Apparatus and method for synchronized multi-stage electromagnetic rivet guns

We claim: 1. A method for installing rivets, the method comprising: positioning a rivet through a structure to be joined; positioning a first rivet gun on a first side of the rivet; positioning a second rivet gun on a second side of the rivet; and synchronizing firing of the first and second rivet guns, wherein synchronizing firing of the first and second rivet guns comprises timing opposing impacts of the first and second rivet guns based on (i) a force at which the opposing impacts occur, (ii) structural properties of the rivet, and (iii) a speed of impact waves created by the opposing impacts, so that each opposing impact at a given side of the rivet occurs at substantially the same time as an impact wave caused by another opposing impact at the other side of the rivet reaches the given side of the rivet. 2. The method according to claim 1 , wherein the first and second rivet guns are configured to impact the rivet with a plurality of opposing impacts, and wherein synchronizing firing of the first and second rivet guns comprises synchronizing the plurality of opposing impacts. 3. The method according to claim 2 , wherein each rivet gun comprises a firing tube and a projectile within the firing tube, wherein a velocity of the projectile affects at least one of a force at which the rivet gun impacts the rivet and when the force of the rivet gun impacts the rivet, and wherein synchronizing firing of the first and second rivet guns comprises: adjusting the velocity of the projectile in each rivet gun, so that the projectile in the first rivet gun and the projectile in the second rivet gun cause each opposing impact at a given side of the rivet to occur at substantially the same time as an impact wave caused by another opposing impact at the other side of the rivet reaches the given side of the rivet. 4. The method according to claim 3 , wherein adjusting the velocity of the projectile in each rivet gun comprises: utilizing optical sensors in each rivet gun to detect a position of the projectile within the firing tube; and controlling firing of electromagnetic coils in the rivet gun based on the detected position of the projectile. 5. The method according to claim 3 , wherein adjusting the velocity of the projectile in each rivet gun comprises: controlling the velocity of the projectile in each rivet gun based on at least one of the structural properties the rivet or structural properties of the structure to be joined. 6. The method according to claim 3 , wherein adjusting the velocity of the projectile in each rivet gun comprises: adjusting the velocity of the projectile in each rivet gun, so that the projectile in the first rivet gun and the projectile in the second rivet gun cause the first and second rivet guns to impact the rivet within 100 microseconds of one another. 7. The method according to claim 1 , wherein synchronizing firing of the first and second rivet guns comprises synchronizing firing of electromagnetic rivet guns. 8. The method according to claim 1 , wherein positioning the rivet through the structure to be joined comprises positioning the rivet through a metallic structure or a composite structure. 9. The method according to claim 1 , further comprising air-cooling the first and second rivet guns during installation of the rivet. 10. A riveting system comprising: a first rivet gun; a second rivet gun, said first rivet gun and said second rivet gun configured for operation on opposite sides of a rivet to be installed to join a structure; and a controller, said controller configured to synchronize firing of the first and second rivet guns by timing opposing impacts of the first and second rivet guns based on (i) a force at which the opposing impacts occur, (ii) structural properties of the rivet, and (iii) a speed of impact waves created by the opposing impacts, so that each opposing impact at a given side of the rivet occurs at substantially the same time as an impact wave caused by another opposing impact at the other side of the rivet reaches the given side of the rivet. 11. The system according to claim 10 , wherein the first rivet gun and the second rivet gun each incorporates a projectile within a firing tube, wherein the first rivet gun and the second rivet gun each comprise a plurality of optical sensors disposed with respect to said firing tube, said controller programmed to operate the first and second rivet guns based at least in part on a detected projectile position within said firing tube. 12. The system according to claim 11 , wherein said controller is further programmed to operate said first and second rivet guns based at least in part on structural properties of the structure to be joined. 13. The system according to claim 11 , wherein the first rivet gun and the second rivet gun each comprise a plurality of electromagnetic coils operable to cause movement of said projectile, said controller operable to apply signals to control firing of said electromagnetic coils based on the detected projectile position. 14. The system according to claim 10 , wherein the first and second rivet guns are configured to impact the rivet with a plurality of opposing impacts, and wherein said controller is configured to synchronize the plurality of opposing impacts. 15. The system according to claim 10 , wherein the first and second rivet guns are electromagnetic rivet guns. 16. A riveting system comprising: a first rivet gun; a second rivet gun, wherein said first rivet gun and said second rivet gun are arranged on opposite sides of a rivet to be installed to join a structure; and a controller, wherein the controller is configured to cause the first and second rivet guns to impact the rivet a plurality of times, and wherein the controller is configured to control a timing of opposing impacts of the first and second rivet guns based on (i) a force at which the opposing impacts occur, (ii) structural properties of the rivet, and (iii) a speed of impact waves created by the opposing impacts, so that each opposing impact at a given side of the rivet occurs at substantially the same time as an impact wave caused by another opposing impact at the other side of the rivet reaches the given side of the rivet. 17. The riveting system of claim 16 , wherein the first rivet gun comprises a first firing tube and a first projectile within the first firing tube; wherein the second rivet gun comprises a second firing tube and a second projectile within the second firing tube; wherein a velocity of the first projectile affects at least one of a force at which the first rivet gun impacts the rivet and when the force of the first rivet gun impacts the rivet, and wherein a velocity of the second projectile affects at least one of a force at which the second rivet gun impacts the rivet and when the force of second first rivet gun impacts the rivet; and wherein the controller is configured to adjust the velocity of the first projectile in the first rivet gun and the velocity of the second projectile in the second rivet gun, so that the first projectile in the first rivet gun and the second projectile in the second rivet gun cause each opposing impact at a given side of the rivet to occur at substantially the same time as an impact wave caused by another opposing impact at the other side of the rivet reaches the given side of the rivet. 18. The system according to claim 17 , wherein each of the first and second rivet guns further comprises a plurality of optical sensors disposed with respect to said firing tube, said controller programmed to operate