You're right, this formula only makes sense for inner points in your spline which have neighbours on both sides. For endpoints you have to get the tangent from other constraints. The common solutions are:

- supply manually chosen tangent points
- choose the tangent such that the curvature at the endpoint is zero, this is referred to as
*natural* boundary condition
- choose periodic boundary conditions, that is, the tangents of the start- and endpoint are equal. Then you only have to specify one of the tangents. For a closed spline, you can get the last tangent from the natural boundary condition.

These ideas are brought up in the context of cubic splines, which require to solve a system of linear equations in order to get the polynomial coefficients for any part of the spline, because they minimize the total curvature of the whole spline, but in your case of Hermite splines they should be applicable, too.