That routing detection you're doing for the tractors looks very similar to a 2d GCode.
Maybe there's room for new tractors in the industry. How about autonomous tractors? Make them small, cheap, and autonomous. Instead of the farmer driving one huge $1mill machine, instead have the farmer watch from a web interface the 10 mini tractors that swarm.
I think with tractors you need some heft so they have sufficient traction to pull the equipment behind them. Also with ten small units you have 10x the parts which can break down. But maybe there ate mitigating factors and maybe crops like beans could be planted with smaller tractors.
This. We have a small farm but small tractors don't have the horespower needed to pull and power the equipment needed up and down hills. Most people forget that not every farm is flat. We have significant hills in this part of the country and need the power to climb, pull several thousand pounds of rolling equipment plus provide it power in many cases.
Are you by any chance working in the tech industry + having a small farm? If yes, is it a viable lifestyle? Did you choose it or is it a family business? Sorry for the many questions, I'm curious because I've always been attracted to compaginating work as engineer with something more "traditional" and closer to the nature.
I too am interested in this and would love to hear more.
I just spent the last 7 months living across a cove from a nature preserve, foraging wood from the forests, cutting and splitting it to burn in a stove that heated the house all winter.
In the future I'd like to grow my own food in an automated, self-built, hybrid tilapia/vegetable greenhouse to further reduce my reliance on working for currency to exchange for necessities. I would be better off financially if I coded more for cash and exchanged that cash for necessities, but my brain would have been heavier, with more of the burden of solving other people's problems.
Living like this has been the best experience I've had and brought me back to life after getting burned out working in the city.
I'm curious as well. I currently work as a designer in tech and feel somewhat unsatisfied with it. The "problems" being solved pale in comparison to the ones that exist and are in need of being tackled in agriculture. Would love to continue to work in the start-up space but working on real problems like FarmLogs does.
Recently picked up "The Market Gardener: A Successful Grower's Handbook for Small-scale Organic Farming" off Amazon and seems like a great framework for starting a small farm.
At an estimated initial cost of $60,000 per farm plot, I wonder what the effect of an agriculture/tech-incubator would be. Seems silly to throw $30m at an app like Secret (not to pick one out, but you know what I mean), when there are real tangible problems being solved in the food industry by FL and others.
Yes, we are both (my wife and I) are in tech. I'm an analytics/conversion consultant and she is a principle engineer with an aerospace company. Early mornings are answering email and putting out fires, then farm work during the day and then 'paid work' in the afternoon / evenings. We stay very busy but our 'jobs' = 20 to 30 hours a week the rest is spent playing in the dirt. We raise a lot of birds to release in to the wild (Quail/Guinea/Ducks) and we in the process of adding beef cattle this year. It is a lot of work and very satisfying to work in tech and dirt at the same time. I added my email to my profile if anyone wants to get more detailed info or advice.
>I think with tractors you need some heft so they have sufficient traction to pull the equipment behind them.
Good point. Analysis of vehicle and applicable torque would be a primary issue.
> Also with ten small units you have 10x the parts which can break down.
Indeed. However, I'm looking at using automotive lines already in production for replacement parts. That way, farmers would only have to go to XYZ local automotive place. It's foolish to not use already well engineered parts in a nationwide distribution.
Also, the other big problem is the John Deere issue: proprietariness. If I designed the tractor, this system would be open and easy for the farmer to repair. That would be the next goal. So yes, there would be 10x the parts that could die. It also means that your production is spread across that many machines. One machine down means you still have 90% production capacity.
> But maybe there ate mitigating factors and maybe crops like beans could be planted with smaller tractors.
Smaller, and autonomous. That's the goal here. There's little reason we couldn't have a fully autonomous tractor. We already have cars that can do the similar on roads. But also, a farmer could delineate different parts of the field for different crops. And then the tractor network could farm them each appropriately.
Remember that if you take a standard automobile and make it perform farm duty, those parts are likely to break, and quickly. For example, just look at the aftermarket for mechanical improvements for Off road vehicles.
Jeeps and Trucks are already among the more heavy-duty vehicles on the road, and for true off-road use, many components need to be replaced.
Rather than looking at the existing automotive parts, look at some of the aftermarket fabricators, and parts suppliers that are building out parts designed to replace the standard OEM ones.
I agree with the premise somewhat, but more parts and more engines especially is a recipe for reduced efficiency. Take for example the power and capability of a large pickup truck, which gets around 14Mpg, but makes ~400HP and 400ft/lbs of torque. It weighs ~8000lbs, and can tow 10,000. It will handle fairly tough daily use with few failures. When towing 10000lbs, they still get around 9-11mpg.
on the other end of the spectrum, a Smart Car might get 38 MPG, but it has 70HP and 68Ft/lbs of torque. It weighs 1100 lbs, and can support only 500lbs of total passengers and cargo. It is not capable of towing any load.
The returns of towing/power with increasing scale are nonlinear. Large Semi engines will run to 1000000 miles, and produce very large amounts of horsepower and torque.
FarmLogs seems to have a nice company culture. They brought someone in who seems to have been unfamiliar with many of the technologies they use. Yet with good mentors and some patience, it looks like everything worked out.
We've had some really amazing interns and ask a lot from them. As Akshay says, they basically have the same responsibilities and opportunities to make an impact as full timers. It's awesome that they get a lot out of it too. We'll miss you Akshay!
"People cook, play, and work out together, and everyone enjoys coming to work everyday. It’s hard to imagine what my life would have been without these memories with them."
What is this I feel.. envy?
While I cannot do this anymore because of family constrains, I do miss the days where I could hang around my colleagues all day long (who are still my best friends till date).
Advice to anyone looking for an internship, make it clear you have a blog during your interview process. That's an intangible part of the interview process but surely it will help.
As long as the rants aren't inappropriate and are related to whatever professional area you're in, I wouldn't think they're a problem. e.g. ranting about the webdev toolchain would be reasonable, ranting about current events or personal viewpoints could raise red flags.
24 comments
[ 4.2 ms ] story [ 69.7 ms ] threadMaybe there's room for new tractors in the industry. How about autonomous tractors? Make them small, cheap, and autonomous. Instead of the farmer driving one huge $1mill machine, instead have the farmer watch from a web interface the 10 mini tractors that swarm.
I just spent the last 7 months living across a cove from a nature preserve, foraging wood from the forests, cutting and splitting it to burn in a stove that heated the house all winter.
In the future I'd like to grow my own food in an automated, self-built, hybrid tilapia/vegetable greenhouse to further reduce my reliance on working for currency to exchange for necessities. I would be better off financially if I coded more for cash and exchanged that cash for necessities, but my brain would have been heavier, with more of the burden of solving other people's problems.
Living like this has been the best experience I've had and brought me back to life after getting burned out working in the city.
Recently picked up "The Market Gardener: A Successful Grower's Handbook for Small-scale Organic Farming" off Amazon and seems like a great framework for starting a small farm.
At an estimated initial cost of $60,000 per farm plot, I wonder what the effect of an agriculture/tech-incubator would be. Seems silly to throw $30m at an app like Secret (not to pick one out, but you know what I mean), when there are real tangible problems being solved in the food industry by FL and others.
Good point. Analysis of vehicle and applicable torque would be a primary issue.
> Also with ten small units you have 10x the parts which can break down.
Indeed. However, I'm looking at using automotive lines already in production for replacement parts. That way, farmers would only have to go to XYZ local automotive place. It's foolish to not use already well engineered parts in a nationwide distribution.
Also, the other big problem is the John Deere issue: proprietariness. If I designed the tractor, this system would be open and easy for the farmer to repair. That would be the next goal. So yes, there would be 10x the parts that could die. It also means that your production is spread across that many machines. One machine down means you still have 90% production capacity.
> But maybe there ate mitigating factors and maybe crops like beans could be planted with smaller tractors.
Smaller, and autonomous. That's the goal here. There's little reason we couldn't have a fully autonomous tractor. We already have cars that can do the similar on roads. But also, a farmer could delineate different parts of the field for different crops. And then the tractor network could farm them each appropriately.
Jeeps and Trucks are already among the more heavy-duty vehicles on the road, and for true off-road use, many components need to be replaced.
Rather than looking at the existing automotive parts, look at some of the aftermarket fabricators, and parts suppliers that are building out parts designed to replace the standard OEM ones.
I agree with the premise somewhat, but more parts and more engines especially is a recipe for reduced efficiency. Take for example the power and capability of a large pickup truck, which gets around 14Mpg, but makes ~400HP and 400ft/lbs of torque. It weighs ~8000lbs, and can tow 10,000. It will handle fairly tough daily use with few failures. When towing 10000lbs, they still get around 9-11mpg.
on the other end of the spectrum, a Smart Car might get 38 MPG, but it has 70HP and 68Ft/lbs of torque. It weighs 1100 lbs, and can support only 500lbs of total passengers and cargo. It is not capable of towing any load.
The returns of towing/power with increasing scale are nonlinear. Large Semi engines will run to 1000000 miles, and produce very large amounts of horsepower and torque.
Pssst... farmlogs.com/jobs ;)
What is this I feel.. envy?
While I cannot do this anymore because of family constrains, I do miss the days where I could hang around my colleagues all day long (who are still my best friends till date).