Calculate the dot product of the object's velocity vector with its orientation vector. The value is the cosine of the angle between the two, so positive values indicate forward motion.
If the velocity vector isn't immediately available, use an approximation based on the positions at two close points in time. Specifically, if you have a function
pos(t) that gives the position vector:
v_approx = (pos(t+dt) - pos(t)) / dt
The difference in the times, dt, should be a small number. You might be able to determine an appropriate value for dt based on your understanding of the problem, but more typically you'd need to try several values (e.g., by repeatedly halving the value of dt) until