Abstract. We present self-calibrating isometric non-rigid structurefrom-motion (SCIso-NRSfM), the first method to reconstruct a non-rigid
object from at least three monocular images with constant but unknown
focal length. The majority of NRSfM methods using the perspective camera simply assume that the calibration is known. SCIso-NRSfM leverages
the recent powerful differential approaches to NRSfM, based on formulating local polynomial constraints, where local means correspondencewise. In NRSfM, the local shape may be solved from these constraints.
In SCIso-NRSfM, the difficulty is to also solve for the focal length as
a global variable. We propose to eliminate the shape using resultants,
obtaining univariate polynomials for the focal length only, whose sum of
squares can then be globally minimized. SCIso-NRSfM thus solves for
the focal length by integrating the constraints for all correspondences
and the whole image set. Once this is done, the local shape is easily recovered. Our experiments show that its performance is very close to the
state-of-the-art methods that use a calibrated camera