User:Pedro Sá Couto/Hackpact: Difference between revisions

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Revision as of 12:29, 8 October 2019

01

Negative Feedback loop

02

Geo data

03

Sleep Heisenberg uncertanty principle

04

Blocked Face


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Before
After

From the git

https://git.xpub.nl/pedrosaclout/Hackpact_04

import numpy as np
import cv2
import time
import datetime
from pprint import pprint
from PIL import Image
import os, os.path
import glob


face_cascade = cv2.CascadeClassifier('haarcascade_frontalface_default.xml')

imgs = ['img/01.jpg','img/02.jpg','img/03.jpg','img/04.jpg','img/05.jpg','img/06.jpg','img/07.jpg','img/08.jpg','img/09.jpg']
pprint (imgs)

d = 0

while True:

    #read selected image
    image = cv2.imread(imgs[d])
    d+=1

    imagegray = cv2.cvtColor(image, cv2.COLOR_BGR2GRAY)
    faces = face_cascade.detectMultiScale(imagegray, 1.3, 5)

    for (x,y,w,h) in faces:
        cv2.rectangle(image,(x,y),(x+w,y+h),(0,0,0),-1)
        roi_gray = imagegray[y:y+h, x:x+w]
        roi_color = image[y:y+h, x:x+w]

    print ("Displaying image")
    cv2.imshow(('blocked%d.jpg'%d),image)
    print ("Writing image")
    cv2.imwrite(('blocked%d.jpg'%d),image)
    k = cv2.waitKey(5) & 0xff
    time.sleep(0.5)
    if k == 27:
        break

cap.release()
cv2.destroyAllWindows()

05

Tracking web extentions

06

Biometrics online

07

Research station printing machine

From the git

https://git.xpub.nl/pedrosaclout/Hackpact_04
While discussing with Michael in a prototyping class about my project proposal he was telling me about his experience in the library. He wanted to photocopy a printed publication but he didn't have a school card to use the printing machines in all the WdKA building, He found out an old printing machine that still worked with coins and that was how he was able to do it. It is interesting to see how the shift of all these processes into digital either by the swipe of a card or with an user and password might limit the spread of knowledge within the school.
Last year in prototyping I started writing a script to download papers from JSTOR without the watermarks, ip adress and other traces, I see it as a digital approach to the problem that Michael had.


# import libraries
from selenium import webdriver
from selenium.webdriver.common.keys import Keys
import os
import time
import datetime
from pprint import pprint
import requests
import multiprocessing
import base64

i = 1

name = (input("How do you want to call you files? "))

while True:
    try:
        # get the url from the terminal
        url = (input("Enter jstor url (include 'https://' AND exlude 'seq=%i#metadata_info_tab_contents' —  ") + ("seq=%i#metadata_info_tab_contents"%i))

        # Tell Selenium to open a new Firefox session
        # and specify the path to the driver
        driver = webdriver.Firefox(executable_path=os.path.dirname(os.path.realpath(__file__)) + '/geckodriver')

        # Implicit wait tells Selenium how long it should wait before it throws an exception
        driver.implicitly_wait(10)
        driver.get(url)
        time.sleep(1)

        # get the image bay64 code
        img = driver.find_element_by_css_selector('#page-scan-container.page-scan-container')
        src = img.get_attribute('src')
        # check if source is correct
        # pprint(src)
        # strip type from Javascript to base64 string only
        base64String = src.split(',').pop();
        pprint(base64String)

        # decode base64 string
        imgdata = base64.b64decode(base64String)

        # save the image
        filename = (name + '%i.gif'%i)
        with open(filename, 'wb') as f:
            f.write(imgdata)

        driver.close()
        i+=1
        print("DONE! Closing Window")


    except:
        print("Impossible to print image")
        driver.close()
        break

    time.sleep(0.2)