These low-tech tractors could become a hot bed for open source experimentation. Nothing stopping someone from sticking a tablet on the dash. You could run GPS harvesting optimization software or some webthing locally. Could be cloud or clever DiY farmers could run their farm off a local instance on a small machine using a WiFi AP atop the barn or whatever.
But there's more to agtech than driving a tractor around, a lot of what these big integrated systems do (at the high end) is very data driven -- determining where and how to plant, irrigate, fertilize, etc. There's a lot of integration work beyond just making the tractor drive.
How difficult is this to implement outside of big ag-tech? I feel that a community of experienced farmers and programmers (or programmer-farmers) could tackle this.
The bigger agcorps have tones of integration.
The machine, from tractor to combine and everything in between often feeds data together to produce a holistic understanding.
Things like - How much fuel was used - Where your tractors and sprayers drove - Soil samples and content - How and where every bit of chemical and fertilizer was applied - What weather hit your field - How much and and the moisture content of every bit of the field you harvested
It goes on an on.
Yes, but how useful is the integration?
The sprayers/spreaders can be connected cheap computer to achieve most of what you describe.
I used to do literally that but in aircraft. Must be easier and cheaper in tractors
But if you're observing a fleet of 100+ machines you kinda need some integration and a central location. Which in turn connects to multiple other services like weather, crop markets, fuel prices etc.
A tractor is a big thing to have rolling around unsupervised. I would want a lot of safeguards. Blindly going from one GPS point to another sounds like a nightmare.
I just don't think you're going to effectively compete with big agtech by putting a bunch of parts in a box, shaking it, and hoping you end up with a beautifully integrated solution. Integration hell is the reason big commercial firms dominate when it comes to large integrated systems.
If you want to see a couple of guys learning how to farm from scratch, visit https://www.youtube.com/@spencerhilbert. Spencer and his brother made a bit of money off games and Youtube and have been starting out on corn, hay, as well as raising beef. It gives a pretty good insight into how pervasive tech is in farming, and how despite that, how much of farming still relies on hard, physical work.
> raising beef
Is that cows? English isn't my first language, so I thought beef was the word just for the meat, with all Normans eating while Saxons raising thing.
However, I'm not as interested in being a farmer at that level. I'm much more interested in the homesteading aspect of farming. I'm not trying to feed the world as much as me and mine and maybe some extra. So not just farming, but also some ranching with sheep/goats/chickens/pigs. I have friends doing this that I'm keeping an eye on. They had a head start as their kids grew up in FFA and are already familiar with raising live stock, and then having them processed to make that part much less daunting.
So a DIY solution is aiming for somewhere in the center of the market -- enough scale that it makes sense to bother, but not enough enough money to avoid the headache of DIY. It might make sense for some mid-sized farms in developing economies, but it seems to be a narrow window to me.
It went a bit too far, optimum would be modern enough to have drive by wire but with open ECU and documentation
It is no harder than doing it with an ECU, except that you need to install a servo or speed governor with hand tools, instead of fiddling with ECU code.
These governors are basically mechanical analog computers which use the inertia of flyweights, springs, and some very clever linkages to do their thing.
And it's a bit easier to make 3rd party addons when you just have some open bus standard, not "mount that servo on a gas pedal"
Also note that maintaining a particular AFR in a diesel is kind of a non goal, at least from the perspective of engine performance. With the older style, simple injection systems that are user serviceable you only get one pulse per cycle. So you can't really change AFR without compromising torque output. For a tractor, when I set the lever all the way forward I (the operator) expect it to maintain revs sufficient to maintain 540rpm at the PTO unless it is not able to do so (fueling maxed out under load). Putting more load necessarily means more fuel in for a given RPM, ergo higher AFR. Note that turbocharging changes this equation a little.
Edit: specifically thinking of https://comma.ai/
But tech in general is perhaps in a growing-up phase, we had Arduinos and Raspberry PI's filling a similar need (computer to electronics being needlessly complicated) that was initially filled from the low-end, but now we have faster SBC's and stuff like Framework laptop's that is expanding the range of options for repariable/replaceable/hackable parts up to the high end today and farming equipment is probably destined to get a similar range of options.
An interesting note here is, will cars also start getting a range of more hackable options, mechanics are ingenious already but it's still very much hacks without manufacturer support, but a new manufacturer providing a low-cost base could very well pop up and grow quickly if they establish an ecosystem.
This needs to be solved at government level with right to repair laws and requirement for open standards instead of believing in magic of "free market".
It also has a massive agricultural sector. You know how Canada is known as an oil and gas powerhouse? Agriculture is more than double the size of o+g in Canada.
I think the most well educated country on earth, with a massive, highly automated, agricultural sector might be able to reason about tractor software.
You are certainly aware that we , in Canada, have expertise in software that is quite a bit more advanced than tractor software.
Buuuuut, the cost of implementing that stuff hurts the competition way more, so Deere and friends don't really fight it.
They're trading absolute market size for stronger control over market share. Less people are going to buy their products at the margin if the products are made worse. But those that do will buy it from them, so more profit.
Yeah, we're talking about the same thing.... the word for a rich person who exchanges their cash for non-cash assets is "investor"
Have we learned nothing from what happened to the US's industrial economy.
If you turn the farm into an obviously poor investment it'll go tits up because neither wall street nor main street is dumb enough to invest money into a losing proposition.
However, financiers played an indisputable role in the current state of economic wealth in today's world.
Any argument made without acknowledging this is purely in bad faith. The problem is not regulation that benefits OEMs. The problem is that you can simply purchase regulations that benefit you.
It looks like magic because it works like magic. Surprisingly it is also possible to believe in the magic of "government intervention" though it looks less like magic and more like unintended consequences.
Farmers are just pissed they lose the ability to repair the vehicle easily or get stuck with monthly subscription because tractor company has changed the terms and you are praying they don't change it further.
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Tractors aren't cars. It isn't merely inconvenient if they are unavailable at crucial times, so ease of repair is critical. Farmers have always done as much of their own maintenance as possible. John Deere has spent a lot of time taking away the reliability and ease of repair that farmers need in order to give them "advanced" features they don't need.
Farmers who want advanced capabilities might now look to build them on top of no-tech tractors with open-source solutions rather than trusting John Deere again. That way, if the "would be nice" tech has problems they can rip it off and get the harvest in without it.
Well, sure. Maintenance is an off-season job. Its that or sit on the couch watching TV, so you may as well be in the shop getting equipment ready. Even if it takes you longer than an experienced tech, does it really matter? Not really. The winters are long.
Repairs are a different story. When things break, you need it fixed now. Wasting a day trying to figure out how to separate complex, seized parts from each other isn't time you have. You're going to be hiring a mechanic who has done it a million times before.
Of course, more important than who does the work is part availability. Having the human capacity to get something fixed means nothing if you cannot also get the parts you need. I've certainly been caught more than once needing to wait a week on a part, which is not a fun place to be. And this is where John Deere has focused their business: Doing more to keep parts available near to where the farmers are, so that you can get parts exactly when you need them. This is, above all else, why John Deere is the market leader.
> Farmers who want advanced capabilities might now look to build them on top of no-tech tractors with open-source solutions
I have been going down this road and am starting to regret it a bit. The saving grace is that I have found enjoyment in building a system of my own. But if I found it to be a chore, at this point I'd have deep remorse that I didn't just pay someone like John Deere for a fully delivered, highly polished solution. I know the HN crowd tends towards the DIY, but, having actual experience here, I don't see this happening outside of the small subset of farmers who find fun in it. It is a decent hobby for those so inclined, but from a purely commercial perspective the time and effort can be better put to use elsewhere.
1. No matter how great of a shade tree mechanic you are, you will never be able to fix it faster than someone who does it every day. They have found all the little tricks and quirks about your machine that your casual maintenance will never uncover.
2. While large farms with full-time mechanics on staff have been known to make deals to warehouse parts in their own shop on consignment, much more realistically for any kind of normal farm you are going to have to drive to the dealership to get the parts you need. Whereas the dealership tech can bring the parts to you. Meaning that you have to travel twice as far, taking twice as long, to get the parts back to your equipment than if you call a mechanic.
The things that are likely to fail under use where there has been proper maintenance tend to be the things that are unpredictable and catastrophic, at very least requiring parts, and most likely requiring advanced knowhow. And at that point, the dealership tech is going to be faster at getting you back up and running, even if you could theoretically pull it off yourself. So, realistically, there isn't much of a compelling case for doing your own repairs when time is of the essence.
Farmers are often willing to accept more downtime to do it themselves out of pride, though. I admittedly often fall victim to that myself, so I get it. But it’s clear that the farmers who are serious about farming as a business aren’t dinking around trying to fix things themselves. It is not economically prudent to do so. Granted, not all farmers farm for business sake. For many it’s more of a hobby or lifestyle and wanting to be a part-time mechanic can play into that.
Not sure how much appetite there is for that but half price + 5 grand in off the shelf electronics seems like something margin sensitive farmers would do.
Always better short and long term to bring and maintain your own smarts.
This tractor will last 50 years (and maybe more). Your grandchildren will be able to still use it. That longevity is the primary reason farmers would be super interested in this.
Some jobs (like mucking a barn for example) don't require a high-tech tractor. Sometimes you just need a workhorse that you can trust will start, run and do the job. Every single time. I still see farmers running old minneapolis-moline tractors from 100 years ago!
There's lots of other electronics in most modern vehicles, but the public manufacturer rationales for electronic lockdowns almost always point back to emissions concerns because they're so defensible. How do you separate them?
I would have expected policy to be pragmatic here, with (relatively) relaxed emissions requirements, since an affordable and reliable food supply is in the national interest? Sounds like that's not the case
Sometimes. Above 26HP tractors do have to have emissions controls like diesel particulate filters now. Below that they don't.
Two stroke engines are pretty terrible in terms of unburned hydrocarbons and are disgusting for local air quality, which is why I'm glad they're being phased out in many areas.
I'd expect these tractors with I6 diesel engines to run pretty efficiently. I'd bet that the CO2 emissions from tractors are tiny in comparison from the emissions from trucks, fertiliser, and transporting the food.
I would still guess that lawnmowers produce more emissions overall, given that there are so many more mowers than tractors. But they get used less often than tractors, so who knows? Either way, I agree with your thinking process, that the most economical way to reduce overall emissions is to focus on what are actually producing the bulk of emissions.
I don't know how much better cars and trucks can get, and for mowers maybe electric is the answer. Mine is gas-powered, and I know it runs rich. I would love to come inside after mowing and not smell like fuel, so I'm in favor of better emissions controls on mowers.
The future for tools is electric 100%.
they may have a place in the distant future but in 2026, aint no way.
I haven't used one, but I saw a youtube review from Project Farm. You can check it yourself. https://www.youtube.com/watch?v=u6FM_08066I
The DeWalt chainsaw was similar or better than Stihl, in a different series of tests, including cutting trough 10 inch logs.
There were other brands which would stall or be worse, so it depends on the brand.
There's no particular reason why a mechanical device needs computers for emissions, as the emissions removing components can still be attached and managed via simpler means. All emissions removing components are effectively physical devices, whether you are talking about carbon filters or PCV valves or particulate filters or the urea fluids that are added to the fuel. None of them requires complex software in order to function. There is no reason why you need to buy an official John Deere branded emissions component that is software locked to tractor and costs 10x the price of third party components that do the same thing.
Also, there is a large room to maneuver between "I want a sensor with some circuitry in it" and "the entire tractor is a proprietary computer with locked down parts". The right to repair movement is not about removing tech, but removing unnecessary proprietary tech that is designed to prevent owners of devices from repairing those devices themselves or with third party components.
IF we wanted to do it properly, I'd imagine we'd have zero mandatory locks on ECU, just a little closed down black box with sensor installed in relatively tamper-proof way (of course there will always be one, the target is for 90% of people to not bother), logging away and maybe sending check engine light if it detects wrong AFR for too long.
Then you just check that on yearly MOT + any signs of tampering. Then owner is free to tune the engine as they want, provided the exhaust is still within the norms for most of the time.
Mandate common interfaces and open hardware. I shouldn't have to buy a $10k dongle to sniff codes. I certainly shouldn't have to buy a different one for each manufacturer.
They're still pushing the boundary today. The Ring Superbowl ad where they announced they're watching you (but they said "your dog") 24/7 apparently got a lot of people to quit Ring, and you know they're crunching the numbers to see if the retention rate is worth the extra surveillance collection.
With a $20 CAN transceiver, documentation and/or config files from the manufacturer, and a bit of Python or something, you could absolutely bench test those electronic injectors. You might even be able to pick your injection events and adjust the metering, supporting the equipment as it ages. I'd love to see Ursa Ag put in a Megasquirt engine controller [1] or Proteus [2] or similar. You can run TunerStudio on a Raspberry Pi and show it on a touchscreen on the dash.
It's possible to build user-friendly, inexpensive and open engine and vehicle controls. You don't need to have zero electronics to not have locked-down proprietary electronics, you just need to build the electronics in the right way.
[1] https://diyautotune.com/products/ms3357-c?_pos=2&_fid=69f494...
If a tractor with a clean-burning, efficient $7500k engine could be purchased and were designed around the theory that, in 20 years or so, the owner could reasonably quickly replace the entire engine (with a first-party or aftermarket solution), would that be a good solution?
The common tech that has solved these problems nicely (IMO) is network transceivers: SFP and similar modules are built according to multi-source agreements. They contain all kinds of exotic tech, and they are not intended to be serviced at all, but (unless your switch or NIC has an utterly stupid lockout) you can pull it out and replace it with an equivalent part from a different vendor in seconds, and those parts can be unbelievably inexpensive considering what’s in them. (Single-mode bidirectional 1Gbps transceivers are $11 or less, retail, in qty 2. This is INSANE compared the the first time I lit up a 1Gbps SMF link. To be fair, this particular tech may require one to replace both ends if one fails, but if you can spare a second fiber, the fully IEEE-spec-compliant interoperable ones are even less expensive.)
However one major sticking point is that (often.. maybe always?) the engine block casting is actually a structural component of the tractor "frame". Unlike e.g. a truck that has its driveline mounted between frame rails, a tractor's "frame" is its driveline . So this might add quite a bit of complexity and cost.
EDIT: I did have some nozzles bored out a little bit once by a shop with EDM equipment. Terrible results, not worth it.
So a prerequisite might involve fixing the patent system...
It's so bad the FTC and states had to sue Deere over just the right to repair. https://www.ftc.gov/news-events/news/press-releases/2025/01/...
The problem is computers and software enable lock-in, because of their flexibility and communications capability. Get rid of them, and you make lock-in much more difficult (or even impossible if you use "standard" parts).
Also, computers and software are complex, and that complexity is not physically visible. If you want something you can completely understand, it's probably a good choice to simplify by cutting them out completely.
In any case, EFI gives you more control over the engine and vastly simplifies the overall product. I don't know if you've seen the mechanical fuel-injection pumps used by tractor diesels; they are basically tiny engines unto themselves, with their own little block and camshaft [0]. There is an entire world of diesel performance modding with a subset of it dedicated to modifying the Bosh P1700 mechanical fuel-injection pump to change timings, handle higher RPMs, and run higher pressures. I would not call it, or its carburetor cousin in the gasoline world, "simple" compared to computer-controlled fuel delivery.
An open-source ECU project, on the other hand, enabled a hacker to implement Koenigsegg's Freevalve tech on a Miata [1].
[0]: https://blessedperformance.com/ddp-cummins-hot-street-p-pump...
This is so cool, shame that Freevalve never seemed to go anywhere.
The marketing excuse for the tech might be features or efficiency, but the reason for the tech is lock-in and minimising product lifetime.
The days when manufacturers had friendly, cooperative relationships with their customers are long gone :( Can we bring them back? I hope so, but am not hopeful.
People are just tired of being mislead and abused by corporations, which is why there is now a market for non-tech products.
Do you need it? No. Is it nice to have? Yes.
The strict "no tech" premise of these tractors feels comparable to someone disabling the cruise control feature on their own car because they read an article about BMW locking heated seats behind a subscription.
I don't know much about tractors, but I would think that surely there are some modern benefits that these Ursa tractors are missing out?
However, the article claims that they're selling really well, so maybe at that price point the tradeoffs are still worth it.
If you want more examples look into IoT products like smart toothbrushes, many of them now are "AI enabled".
Not sure they needed to go all the way to mechanical injection tho, this is just literally burning money away
But technology is expensive. That's the play here: To strip the tech so that the tractor can be sold for a fraction of the cost. And for the farmers who don't need tech, that might be appealing. They will never win over the farmers who are already buying equipment with all the bells and whistles, but there could be an opportunity to capture those who are still in something 50 years old and are looking to update to an affordable newer machine that isn't worn out.
Repairability will be the biggest concern for any potential customer. It helps that they've tried to stay as "off-the-shelf" as possible, but the article suggests they struggle to keep parts already and there is no dealer network to see that the parts are sitting where the farmers are located. John Deere is the market leader mostly because they've worked hard to make sure you can get parts as soon as you need them and not have to wait days/weeks to have it shipped from across the country/world, if they exist at all. The Belarus tractor saga taught farmers the hard lesson of what happens when the machine is cheap to buy but parts are difficult to source long ago.
Sailboats have the similar issue:
When are are in the middle of the pacific and get an egine problem, you want the engine to be low tech enough to be able to fix, or at least patch, yourself with minimum parts.
Yanmar switched its whole lineup of engines to ECU around 2014, but the one without ECU are very much sought after for the above reason.
1. This fails, goes away and we're back where we started; or
2. They take the bag and sell to John Deere, who then locks down the tractors in the same way to force you to buy support, official parts and so on. And that'll happen. It's a bait-and-switch so somebody can get rich.
The only solution to this is collective ownership or some other non-profit structure so a handful of owners can't sell out and cash in.
Look to Spain's Mondragon Corporation [1] for inspiration.
[1]: https://www.newyorker.com/business/currency/how-mondragon-be...
3. JD buys them, competition works, others notice they can just "build a tractor that's simple", and suddenly there are more competitors to choose from. JD still can't compete, and can't buy them all...or operate on small margins.
Tech for improvement for customers vs tech for moats/enshittification, especially when imposed by one side on the other.
The latter is never very good.