Yes correct and agree that one deploys as much as he can for maximum lap time, and what do you do with the ES/battery state of charge as regards the next lap?.
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Formula One's governing body has announced that it has come to a settlement with Scuderia Ferrari after investigations into its 2019 power unit, considered the most powered in F1.
Yes correct and agree that one deploys as much as he can for maximum lap time, and what do you do with the ES/battery state of charge as regards the next lap?.
4MJ per lap is what it is limited at.Tzk wrote: ↑28 Jul 2018, 13:11Long time lurker (and new user) here. I'm not sure if this has been pointed out, but has anyone noticed the wording on the Energy flow diagram? It says:
"The difference between the maximum and minimum state of charge of the ES may not exceed 4MJ at any time the car is on track."
Most users on here seem to assume that you thus only may use 4MJ per lap our of the ES in total. What i read here is that you may deploy from the ERS infinitely, but only 4MJ at a time and only if you're able to recharge those 4MJ between deployments (so not violating the min/max delta of 4MJ in the ERS).
Example to make things a bit clearer:
Let's assume a regular circuit with corners and straights. We exit a corner with fully charged ERS and deploy the full 4MJ while accelerating on the straight. While on the straight, we're able to harvest 4MJ again and charge the ERS. Now, if we exit the next corner, we're again (!) able to fully deploy 4MJ of energy from the ERS without braking the rules.
Maybe this is the trick Ferrari is using?
Could you please point me in the right direction where the regulations state this limit, please? Note that we're not talking ES->MGU-K deployment here, but total deployment of ES.
maybe you can come forward with other K recovery methods, just practice what you preach.AJI wrote: ↑28 Jul 2018, 14:07The bold and "quoted" part of your statement contradicts your acknowledgement of other K recovery methods… You know, that contradiction… Man, you're impossible.saviour stivala wrote: ↑28 Jul 2018, 13:54CONTRADICTION? what contradiction you see? you will do better looking at your post for contraditions, because first i wasnt suggesting ways it could be done, i was qouting how it was being done. and secondly being done while burning fuel harvesting was still triggered by the brake padel being pressed.AJI wrote: ↑28 Jul 2018, 13:43
Why would you get a down vote when you make sense? The fact that you state that ERS-K harvesting "is only triggered by pressing the brake pedal", then go on to suggest that it can be done other ways doesn't exactly help your argument, but it doesn't deserve a down vote IMO, but at least consider the contradiction in your argument..?
I thought it was free load mode lap after lap, as mentioned by you.saviour stivala wrote: ↑28 Jul 2018, 14:09Yes correct and agree that one deploys as much as he can for maximum lap time, and what do you do with the ES/battery state of charge as regards the next lap?.
You've already quoted the obvious ones for me, in your post, that I referenced… Do you even read what you write?saviour stivala wrote: ↑28 Jul 2018, 14:33maybe you can come forward with other K recovery methods, just practice what you preach.AJI wrote: ↑28 Jul 2018, 14:07The bold and "quoted" part of your statement contradicts your acknowledgement of other K recovery methods… You know, that contradiction… Man, you're impossible.saviour stivala wrote: ↑28 Jul 2018, 13:54
CONTRADICTION? what contradiction you see? you will do better looking at your post for contraditions, because first i wasnt suggesting ways it could be done, i was qouting how it was being done. and secondly being done while burning fuel harvesting was still triggered by the brake padel being pressed.
That would certainly seem to be a useful approach.hollus wrote: ↑28 Jul 2018, 13:27Could it be extra acceleration be as simple as deploying in the middle of the long straights, hence "reaching top speed" earlier, but then harvesting from the H at the end of the same long straight, even when at full throttle?
Say you tell the system that the H is to add 50 hp to the ES every time you are above 300km/h (and maybe say unless the third paddle is pressed?). You are effectively robbing the engine of power near top speed, but a 5% reduction in power near top speed is only a change from, say, 320km/h terminal speed to 314.4km/h.
Surely the time gained reaching 300 outweights the losses for the while over 300, while the extra harvest can be put to good use in deploying for longer in future straights?
Hmmm... not 100% sure this is making sense, I might have confused myself there.
“ lets assume a regular circuit with corners and straights. We exit a corner with fully charged ERS (it is the ES which can be fully charged or not) and deploy the full 4MJ while accelerating on the straight. While on the straight, we’re able to harvest 4MJ again and charge the ERS (ES), now if we exit the next corner, we’re again able to fully deploy 4MJ from the ERS without breaking the rules”. Deployment is only possible by ERS-K, It is the ES that is charged, so it means that your deployment to the ERS-K through which deployment is only permitted can only be 4MJ per lap.
Please refrain from posting incorrect or misleading information. This will only confuse others that come to this forum and don’t realize the source.saviour stivala wrote: ↑28 Jul 2018, 14:57“ lets assume a regular circuit with corners and straights. We exit a corner with fully charged ERS (it is the ES which can be fully charged or not) and deploy the full 4MJ while accelerating on the straight. While on the straight, we’re able to harvest 4MJ again and charge the ERS (ES), now if we exit the next corner, we’re again able to fully deploy 4MJ from the ERS without breaking the rules”. Deployment is only possible by ERS-K, It is the ES that is charged, so it means that your deployment to the ERS-K through which deployment is only permitted can only be 4MJ per lap.
I was under the impression (at least me) that we were talking ES to K deployment. because as far as I know only ES is the thing that can be recharged.turbof1 wrote: ↑28 Jul 2018, 15:24There is no 4MJ deploy limit. We already established that. The discussion is not moving forward by going in the cycle of "yes it is" "no it isn't". Next time posts about it will be removed.
So to fully state as a FACT, because it is a fact, there is no actual 4MJ deploy limit. There, now we can move on.
Would it not be the most benefit to have the highest speed for longest, as it covers the most ground is shortest time?henry wrote: ↑28 Jul 2018, 14:56That would certainly seem to be a useful approach.hollus wrote: ↑28 Jul 2018, 13:27Could it be extra acceleration be as simple as deploying in the middle of the long straights, hence "reaching top speed" earlier, but then harvesting from the H at the end of the same long straight, even when at full throttle?
Say you tell the system that the H is to add 50 hp to the ES every time you are above 300km/h (and maybe say unless the third paddle is pressed?). You are effectively robbing the engine of power near top speed, but a 5% reduction in power near top speed is only a change from, say, 320km/h terminal speed to 314.4km/h.
Surely the time gained reaching 300 outweights the losses for the while over 300, while the extra harvest can be put to good use in deploying for longer in future straights?
Hmmm... not 100% sure this is making sense, I might have confused myself there.
The most likely extra power would come from extending the period that electric-supercharger mode is deployed. If,say, they could deploy from 250kph to 300 and others couldn’t it might require about 250kJ extra from the ES. From 300 on the 120kW minus whatever the MGU-H is making, then when you come to harvest it also relies on what the H can make.
So if you can make more from the H you can deploy the electric supercharger mode longer, get to speed quicker and sacrifice a little top speed to recharge the ES.
As an example if you can make 80kW from the H instead of 60kW. After 300 kph you could run 4 seconds at self sustain plus then 2 at ICE only, harvesting from the H. You would get an extra 120kJ plus you’d have higher part throttle charging and, perhaps, higher blowdown and so lower discharge rate during electric-supercharge. So not far from being able to deploy from 250 to 300.
It doesn't take much computational power to run machine learning (little devices e.g. phones, camera's come loaded with it these days). The only aspect that requires computational power is the building the model, which wouldn't be done in the car, but by code writers in an office.PhillipM wrote: ↑27 Jul 2018, 22:45You don't have that sort of compute power available on the car, not even close.GrandAxe wrote: ↑27 Jul 2018, 21:58The FIA has said that the Ferrari system is very complicated and considering that the power boost is only coming to some teams after a software upgrade, the mind immediately considers AI.
A theoretical software map might include machine learning software that can turn hardware (or other software) switches on and off depending on circumstance - that way, alternate functions of components can be concealed. Such an approach would confound the devil out anyone outside the implementers of the software and hardware. Machine learning software on its own is very complicated, talk less a system that might be part software, part electronic hardware, part mechanical/hydraulic/pneumatic.
Such a system might be able to learn and react to sensor readings as well as other parameters to know when to switch modes, so that the FIA (and you or I) would never be the wiser. For instance, if all the FIA has to monitor compliance are two DC sensors, then they might be beaten if circuits are made to behave in non-obvious ways, or their functionality changes completely.