Automatic aircraft pilot seat side-stick armrest

What is claimed is: 1. An armrest, comprising: an armrest frame rotationally coupled at a first end to a seat frame; an armrest subframe pivotably coupled to a second end of the armrest frame; an arm pad laterally aligned and translatably coupled to the armrest subframe comprising a structure layer, wherein the structure layer comprises a rail; a tilting mechanism configured to pivot the armrest subframe relative to the armrest frame, comprising: a first moveable member pivotally coupled to the armrest subframe, a second moveable member pivotally coupled to the armrest frame and mechanically coupled to the first moveable member; a pushrod coupled the first moveable member and the second moveable member at a pivot end, and at least one of the armrest frame or armrest subframe, wherein an extension of the pushrod increases the tilt of the armrest subframe relative to the armrest frame; and a tilt mechanism spring mechanically coupled to at least one of the first moveable member, the second moveable member, or the pushrod and configured to bias the pushrod towards the extension comprising a tilt input activator configured to release the tilting mechanism from a locked position by pressing a first push button; a translation mechanism configured to translate the arm pad relative to the armrest subframe comprising: a rail lock actuator coupled to the armrest frame and configured to releasably interact with the rail, comprising a spring-loaded biasing unit coupled to the armrest subframe that biases against the rail, securing the rail into a locked position, wherein the spring-loaded biasing unit is unlocked from the locked position by pressing a second push button; and a rotation mechanism coupled to the seat frame and the armrest, and configured to rotate the armrest relative to the seat frame, wherein the rotation mechanism comprises a spring-loaded linkage, wherein the rotation mechanism includes a rotation input activator configured to unlock a locked position of the rotation mechanism by pressing a third push button, wherein the first press button, the second press button, and the third press button are located on a same side of the armrest frame and arranged in a same plane. 2. The armrest of claim 1 , wherein the pushrod is configured to releasably lock at more than one position of extension. 3. The armrest of claim 1 , wherein the tilting mechanism is configured to lock the armrest subframe into a plurality of tilting positions relative to the armrest frame. 4. The armrest of claim 1 , wherein the armrest is configured to manually pivot relative to the armrest frame. 5. The armrest of claim 1 , wherein the rail lock actuator is configured as a friction lock. 6. The armrest of claim 1 , wherein the rail lock actuator is configured to lock the arm pad into a plurality of translation positions relative to the armrest subframe. 7. The armrest of claim 1 , wherein the arm pad is configured to translate manually relative to the armrest subframe. 8. The armrest of claim 1 , wherein the rotation mechanism is configured to releasably lock into a plurality of rotation positions relative to the seat frame. 9. The armrest of claims 1 , wherein the armrest is configured to be manually pivoted relative to the armrest frame. 10. A method for adjusting an armrest comprising: actuating a tilt input actuator via a first press button, wherein actuating the tilt input actuator releases a tilting mechanism from a locked tilted position, wherein a release of the tilting mechanism pivotably biases an armrest subframe relative to the armrest frame, wherein the armrest subframe and the armrest frame are pivotably coupled; actuating a rail lock actuator via a second press button, wherein actuating the rail lock actuator releases an arm pad from a locked position relative to the armrest subframe, wherein the arm pad is laterally aligned and translatably coupled to the armrest subframe; and actuating a rotation input actuator via a third press button, wherein actuating the rotation input actuator releases a rotation mechanism from a locked rotation position, wherein a release of the rotation mechanism rotationally biases an armrest frame relative to a seat frame, wherein the armrest frame and the seat frame are rotationally coupled, wherein the first press button, the second press button, and the third press button are located on a same side of the armrest frame and arranged in a same plane. 11. The method of claim 10 further comprising manually rotating the armrest frame relative to the seat frame and deactivating the rotation input actuator. 12. The method of claim 10 further comprising manually pivoting the armrest subframe relative to the armrest frame and deactivating the tilt input actuator. 13. The method of claim 10 , further comprising manually translating the arm pad relative to the armrest subframe, and deactivating the rail lock actuator.