a stabilized platform on which the above-mentioned sensors of the EO fire control system are arranged
The stabilization of the sensors (Fig. 6) essentially consists of a servo-controlled inner and outer gimbal. The inner one carries the stabilized platform with the sensors. The outer one carries the housing and isolates the sensor platform from dynamic (vibrations) and other environmental influences and disturbances.
The aiming system is used to position the E-0 fire control sensors on the target and to align the optical axes of these sensors. It includes the stabilized platform, the servo electronics, the tracker electronics, the E-0 module housing and the boresight module.
I was going to write the bug report, but I believe it won’t go anywhere. In a similar bug report about ASRAD stabilization + ASRAD-R sight is not stabilised, it was marked as “not a bug” because “Stabilized sensor unit != Stabilized launcher.” In the case of ADATS, the module with sensors is stabilized, and there’s no mention of the launchers. Having only the sight stabilized would already be nice, regardless of whether the launcher is stabilized or not. Anyway, if someone wants to give it a try, feel free to report it.
Yea, that sure did happend…
Sadly they do consider weapon stabilization more important than the sight stabilization, even in a case like missile vehicles.
@Smin1080p_WT would it be possible to pass things like ADATS, ASRAD etc. to get stabilizer based on the sight stabilization, not launchers stabilization, as a suggestion (as in bug reports one)?
Is this a game limitation? Aren’t the sights linked to the main gun so if the sight is stabilized and the main gun isn’t, it would mean that the sight is “unstabilized” ?
Are there vehicles where the sight is independent from the main gun?
No, as of now devs need weapon to be stabilized, not sight. So if a tank has stabilized weapon, but not sight, it gets stab in game. If the sight has a stab, but weapon no, it does not get a stab.
During the course of these trials, the main requirements for the missile, such as acceleration to a speed of over Mach 3 within approximately three seconds, flawless aerodynamic behavior throughout the entire flight duration, and smokeless combustion of the engine, were successfully demonstrated.
