(Yet another) Attempt to make sense of gyro angles

[La vache]

Hallo Von Due

According to Rössler the GA (Gradelaufapparat) could only reach a torpedo running angle of ± 90°.
It should be shot with the smallest possible torpedo angle as there was an offset displacement at 90° of ± 35 m. β ≦ 90°


You can set settings such as test sheets. As an example rear shot with 7° parallax angle. LfdNo 15
Distance E = 5hm (500m)
Target direction ω = 66°
Vt = 30 nm/h
Vg = 24 nm/h
AoB ϫ = 60° StB
β = 40°
Result = firing angle ϱ = 280° corrected -180° = firing angle 100°
The deviation of the deflection angle and the shot angle results in a parallax angle δ ~7°

[Von Due]

Thanks for that. Has that been verified to work in the game? The main problem with the game is the dimensions that seem to be somewhat off but in a not so predictable way and the main Main issue is the attack map which is way off as a rule of thumb, so to speak. I set up a dummy shot for 3000 meters, gyro angle 315*, intercept angle 135*, target speed 7 kts. The solution projected on the map had a solution for 3750 meters.

Strange also about the 90* only thing as a copy of the commander's handbook has a step by step section on 45* gyro angles if I read that right.

[La vache]

The RW (TDC) shot was the standard solution.
Bow/rear shot, 45° and 90° shot was used in case of TvhRe/TDC failure.

Important for complete solution is the Angel of Bow.
AoB and lead angle arise with Vt Torpedo running track.

For parallax enhancement, Boat speed and command deceleration were automatically calculated. This is probably not considered.

[Von Due]

In the game, speed, speed changes or course changes are definitely not something the TDC keeps itself updated on. I believe that would be the same for the real German TDC. If anyone other than the Americans had position keeping capable TDC, then that would be interesting to know.

I went back to my main character's campaign, in a Type IXB and the dimensions are definitely different but right now I'm questioning the method that worked for the Type VIIB. Attempting to establish where the equivalent point of fire is for the IXB using G7a torpedos on a 90* setting is giving me a mild headache.

[La vache]

Quote:

Originally Posted by Von Due

I believe that would be the same for the real German TDC.

Quote:

Originally Posted by tvre.org

The component for entering the target bearing also took into account the correction for the angular speed of the U-Boat turn. This correction was connected with the torpedo gyro starting-up delay, which was equal to tv = 0.4 sec. During this time, the gyro of the torpedo was locked in one position. That means that when the U-Boat was turning during the torpedo launch, the longitudinal axis of the torpedo (together with the locked gyro) was turned by the angle tv∗φt, where φt was the angular speed of the turn, which depended on the U-Boat speed and main rudder deflection.

The TvhRe/S3 was connected to the gyro compass.
The rotational speed was calculated automatically, but could also be entered manually.
The SH3 TDC is a simplification.
For example:
The spread angle is entered as the target width in meters (100-200). In SH3, enter the angle directly.
For Fat and Lut torpedoes there were no adjustments at the TvhRe/S3. These were done directly on the torpedo or on an auxiliary board in the bow space.

[makman94]

hello Von Due,

i think it is useless trying to find out great accuracy based on sh3's TDC for two reasons.

The first reason is that the game (and eventually TDC) is NOT getting the distance to target or bearing to target from the periscope (the one that player is using) but from the generic node of sub's 3d model. this ,practically, mean that for each sub model there will be different inaccuracies.
you can easily confirm that by looking at a stationary -close to you- target from periscope at a fixed bearing. not at bearing 0° but better,for example, to 270° and watch the bearing that TDC shows.you will need a mod for showing you the 10ths of degrees of bearing for that.then simply,without moving anything, press the lock button to lock the target on periscope and watch that the bearing on TDC is slightly changing and now the bearing on TDC is not exactly the same with the bearing you see on scope. (this is fixable.in my own sh3 set up , i have matched ,at the uboat i am using,all the scopes-uzo 3d nodes with the uboat's generic node for avoiding the above inaccuracies)

the second reason is that sh3 is coming from sh2 which is coming from sh1. sh1 is for american submarines and sh3 is for german submarines. The american submarines were using different Torpedo's Straight Run(SR) and Torpedo's Turn Radious(TR) values for the left or right shots (from this book:https://www.abebooks.com/97819353270...1935327070/plp i read that for right shots the values were SR=57.93yards TR=215yards and for left shots the values were SR=32.46yards TR=206yards). I am suspecting that the sh's devs didn't transform the equations (for torpedo aiming) right from sh1 to sh2 and finally to sh3. i am ,also, guessing that this is the reason for the inaccuracies you see at torpedo running times for shots like in the following image (the first reason is not responsible for that issue.this issue is a hardcode error):



the image shows the TDC solution at two symmetrical set ups.
at the left, you see that torpedo's run time is 1:13 and at the left you see that torpedo's run time is 1:06.
the two solutions have to be the same but they are not.

ps: propably i am off topic (haven't followed all the posts) but my point is that trying to get very accurate results(-conclusions) based on sh3's TDC is not a safe way.

Quote:

Originally Posted by Von Due

...If anyone other than the Americans had position keeping capable TDC, then that would be interesting to know.

.....

Japan had one too

[Von Due]

Greatly appreciated post, makman94. As you said, there are errors and the attack map and TDC are both questionable. The goal I would like to reach however is to figure out a way to manually plot lead angles for gyro angled shots, for various speeds and distances. Manually, because a bugged game is not going to do what it's supposed to so in short, find a way to work around the bugs and errors in the game.

[makman94]

Quote:

Originally Posted by Von Due

Greatly appreciated post, makman94. As you said, there are errors and the attack map and TDC are both questionable. The goal I would like to reach however is to figure out a way to manually plot lead angles for gyro angled shots, for various speeds and distances. Manually, because a bugged game is not going to do what it's supposed to so in short, find a way to work around the bugs and errors in the game.

there is no way to be able to calculate the gyroangle taking in account the parallax correction with a single formula.for that is the need of a computer.

there is a workaround though for those who doesn't want to use the tdc and it is called ''the broken tdc methods'' (http://www.subsim.com/radioroom/showthread.php?t=169935) but in these methods is not taking in account the parallax correction so there will be inaccuracies in very close shots.The method is good for use at shots more than 1500m
At the tutorials for these methods (tutorials can be found in MaGui F.rar), i showed the straight shots and the perfect shots (perfect shot means impact angle = 90°) but you can combine these two methods and create whatever curved shot you like (for any other curved shot you have to choose the desired impact angle-instead of 90°- and proceed).



in case that you are interested in these methods ,

have in mind to take the angle 'x' ,always and in any case, from the tables (not from the RAOBF rings as i am discribing in the notes.the RAOBF rings are good for getting angles <5.71° but if angle 'x' is greater the rings will be off. so get the angle 'x' only from tables)

here is one example how these two methods can be combined:



steps for the above example:
1. get angle lb1 from map (angle lb1 is the angle between yours and target courses).lets say at our example lb1=110°
2. select the impact angle (angle lb2) that you want for your shot (at perfect shots this angle is 90°). then set to gyro G=lb1-lb2 .then set tdc to manual mode from now on.
in our example . lets select impact angle lb2= 80° so we will have G=110°-80°=30° so will set G=30°to tdc and switch it to manual mode from now on.
3. choose the torpedo speed that you will use and look at its table for getting the angle 'x'. for this combined method,the torpedo tables now have at vertical columns the angles lb2. so find the lb2 of our example at vertical columns and the target speed at horizontal lines. the table will give you the angle 'x'.
lets say that our target is moving with speed= 10 knots and we choose to hit him with a 30kts torpedo.from the table,lb2=80° and u=10, so we get angle 'x'=17.2°
4. Shooting bearing = G + x so ,at our example, Shooting bearing = 30° + 17.2° = 47.2°