ACCESSIBILITY OVERVIEW
Explore the key aspects of accessibility implemented in the Sobreira Lab website.
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Accessibility for people with color vision deficiency (dichromatism)Priority was given to maintaining the visual identity of the website while ensuring adequate contrast scale for all developed images. This was achieved by using applications like Chromatic Vision Simulator to replicate different types of color visions and prevent loss of image details, as showcased in the following table. — Resource: Chromatic Vision Simulator
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Accessibility for people with color vision deficiency (dichromatism)Priority was given to maintaining the visual identity of the website while ensuring adequate contrast scale for all developed images. This was achieved by using applications like Chromatic Vision Simulator to replicate different types of color visions and prevent loss of image details, as showcased in the following table. — Resource: Chromatic Vision Simulator
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Accessibility for people with color vision deficiency (dichromatism)Priority was given to maintaining the visual identity of the website while ensuring adequate contrast scale for all developed images. This was achieved by using applications like Chromatic Vision Simulator to replicate different types of color visions and prevent loss of image details, as showcased in the following table. — Resource: Chromatic Vision Simulator
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Accessibility for people with color vision deficiency (dichromatism)Priority was given to maintaining the visual identity of the website while ensuring adequate contrast scale for all developed images. This was achieved by using applications like Chromatic Vision Simulator to replicate different types of color visions and prevent loss of image details, as showcased in the following table. — Resource: Chromatic Vision Simulator
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Accessibility for people with color vision deficiency (dichromatism)Priority was given to maintaining the visual identity of the website while ensuring adequate contrast scale for all developed images. This was achieved by using applications like Chromatic Vision Simulator to replicate different types of color visions and prevent loss of image details, as showcased in the following table. — Resource: Chromatic Vision Simulator
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Accessibility for people with color vision deficiency (dichromatism)Priority was given to maintaining the visual identity of the website while ensuring adequate contrast scale for all developed images. This was achieved by using applications like Chromatic Vision Simulator to replicate different types of color visions and prevent loss of image details, as showcased in the following table. — Resource: Chromatic Vision Simulator
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Accessibility for people with color vision deficiency (dichromatism)Priority was given to maintaining the visual identity of the website while ensuring adequate contrast scale for all developed images. This was achieved by using applications like Chromatic Vision Simulator to replicate different types of color visions and prevent loss of image details, as showcased in the following table. — Resource: Chromatic Vision Simulator
This page encompasses the design, coding, and content optimization techniques we have employed to create a user-friendly and inclusive online environment. Our goal is to bridge gaps, foster a sense of belonging, and cater to a diverse range of individuals.
We are PiXEL M, a small startup company founded by two biologists with experience in research and teaching, who also have a great appreciation for design and technology. Our goal is to develop science content for the internet, including websites, illustrations, and courseware, with a strong emphasis on clarity and accessibility. We strive to make scientific knowledge easily reachable and spread awareness through our work.