We have a new metric!

I wish to first thank you the federal government for funding the the shared agricultural consernses program

Read this Water- and Nitrogen-Use Efficiencies of Hemp (Cannabis sativa L.) Based on Whole-Canopy Measurements and Modeling

@Hunter, do you know what we can do with this! How did I miss this article? :frowning:

Will let you do volumes down to 10 meters cubed.

I need to sit down at my computer. They don’t have 2018 data. But, they had 2017 and before. Play with the thermal color shift gives you transperation color.
You take this to a USDA table. You can compare acre a to acre b. There is a farm service company that will Sat map your farm over time and tell you about soil and water and crop cover potentials for your specific location.

With the mathematics in the paper you call calculate the probability that a volume is creating bio mass.

If you take the math as given and create a table of every likely possible input and out put for a 150 day period. You come back with one output value for a density by volume or biomass per hec. Convert hec to meter squared.

In a single day if I have 1000 likely combination for her biomass math. I calculate all 150 time 1000 entries 150,000 entries. If I Multiple my 10 x 1000 = 1,500,000 entries easy to calculate a liniar functions. You can do it in excel with the fill function across workbooks.

Now you use a density of vegetation tool from the forest service or the USDA. Have find link again. This give you the basic input of leaf area in a volume.

Plug it in as a lookup value you just created for cannabis bio mass index. For a liniar function. The futures market will go nuts. :money_mouth_face: The big data people are going to go nuts.

A database works faster because I can incriment the step functions by 0.1 to come up with a function. Which is why I was 2% off good because it was very close to a whole number. 0.02003148. This tells me that on the next regration set if I increase the step function from 0.1 to 0.01 I have a 100 to 1000 more data step function for a regression fill. I can get down to 0.2% if I so wanted. The math and stratigise falls apart at 0.001 steps. It’s still a linear function but need a bigger storage :grimacing:.

This is why evaporation/transporation functions in a specific crop are so important. There are some very good ones for all the major crops down to cultivar. :nerd_face:

With this and geosat data you can calculate the field density of any chunk of land down to 3 meter square with reasonable acressy. :upside_down_face:

It’s a handy tool from the actualarial world and anylitc math, just put into a giant lookup table. :upside_down_face:

It was fun but playing with the dogs was more fun. My working dog never gets >tied unless we really work. I don’t go to two much with him. But, he keeps me on two feet most of the time. He is my all leg drive Cain. If I fall, he pushes me up, by crawling under me. Took me months to get him to do it. Now, if I am in bed and he want something. He pushes me out of bed. :thinking:

The same can be applied to a intererior grow by creating a matrix of security cameras and using a standard space volume calculation from the photographic world for 3d rendering of graphics. I can closely estate the surface area of the mass being rendard, it compares the render to an actual photo by color shifts. Cool

From the voices in my head
Ethan