A 3-craft formation configuration is proposed to perform the digital elevation model(DEM) for the distributed spaceborne interferometric synthetic aperture radar(InSAR),and it is optimized by the modified ant colony algorithm to have the best compatibility with J2 invariant orbits created by differential correction algorithm.The configuration has succeeded in assigning the across-track baseline to vary periodically and with its mean value equal to the optimal baseline determined by the relative height measurement accuracy.The required relationship between crafts' magnitudes and phases is formulated for the general case of interferometry measure from non-orthographic and non-lateral view.The J2 invariant configurations created by differential correction algorithm are employed to investigate their compatibility with the required configuration.The colony algorithm is applied to search the optimal configuration holding the near-constant across-track baseline under the J2 perturbation,and the absolute height measurement accuracy is preferable as expected. A 3-craft formation configuration is proposed to perform the digital elevation model (DEM) for the distributed spaceborne interferometric synthetic aperture radar (InSAR), and it is optimized by the modified ant colony algorithm to have the best compatibility with J2 invariant orbits created by differential correction algorithm. The configuration has succeeded in assigning the across-track baseline to vary periodically and with its mean value equal to the optimal baseline determined by the relative height measurement accuracy. The required relationship between crafts' magnitudes and phases is formulated for the general case of interferometry measure from non-orthographic and non-lateral view. The J2 invariant profiles created by differential correction algorithm are employed to investigate their compatibility with the required configuration. The colony algorithm is applied to search the optimal configuration holding the near-constant across -track baseline under the J2 perturbation, and t he absolute height measurement accuracy is preferable as expected.