Kareem Hesham El-Antably
Mahmoud Ahmed Zoair
Seif Eldeen Yasser
Amr Mohamed Hegazi
Dr. Ammar Mohamed
Eng. Noha El-Masry
Millions of people all over the world rely on eyeglasses or contact lenses to be able to see effectively. Furthermore, some people suffer from color blindness, and in some cases, people are not even aware that they are affected by color blindness. Color blindness and vision correction are two issues that we address in this research. We propose a framework to address these issues. To begin, we introduce a vision correction system that corrects eye aberrations like as nearsightedness and farsightedness. According to the user’s eye measurements, the image is enhanced and a hardware layer is added to the display screen to do this. Additionally, we Propose, as a second step, a color blindness approach that assists users in determining whether or not they are color blind. It also determines the type and degree of color blindness that an individual has. The proposed approach provides users with the option to rectify any image which they want in accordance with the type and degree of color blindness they suffer from. This is accomplished by enhancing the image by blending the colors together.
The main objective is to create easy, portable and cheap way in correcting human vision instead of using eyeglasses or surgeries. our main objectives can be summarized as:
1-Implement a prototype that outputs the image according to the visual aberration each user has and this will be done by the technical phase time.
2- Use a camera model that simulates the human eye in order to make the distance fixed and to make it easier as some aberration are rarely found and this will be done by the technical phase time.
3- Use a parallax barrier which refract the light ray to be positioned on the eye clearly
4- Implement a prototype system that takes the colorblindness type and degree from the user as an input and outputs a corrected image readable with reasonable and acceptable accuracy.
1- The proposed system scope will focus mainly on two eye problems which are visual aberrations(nearsightedness and farsightedness) and colorblindness problems which are Protanobia or Deutranobia or both.
2- The system wont be able to process the image according to both eye measurements so our tests will be done using a camera.
3- Our testing environment will be fixed which means that the distance from the display screen and the camera should be fixed and the lighting should also be fixed.
Documents and Presentations
You will find here the documents and presentation for our proposal.
You will find here the documents and presentation for our SRS.
You will find here the documents and presentation for our SDD.
You will find here the documents and presentation for our Thesis