Go for it if you find it fun.red300zx99 wrote:Oh my. I don't even know where to start.
Brian
- Login or Register
No account yet? Sign up
After the German GP we were left with the issue of the torque maps being investigated on the Red Bull cars, which have now been policed by the FIA. But Renault Sport F1 deputy managing director, Rob White, sums up engine mapping and the latest developments, in an effort to bring some more clarity.
Go for it if you find it fun.red300zx99 wrote:Oh my. I don't even know where to start.
Yes I was thinking the same; they could have had a very complex map. Easy to test and perfect in a simulator for each circuit.gato azul wrote:I think, a lot of the current wording in the 2012 regs, has always been there, but buried somewhere in "technical Bulletins" or clarifications or whatever you want to call it.
The 2012 wording deals (tries to deal) with the reality of "state of the art" engine control systems, then their implications for the rule makers.
Read the 2010 regs as reference, there is nor mentioning of "driver torque demand" or whatsoever.
The just state that min/max throttle pedal position has to equal min/max throttle position at the engine, and that TC is banned.
Well, that was maybe a good reg, back in the days of throttle cables and linkages, but has little relevance with today's engine control strategies (even for road cars).
The 2012 rules are an attempt to cover all bases, traction control, stability under braking, compensation for KERS activity, exhaust blowing etc., it's more then just one or two single things.
The media makes a big fuss about the possible aero benefit, mainly based on last year, but I would like to think, that this at best is a secondary consideration, and I would agree with posters here, saying that one of the main advantages could be tyre management and improved driveability under low grip conditions, where the cars are traction limited (slow corner, wet etc.). Sure, a little extra downforce will help, it always does, in these conditions.
I think, to fully understand, what RBR was up to, we would need to know in which rpm range this was supposed to happen.
Because based on this information, we could access, if it is "low speed/gear" trick only, or if it affects the all gears.
Traction control is not always active. It may not fit your definition of traction control, but an engine map for each corner to me would be considered traction control. Same goes with launch control, it's still there it's just not the automated systems from years ago.hardingfv32 wrote:Go for it if you find it fun.red300zx99 wrote:Oh my. I don't even know where to start.
Brian
5.5.5 specifies how the torque demand should depend on the accelerator pedal position. More specifically, it specifies that this dependence should be monotonically increasing. It is correct that there is no mention of any absolute position, but I never implied that either. However, a logical consequence of the rule is that the maximum accelerator position must correspond to the maximum torque demand. The only way to avoid having the highest torque demand at the maximum accelerator pedal position, is to have a non-monotonic dependency between the torque demand and the accelerator pedal position.gato azul wrote: because the way I see it (which can be wrong of course) 5.5.5. relates on a "rate of change" not on any absolute position.
if the driver at any engine rpm increases the position of the accelerator pedal, the torque demand has to increase as well.
If he does not increase the pedal position (because it is already at max. for example), there does not need to be an increase after he reached a steady (max. in my example) position. The torque demand only need to increase during the transient from one pedal position to the other according the 5.5.5.
In this example of yours, can you explain how to acchieve 100% torque demand with such a setup? It strikes me that with such a setup as you describe, it would be impossible to ever obtain more than 50% torque demand. Hence, it would be meaningless to call this 50% torque demand. 100% torque demand is a term that means the maximum torque demand you can have. In your example that would be the same as what you call 50% torque demand. This would be the maximum and hence, in the rules this would be defined as 100% torque demand, not 50%.with apologizes, I don't agree with that statement.This dependence has to be monotonically increasing, which means that the maximum accelerator pedal position must correspond to maximum torque demand
If we take a very simple example and assume for the sake of this argument that 0% throttle pedal position equals 0% torque demand, and that to satisfy the "monotonically increasing" condition in 5.5.5., I chose a rate of 0.5 (in a linear function, which is not required), then I will have a torque demand of 50% for 100% pedal position, which would be perfectly legal. Therefore I fail to see, how you can state that, only based on 5.5.5., 100% pedal position must correspondent with 100% torque demand.
Yep, just another step closer to a spec series.Sources suggest that the FIA will lay down specific limits on the variations of torque that can be used throughout the rev range
There are other factors that contribute to traction and wheelspin then just the corners. One must not forget a track evolving throughout the weekend, getting rubbered in and giving more grip. How are you going to calculate that in. Or how about a wet track which continually gets dryer. Think about a driver seriously flat spotting his tyre, which has an impact on the grip and stability, or a difference in traction between the prime and option tyre. There are numerous factors which makes to very difficult to calculate the perfect amount of torque for each corner. Real traction control will always be much more accurate, as it calculates it right after all those factors work in on the tyre and respond to that. An engine map will always stay a rough estimate of much torque you can use and can't react on changing factors. IMO "torque mapping" is for this reason too much off from traction control.red300zx99 wrote:Traction control is not always active. It may not fit your definition of traction control, but an engine map for each corner to me would be considered traction control. Same goes with launch control, it's still there it's just not the automated systems from years ago.hardingfv32 wrote:Go for it if you find it fun.red300zx99 wrote:Oh my. I don't even know where to start.
Brian
You don't need any feedback other then rpm to make TC workrjsa wrote: Not to mention all the other feedback needed to make TC work, like independent wheel speed reading, body acceleration and the what not.
You need to be able to derive crankshaft acceleration from the RPM data.red300zx99 wrote:You don't need any feedback other then rpm to make TC workrjsa wrote: Not to mention all the other feedback needed to make TC work, like independent wheel speed reading, body acceleration and the what not.
No, but if you had called brake bias a stability control system I would have agreed.rjsa wrote: It's like saying brake bias adjustment is ABS.