Modified Korteweg-de Vries equation
The (defocusing) modified Korteweg-de Vries (mKdV) equation is
It is completely integrable, and has infinitely many conserved quantities. Indeed, for each non-negative integer k, there is a conserved quantity which is roughly equivalent to the H^k norm of u. This equation has been studied on the line, on the circle, and on the half-line.
The focussing mKdV
is very similar, but admits soliton solutions.
Miura transform
In the defocusing case, the Miura transformation transforms a solution of defocussing mKdV to a solution of [#kdv KdV]
Thus one expects the LWP and GWP theory for mKdV to be one derivative higher than that for KdV.
In the focusing case, the Miura transform is now . This transforms focussing mKdV to complex-valued KdV, which is a slightly less tractable equation. (However, the transformed solution v is still real in the highest order term, so in principle the real-valued theory carries over to this case).
The Miura transformation can be generalized. If v and w solve the system
Then u = v^2 + v_x + w is a solution of KdV. In particular, if a and b are constants and v solves
then u = a^2 v^2 + av_x + bv solves KdV (this is the Gardener transform).