An automated runway loop including a u-shaped runway, wherein the runway is configured to support an aerial projectile with the runway having a discharging end and a receiving end. The runway has a support attached to the runway and to a motor capable of extending and retracting the runway along an axis. At least one sensor is positioned along the runway and configured to provide at least one output indicative of at least one parameter of the aerial projectile. A computer is connected to the sensors and the motor, the computer controlling energization of the motor based at least in part on an indicated parameter of the aerial projectile, where the energization of the motor causes the aerial projectile to be discharged from one end of the runway and to be received at the other end of the runway.

An automated runway loop including a u-shaped runway, wherein the runway is configured to support an aerial projectile with the runway having a discharging end and a receiving end. The runway has a support attached to the runway and to a motor capable of extending and retracting the runway along an axis. At least one sensor is positioned along the runway and configured to provide at least one output indicative of at least one parameter of the aerial projectile. A computer is connected to the sensors and the motor, the computer controlling energization of the motor based at least in part on an indicated parameter of the aerial projectile, where the energization of the motor causes the aerial projectile to be discharged from one end of the runway and to be received at the other end of the runway.

An automated runway loop including a u-shaped runway, wherein the runway is configured to support an aerial projectile with the runway having a discharging end and a receiving end. The runway has a support attached to the runway and to a motor capable of extending and retracting the runway along an axis. At least one sensor is positioned along the runway and configured to provide at least one output indicative of at least one parameter of the aerial projectile. A computer is connected to the sensors and the motor, the computer controlling energization of the motor based at least in part on an indicated parameter of the aerial projectile, where the energization of the motor causes the aerial projectile to be discharged from one end of the runway and to be received at the other end of the runway.

A training game has a cylindrical conduit having exterior walls and interior walls forming an aperture therethrough that is adapted and sized to accept at least one aerial projectile therethrough. A means for sensing and measuring aerial projectile movement in electronic communication with at least one of said conduit or said projectile is provided. A central processing unit is provided and adapted to calculate and communicate game information with at least player in electronic communication with the means for sensing and measuring aerial projectile movement.

A training game has a cylindrical conduit having exterior walls and interior walls forming an aperture therethrough that is adapted and sized to accept at least one aerial projectile therethrough. A means for sensing and measuring aerial projectile movement in electronic communication with at least one of said conduit or said projectile is provided. A central processing unit is provided and adapted to calculate and communicate game information with at least player in electronic communication with the means for sensing and measuring aerial projectile movement.