I’ve been working on a Raspberry Pi system to shoot a year long timelapse of the garden.
I did a couple of 24 hour test timelapses. The first trial was super simple, I had the camera shoot a photo once a minute. I discovered that the Rasberry Pi camera’s auto exposure didn’t work well at night. The night photos were completely dark so I cut most of them out.
For the second trial I wrote some python to check if the auto exposure gave a correctly exposed result, and if not the program would increase the exposure until it hit the camera’s maximum of 6 seconds at 800 iso. (I was also experimenting with HDR which is why this clip looks particularly bad.)
After getting things working more or less I built a basic enclosure for the camera and Rasberry Pi out of a take-out soup container. I spray painted the whole container to protect it from UV, and then cut the bottom off and siliconed a lens filter onto the bottom of the container. This all got jammed under the eave on the shed.
Right now the camera shoots a photo every 20 minutes night and day. Which doesn’t sound like a lot until you think about 3 shots an hour, 24 hours a day time 365 days or 26,280 photos. Each photo is about 5.3mb, so a year of photos will take up about 140gb. I’m guessing that processing the photos will take 2-4 times as much space since there will be several intermediate processing steps.
At this point I have a couple of weeks of photos. Processing the images to make a pleasing result is hard. The images during the day flicker like crazy from the sun going behind clouds, and the night photos are super dark until a car headlight shines into the yard or the moon comes out. The camera shifts very slightly too, I assume the plastic of the container is changing size slightly in response to temperature changes, or maybe the shed is wiggling slightly in the wind.
This is my current processing pipeline:
This is the full set of timelapse photos processed into a video:
I like where this video is going, but I find the changes from day to night to be kind of off putting after a while. Also, the strobing effect of the light moving across the yard is pretty neat the first couple of times, but gets hard to watch.
I wrote some code to select a few photos from each day about 90 minutes before solar noon and then ran the same processing pipeline. It worked okay, but the light still changed more than I liked. The clip is about a second long, so it might look better when I have more photos.
So, I wrote some code that picked images that were relatively low contrast and really close to the same medium brightness. This cut my images down from ~1500 to ~250. I then ran the same processing pipeline on it, and got this result:
I’m pleased with this, but it still needs some refinement. Once I have a few months of photos I think I’ll have a much better handle on what the final product will look like in a year.
I read all the Oatly patents (Sarah translated the Swedish one) and watched videos and read the whole Oatly website. The key piece of information missing from the previous recipe I made is that Oatly uses a couple of enzymes to convert starch in oats to sugars.
All of this oat research excited Sarah and we’ve been working together to design the perfect oatmilk. We want something slightly sweet, with the thickness of whole milk or cream, and it has to be great in coffee — no splitting!
The American Oatly patent has a sample recipe with huge quantities — in summary:
With the ingredients list from my previous trials and the patents we started to design a recipe.
We looked at using enzymes directly, but decided to try using malted barley. Malting grains make alpha and beta amylase. Plus malt is easy to get from brewing suppliers. (We do have some enzymes on order for testing too!)
Data from brewing charts suggests that we do a one hour cook at 148F (64C) for the beta-amylase, a second cook at 158F (70C) for the alpha-amylase, and at the end we bump the temperature up to 197F (92C) which denatures the enzymes. (We are using 197F/92C because that’s the max temperature of the immersion circulator we own.)
After a few trials we had a breakthrough when we found out about toasting the oats before processing them. It really lowers the oat smell and gives the resulting oat milk a light pleasant roasted flavor.
This recipe compares favorably to Oatly, and is better than the other commercial oat milks that we have tried. We met all of our oat milk goals, but it could always be better, so we’re still experimenting. Watch out for updates.
This recipe makes a batch of about 17oz (500ml) after filtering and takes approximately 3 hours (which sounds long, but it’s mostly waiting).
Ingredient | Grams |
---|---|
Water | 542 |
Oats | 60 |
Malted Barley | 6 |
Canola/Rapeseed Oil | 18 |
Salt | 0.8 |
*Depending on the kind of oats the toasting time might be different. We suggest doing a test toast of the oats that you’re using. Preheat your oven to 250F (121C), put some oats on a cookie sheet, and set a timer for 4 minutes. At 4 minutes open the oven grab a few oats, close the oven, and set your timer for another 4 minutes. Taste the oats; when they’re done they will have a hint of roastiness with no bitter/burnt flavor. Repeat until you figure out the perfect roasting time. Different brands of oats have required between 4 and 12 minutes. Instant oats seem to need longer, while fancier non-instant oats need shorter times.
†This filter combination seems to be sufficient; it doesn’t leave sediment in the oat milk and is much faster than paper coffee filters or kitchen towels. Protip: for faster filtering slowly run a spoon over the inside of the gold coffee filter move the filtered material out of the way.
My mom showed me how to make biscuits many years ago, and I’ve been trying to get better at it. This is my current recipe– it’s based on the Alton Brown recipe with some tweaks:
Amount | Units | Ingredient |
---|---|---|
2 | cups | Flour |
4 | teaspoons | Baking Powder |
1/4 | teaspoon | Baking Soda |
3/4 | teaspoon | Salt |
5 | tablespoons | Butter |
1 | cup | Milk |
1/3 | teaspoon | Citric Acid or Other Acid |
Mix the flour, baking powder, baking soda, and salt very thoroughly. The leavening agents need to be evenly distributed.
Cut the butter into about 10 pieces, drop it into the flour, and use a pastry cutter to cut the butter into pea-sized pieces. Then rub the butter/flour mixture between your hands, start with your palms together and swipe one hand’s palm down towards the other hand’s fingertips. Picture a motion like you’re trying to get something really sticky off of your hands. Do this until most of the pea sized pieces of butter are flattened.
Mix the citric acid into the milk. The milk should immediately feel a bit thicker and coat a spoon.
Pour the milk into the butter/flour mixture, and mix as little as possible to incorporate most of the dry ingredients into the wet. It’s much better to have some dry left in the bowl than it is to overmix.
Dump the dough out onto a lightly floured countertop, sprinkle a bit of flour on top of the dough, and pat the dough to 3/4″ thick. I use an Aeropress to cut my biscuits, but you could also use a 2″ or so biscuit cutter or a cup with straight sides.
When you’ve cut as many whole biscuits out as you can, reform the dough and repeat. Try to work the dough as little as possible. Any manipulation will make the biscuits tougher.
Transfer your cut biscuits to a cookie sheet or baking stone and bake for about 15 minutes at 425F. Watch for the top of the biscuits to go golden all over with a bit of golden brown.
I’ve really come to love the Oatly Barista Edition Oat Drink. Since I’m stuck at home and I’ve run out of Oatly, I’m working on replicating it. I started by doing a review of oat milk recipes online to figure out the oat to water ratio. The average is close to 1:4. Interestingly, the ingredients on the international Oatly website give the oat ratio at 1:10
Unfortunately the recipes procedures don’t match up as well. Some recipes suggested soaking the oats; others said that would make the oat milk slimy. Some said that rising the oats after soaking would make the oat milk not slimy. Other said that overblending would make the oat milk slimy. I guess the takeaway is that sometimes oat milk is slimy.
Armed with the ratio, I made a batch of oat milk for my morning coffee. It was underwhelming. It broke apart and looked a bit like miso soup, which Oatly never does.
I reviewed the Oatly recipe, and saw the second ingredient was rapeseed oil (aka canola). I used the same ratio of oats, but added some canola. The canola helped the mouthfeel, and tamped down the oaty flavor somewhat. Two pinches of sugar in my coffee mug with the coffee and the oat milk wasn’t bad. Though it wasn’t as good as Oatly.
I really needed to figure out what Oatly is doing. I turned to the ingredients list and nutrition facts. With some detective work I should be able to determine what the recipe ratios are. I think my ratios for oats, water and canola are pretty close. I’m pretty certain that Oatly needs Dipotassium Phosphate. I’ve made a guess on the amount based on the nutritional facts showing potassium and phosphorus.
I’m currently sourcing food grade Dipotassium Phosphate for my next experiments. I also wonder if there’s a secret processing step that Oatly has up their sleeve.
Ingredients by Weight for 100ml | |||
---|---|---|---|
Ingredient | Amount | Units | Purpose |
Water | 87.1 | gr | ingredient |
Oats | 10 | gr | ingredient |
Rapeseed Oil | 2.3 | gr | ingredient |
Dipotassium Phosphate | 0.5 | gr | ingredient |
Calcium Carbonate | vitamin | ||
Calcium Phosphates | vitamin | ||
Iodised Salt | 0.1 | gr | ingredient |
D2 | vitamin | ||
Riboflavin | vitamin | ||
B12 | vitamin |
I’ve noted which ingredients I think make functional changes to the recipe and which I think are added just as vitamins.
I bought an Adaptoid in about 2003. It’s a really great n64 to usb adapter for playing emulated n64 games. For some reason there are a couple of of these on Ebay for $600-700; the folks on Ebay talk about reverse engineering.
I’m going to look into reading the code off of the microcontroller, but for the time being here are some photos of the device disassembled.
It looks like the Wish Technologies website went down around 2009. I did find this website which seems to have some code available for interfacing with the Adaptoid.