– I actually don’t look like this... I am way more beautiful, but your eyes can only see how I look derived from three color cones. You humans are borne with a genetically lousy color vision.

Let’s start from the beginning.

The human eyes contain millions of light sensitive cells, called rods and cones. Rods enable us to see light and motion. Cones enable us to see colors.

Dogs have two types of color-receptive cones, green and blue. This enables dogs to see blue, green, and a little bit of yellow.

Humans have three types of color-receptive cones, green, blue and red. The additional red cone enables you to see not only red, but all the colors that derived from red, like orange and yellow.


 

The picture to the left is how a dog (two cones) see the word, and the picture to the right is
how a human (three cones) see the word.


Butterflies have five types of color-receptive cones. So in addition to seeing two colors we don’t have names for, butterflies can see a massive spectrum of colors that a human brain aren’t even capable of processing.

When it comes to color vision, butterflies are almost at the top of the food chain.

There is ONE other animal that has better vision than the butterfly.

The Mantis Shrimp. That’s me.

The Mantis Shrimp has not two, not three, not five, but sixteen color-receptive cones.

I can see both circular and linear polarized light and hyperspectral color.




             This is my color spectrum compared to yours.


On top of this… all humans (and well yes, even Mantis Shrimps) see the world different depending on our individuality, the surrounding colors and the light. There is even a high variation among colorists with "normal color vision", such as through yellowing of the lenses or through difference in the macular pigment. This makes it too unreliable. That’s where color tools like spectrophotometers and digital color communication come in.


I have to admit, this is something that humans are good at. Building computer programs that can handle this.

Spectrophotometers, when calibrated correctly, are able to provide standardized conditions that can lead to a consistent and repeatable color calculation. It will give the same “answer” over and over again, no matter of surrounding, the human operator’s genetics or mood of the day, or where in the world the operator is. It lets you, if not see like me, at least quantify what I am seeing.





An operator measures the color using a Spectrophotometer. As soon as
the color is measured and uploaded to ColorWarehouse, participants
around the world can view the color and do a digital color assessment.



This is the closest and most reliable way for humans to handle and communicate colors. Trust digital color technology and natific’s services and products (or hire a Mantis Shrimp) and you will become accurate, precise, consistent and superfast. It’s the best alternative you have.

You can start your colorful journey by taking a color test to find out how good you are with colors in your supply chain and where on the color path you are. Take the test here.