have wished for decades now there was an open-source Garmin on the level of Cyanogenmod / LineageOS for Android
not sure if it will happen this decade but definitely next decade
proper running/cycling metrics are hard as demonstrated by how many well-funded competitors are somewhat close but not there 100% yet (Coros, Amazfit, etc)
someone once hacked and decompiled older Garmins but newer ones are encrypted/signed/locked-down
I'm very excited about this. GPS was the final piece of the puzzle.
I love(d) my bangle.js. Such a true hacker device. Really fun to use WebUSB and push JavaScript files as apps.
But the GPS on that device was a mess, honestly. I know this is a complicated problem but having to synchronize to satellites and recalibrate all the time was beyond me.
I really wanted it to work because I built my own toy run tracker visualization tool.
I am curious about this new lilygo device because it sounds like it has an alternative location sensor: "A u-blox MIA-M10Q GNSS module provides accurate location tracking..."
I'll need to look that up. Anyone have a summary on what's the difference between that and regular GPS?
The underlying Garmin platform is so old that it predates iPhone/Android. I think you can plug in many Garmins via USB without any special software and simply copy activities and data off the watch.
They had a segment of customers who wouldn't have or be allowed to connect a phone - triathletes, long-distance hikers, military. But it's been slowly changing as users want more modern features and the company wants to increase sales.
not sure if this will help you but there is a neat website that allows you to build free maps for older Garmin models that didn't have them at first like Fenix5
1990s is going way back though, they didn't even have mass-storage mode then, it was their proprietary "garmin mode" for usb which only things like BaseCamp can talk to
That's actually only cheap because of the free shipping - in Germany 450W panels are at about 55-60€ retail right now, for example. So a balcony set (2 panels for 1kW total, plus inverter) is about 150-200€, depending on the specific parts. Both exluding shipping, though.
Prices fell dramatically in the last few years, if I understood things correctly the high prices in the US are mostly due to tariffs.
That’s right. The current US president just reversed some of the previous administration’s Infrastructure Act which provided about 30% tax credit for installing solar.
>It was pretty symbolic back in 1979, too. The symbolism depended on what you thought of Carter and his policies. For some, the panels were a much-needed acknowledgment that America had to wean itself from fossil fuel, explore alternative energy sources and help save the planet. For others, they were in the same category as Carter’s virtue-signaling cardigan. Of course, critics moaned, Carter would put solar panels on the White House.
>The panels came down in 1986 when the White House roof was undergoing repairs. Ronald Reagan did not have them replaced. Of course, Reagan wouldn’t put solar panels on the White House.
What is the story behind Reagan taking down the solar panels installed by Carter? Was it symbolic of a new, less enthusiastic approach to clean energy?
>On June 20, 1979, 32 solar water heating panels were placed on the roof of the West Wing. The panels were made by InterTechnology/Solar Corp. from Warrenton, Virginia and installed by Hector Guevara of Alternate Energy Industries Corp.[2] At the dedication ceremony for the panels, President Carter said, "In the year 2000 this solar water heater behind me, which is being dedicated today, will still be here supplying cheap, efficient energy... A generation from now, this solar heater can either be a curiosity, a museum piece, an example of a road not taken or it can be just a small part of one of the greatest and most exciting adventures ever undertaken by the American people".[1]
The whole installation cost $35,000 in 1979 (about $160,000 now).
They were not photovoltaic solar panels, but solar water heating panels - i.e., running a ton of water pipes on the roof where they're perfectly placed to leak and potentially damage historically-significant artifacts. I'm not surprised they removed them when resurfacing the roof (not right when Reagan entered office, but in 1986).
Kind of a shallow point that ignores glaring implication that it would have been the piping, in/out/relief et al passing through the roof that would have been the issue, causing water to enter and travel.
I'm in the US and it's showing a 100W panel for USD 37.21 (free shipping, including tariffs but not state/local taxes).
Also the panels Carter installed were solar water heaters - in 1979 solar photovoltaics were just starting to expand beyond satellites and cost like $40/watt.
$37.21 for a 100 watt panel with free shipping. I'm not sure if that is before or after 50% tariffs and/or the 10% "fentanyl" extra tariff that was announced a few days after Ross Ulbricht's pardon for running the world's largest opiates-by-mail operation.
You can buy brand new in bulk in the US for roughly the same $/watt.
I bought 30 375w Canadian Solar panels 2 years ago and paid $0.41/watt (~$4536 for the whole package)
My mounting equipment actually cost more than the panels (~$4600). And the permitting process cost nearly as much as the panels (permit cost + architectural drawing + structural engineer stamp + electrician stamp).
It's crazy how cheap solar panels themselves are getting. They're going to win on the energy front - period. Especially now that battery tech actually seems to be moving again. I vividly remember one of my robotics professors in undergrad ranting about how frustrated he was with battery tech in ~2007, but LFP and sodium batteries are both pretty huge steps forward.
Another data point: my entire system in Switzerland cost me 1.3CHF/Watt including a 20kWh battery and 5000 CHF of scaffolding costs (needed because of our local OSHA equivalent laws when installing panels on a tilted roof).
How much does power and grid delivery cost in Canada to make this economical? You're into this for $15,000 what is your payback period? Are there other ameliorating criteria for success?
I'm actually in GA (Canadian Solar is the panel manufacturer - CSI). Power is cheap in my region, and I was in ~$30k after all costs including the battery storage (LFP).
It covers 95+% of the my usage, and I use a fair chunk of power. My payback period will be almost exactly 120 months (10 years) if my power costs remained the same as they did at estimation time.
But they won't. We're already seeing relatively large rate increases (GA power has "locked" rates but conveniently has a floating "fuel charge" which is currently more than the base rate per watt...).
I expect it to take 6 to 8 years to entirely recoup costs. It helps that I did the install myself, so I avoided contractor markup. Quotes from contractors for a similar install were running ~60k+ which felt (and was) insane, although STILL profitable over the lifespan of the install.
Panels should then last another 20+ years after repayment with only minor maintenance.
It's shocking how easily they pay for themselves right now, assuming you get decent sun on your property.
That sounds like a reasonable investment I appreciate you walking me through it, thanks.
I'm in New York state, power here is still relatively cheap, $0.2/kwh delivered, low solar insolation angle and snow cover during highest demand months should strongly disincentize solar here. Some homeowners took the plunge when rebates and incentives were at their peak but those are starting to phase out.
We're still seeing a high rate of industrial solar being placed in ag zones. New York has some of the most fertile soil in the country, and supplies significant ag resources to the northeast. cSi cells are liable to leach lead into ag soil and watersheds, and solid waste disposal are looming problems without regulatory structure in New York. I'm afraid that in my home state we're going to see a net negative impact from solar.
The state is now pushing local municipalities to site grid scale BESS systems. This works because storage doesn't need to be close to demand, so they're being pushed into poor rural communities. The problem is local fire departments are undertrained and under equipped to deal with emergencies at BESS sites. It's inevitable we'll see an uncontained fire in upstate New York and the consequences will be difficult to manage.
This all may sound like gripe. But I'm genuinely curious about the economics of solar because at the end of the day it's the determining factor in the cost benefit analysis.
Modern production no longer includes lead (lead free solder).
For comparison... a single tank of leaded gasoline could hold more lead (1.1g/gallon) than a solar panel and unlike solar panels where the lead is insoluble and stable... burning the gasoline aerosolized the lead. So does burning coal (another significant source of lead contamination...).
Basically - I'd worry a hell of a lot more about lead pipes, lead paint, lead coal ash, and lead av gas before I worried about lead in panels. Lead solder is used in a wide variety of products still, but it's usually not considered a contamination risk.
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Look - all forms of power generation have risks and downsides. Solar does outstandingly well compared to basically everything else we've got. It also happens to be cheaper to deploy, and it's still getting cheaper.
If I were rural and had to pick between an ESS system with LFP batteries and a coal plant... I'd pick the batteries EVERY DAMN TIME. Hell - I'd probably pick an LFP ESS system over a new golf course in terms of my own safety...
Yes, today there are zero coal plants (although one that uses it as an alternative generation means still).
Funny that we've managed that over the last ~10 years... it's almost like some other power sources are magically replacing the harm that they'd do?
because there were plenty of them ~2010, I'm aware of at least 8, I'll list them
- Samuel A. Carlson Electric Generating Station (still uses coal as alternate fuel today)
- Fort Drum (converted from coal in 2013)
- Kodak Park (converted from coal in 2018)
- Westover 8 (coal, retired in 2011)
- Hickling Power Station (coal, retired in 2000, so I didn't count this as one of the 8)
- Cayuga 1, 2, IC1, and IC2 (coal, retired in 2019)
- Dunkirk Generating Station (coal, retired 2016)
- Huntley Generating Station (coal, retired 2016)
- Somerset (coal, retired 2020)
Almost like... installing alternative power means we can remove really, really nasty sources? And hey, NY isn't as strong a contender for solar as it is wind. But the economics of wind are a lot harder in more places, and solar is still gaining ground (47% decrease in installation costs measured in NY over the last decade).
And I'm aware a lot of this is a shift to natural gas, it's cheap and flexible, so we're bridging old plants to ng as we ramp up alternatives.
Maybe you should consider what it is you're looking for in policies instead?
Solar didn't replace the coal because solar isn't productive in winter when demand is highest.
>And I'm aware a lot of this is a shift to natural gas
Woops, there it is
>Maybe you should consider what it is you're looking for in policies instead?
I'm looking for truth in advertising. Solar has been adopted largely for political reasons, without duly recognizing the full cost.
Batteries are being pushed into NY now to shift solar power from day to night, and from sunny days to cloudy days, a cost not accounted in the original sales pitch. Liquid phase batteries containing toxic chemicals and track record of fires - being pushed into poor communities than can't afford to properly deal with the issues.
But even batteries won't fix the real problem - solar is seasonal, and it produces power during the summer, and in New York the summers are warm and pleasant. But in the winter, when it's cold and dark, solar power drops out, and there's nothing you can do to fix that.
Now the goal post is shifting again, and the search is on for a site to build a nuke plant along the shore of Lake Ontario - far from the strong NIMBY environmental groups of NYC
Frankly, the US EPA has established there is no safe level of lead exposure. Lead is bioaccumulative. To be placing lead containing materials in prime ag land should be considered seriously and with a sober mind.
I spoke to a colleague today who works closely with rural communities on emerging issues like industrial solar. He says he is recommending his clients to require baseline soil testing and annual soil testing to confirm hazardous materials are not being released to the environment. He said his clients have not seen elevated lead levels, but the concern is warranted. He also recommends 30 year decommissioning bonds be established prior to construction and $50,000 highway bonds for damage to road surface. Bottom line, serious people are requiring serious commitments from solar developers.
Look - I agree with you that concern is appropriate.
I disagree strongly with you when you start making claims like
> cSi cells are liable to leach lead into ag soil and watersheds, and solid waste disposal are looming problems without regulatory structure in New York. I'm afraid that in my home state we're going to see a net negative impact from solar.
I think you're no longer making a real argument based on facts and data at this point, you're making an emotional appeal that supports your existing bias. You're taking any negative, exhaustively focusing on it with exclusion of facts about alternative power generation means, and then declaring solar bad.
But I think the blunt reality is that basically every other form of power generation we have has negatives that outweigh those of solar (often by fairly incredible margins when we look at generation costs alongside those negative externalities).
So if you really think that moving batteries once for installation is more harmful to road surfaces than a never ending stream of fuel tankers that weigh up near 100k lbs... or that solar is worse than fracking for natural gas, or pollution from coal, or the environmental destruction and waterway damage from hydro... Well, then we don't agree. Period.
And sadly for you... solar has the benefit of being much cheaper to install and maintain. So the economics mean it's coming.
Not at all. Basically everywhere had a one for one feed in tariff when residential solar was new in their area.
Friends in Australia are still grandfathered into that (they got a 1.3kw system in like 1990)
In Germany for a long time the law was three to one for green energy you generated and gave to the grid. Ie you put in 1kwh they credit you 3.
Even today basically every location can grid tie and get a feed in tariff, the ratio just depends on how many people in your area got residential solar before you.
Subtropical latitudes in continental US markets, you're looking at like $2/yr/sq ft of value for the power output.
I'd want solar panels for like $5/sq ft installed, expecting 10 years of life.
It's going to cost $1000 minimum to install, so the panels need to cost $2/sq ft x 300 sq ft to make this worth it. $1000 to install 300 sq ft + inverter and electrical panel upgrades seems light but might be reasonable we'll go with it.
Larger than a balcony, but maybe in the realm of possibility for a roof.
Right now solar panels cost what? $10 per square foot? Have they reached the physical limit of economic production/storage/transportation at $10 per sq ft or can it go lower?
(Let's not get into battery micro-storage economics).
When you consider your other option is a whole house generator which sits idle 99.99% of the time, requires regular maintenance, vs the fact that a solar / battery setup is providing resiliency AND lowering your power bill every month, it seems like solar / bat is a no brainer.
Your money, your choices, but I know which one I'm doing when I get a single family home.
Such as? I've looked into the options, you can either get a whole house generator, which suffers from all the issues I described, or get a solar setup. I suppose if you lived by a stream you might be able to hook up a microturbine for hydro but that's very situational.
Cost is not the highest deciding factor for me. The resiliency renewables grant you would be worth it even at a premium
It's a nice video, but a striking thing about it is that it ends with "I just want my infinite free energy". Where on earth is that supposed to come from?
Fusion is ultimately a fancy way to boil water. The tokamak (or stellarator) heats a given amount of water per second, which after losses to power the plant itself and the losses in the steam turbine, makes some finite amount of MWh to output to the grid. This contraption is as the video says very non-trivial to design and build and so it costs some very non-zero amount of money, and lasts a finite time (walls are damaged)
Big $$$ / finite_amount_of_mwh / life_expectancy = min_cost_per_mwh, if we want to pay this thing off. Very possibly more than existing methods.
I'm extremely on the side of doing scientific research, but I'm baffled by constantly bumping into people who suggest somehow fusion is going to mean infinite free power, or anything even close to that.
So far the tech seems headed towards just being an alternate form of a fission plant -- complex, expensive, slow to build, possibly won't ever make a profit. Likely worse, since fission is a known, mature tech.
I had the same thought recently, that if a new power source was created that was like, a perpetual superheated cube or something with no input costs, it still might actually be beaten by solar + batteries. If not right now, then in just a few years.
Since you'd still end up having to build a gigantic heat exchange setup with steam turbines, pipes/ducts/pumps, generators, valves, gauges, vents, maybe even a cooling tower, etc. Plus a labyrinth of catwalks, ladders, access tunnels for workers in hard hats servicing/inspecting/replacing stuff who are on-site 24/7 and exposed to non-trivial occupational hazards dealing with superheated liquids at high pressure every day.
The entire concept of a steam turbine is just fundamentally a big hassle compared to an inexpensive solid state slab + batteries that are modular and basically plug-and-play by comparison.
IIRC the one of the first times a group put timelines to a fusion reactor they had time vs funding level of something like 20 years/50 years/never, and the funding level that actually materialised was below the 'never' amount and yet it started the 'always 20 years away' joke. Now I think the timeline was probably still optimistic but fusion is also obviously a very expensive thing to develop and while it's gotten a lot of funding it's still at the 'in the background' level.
Then they are wrong. The biggest problem is efficiently gathering energy from the fusion reaction. Right now, we can only get a tiny fraction (less than 1%) of the energy out. If that can't be raised to 50% or so, fusion will never happen.
Found this facinating post by someone in the Biden Administration who almost got BeiDou finally approved for US civilian use considering all modern chipsets in phones and watches already support it, just blocked unlike Russia's GLONASS which is allowed?
> "With little funding or congressional support, I proposed integrating China’s BeiDou satellite navigation system as a backup for civilian use to enhance redundancy and interoperability across the private sector, including in critical infrastructure. The proposal raised eyebrows. Over time, however, it gained traction with key stakeholders across the executive branch, including the National Security Council, the National Space Council, the Cybersecurity and Infrastructure Security Agency, and the Department of Transportation. Unfortunately, the administration’s time in office ended before I could bring the proposal to a broader group of agencies for review and approval. A new opportunity may now be on the horizon."
> "The National Space-Based Positioning, Navigation, and Timing (PNT) Advisory Board, which offers independent guidance to the U.S. government on GPS policy, issued a summary report from its 27th meeting held on 16–17 November 2022. During the meeting, it was highlighted that "GPS’s capabilities are now substantially inferior to those of China’s BeiDou"
Unless somebody snitches there's no real way to prosecute insider trading. You can say you just felt like making a trade, or that you read one of Trump's posts the moment he put it up on Truth Social and you just happened to have the trade ready to go.
Unless they're absolute morons, the people doing insider trading for large sums of money will have already built a strong alibi.
> Unless somebody snitches there's no real way to prosecute insider trading. You can say you just felt like making a trade
If you have perfect opsec, sure, you'll just waste a few years and hundreds of thousands of dollars in court. If you texted a friend, or told a friend who then texted a friend, or traded too soon after receiving privileged information, you're probably fucked.
> Unless they're absolute morons
At least in securities, the dirty secret is most insider traders are in Congress and/or morons.
In some nations just gambling on a war that your soldiers have died in would ruin people's careers and possibly their lives permanently as they are shunned by society.
In other nations you can illegally sell arms to Iran in order to illegally evade congress's attempts to stop you supplying money to terrorists, illegally shred evidence and lie to congress under oath about it all and get a job as a pundit on Fox News.
you can say you just felt like making a trade, or that you read one of Trump's posts the moment he put it up on Truth Social and you just happened to have the trade ready to go.
An employee with access to Truth Social's backend can in theory do this by reading the tweets he's writing before he sends them.
I'm not convinced there won't be someone with a chip on their shoulder eager to snitch. Trump has been known to leave folks out to dry once they're used up (for example, Ruby Giuliani and Mike Lindell). Just today there's been discussion about how Kash Patel feels like he's on the chopping block:
Given Trump has promised blanket pardons for any illegality from his administration during his term, I think the question will be whether pardons for crimes not yet investigated/charged are covered by the pardon and whether anyone will pursue those investigations and convictions.
Democrats have historically not really been willing to do anything if there's any plausible sounding reason for doing nothing, so I'm guessing they'll jump at the opportunity to wave away the insider trading stuff. Let bygones be bygones, you know, in the spirit of bipartisanship and comity. They slow-rolled prosecuting the crimes of the first Trump administration. So slow that he was re-elected before anything began to happen.
The President is singlehandedly kept this side of functional via infusions of this drug each month
https://beingpatient.com/fda-alzheimers-leqembi-nih-memo-tru...
They mysteriously rushed approval despite all other activity suspended the week after he was sworn-in
Watch how he disappears for a few days each month, that's why, it can only be done in a hospital and they have to do MRI for leakage
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