Tanlangan raqamni alohida belgilaymiz va aniqlab chiqaramiz binary_samples = np.array([[sample.getdata() for sample in row] for row in resized_samples]) binary_samples = binary_samples.reshape(len(resized_samples)*len(resized_samples[0]), 28, 28) xfile = 'digits_x_test.npy' yfile = 'digits_y_test.npy' np.save(xfile, binary_samples) np.save(yfile, classes) x_test = np.load(xfile) y_test = np.load(yfile) x_test.shape, y_test.shape for i in np.random.randint(x_test.shape[0], size=6): show(x_test[i], title=f'Digit [{y_test[i]}]', figsize=(1,1)) Hosil qilingan datasetdan malumotlarni olamiz va tekshiramiz Download 278.23 Kb. Do'stlaringiz bilan baham: