Thus far, we have only considered wave propagation along or within a one-dimensional medium of seemingly infinite length. In an anechoic or non-reflecting waveguide, waves traveling in only one directon may exist and can thus be simulated with just a single delay line.
In most situations, however, the media in which waves travel are of finite length and reflections
occur at the boundaries that give rise to waves traveling in two directions per dimension.
The simplest case is an ideal termination that is completely rigid.
If we consider a string to be fixed at a position , the boundary condition at that point is for all time. From the traveling-wave solution to the wave equation, we then have
, which indicates that displacement traveling waves reflect from a fixed end with an inversion (or a reflection coefficient of -1).
The simulation of ideal displacement wave motion in a string rigidly terminated at both its ends (and without losses) is shown in the figure below.
Figure 11:
Digital waveguide simulation of wave propagation on a string fixed at both ends.