Sensing using inverse multiple scattering with phaseless measurements

We claim: 1. A permittivity sensor for determining an image of a distribution of permittivity of a material of an object in a scene, comprising: a transmitter configured to propagate a known incident field through the scene; a receiver configured to accept phaseless measurements of propagation of the known incident field scattered by the material of the object in the scene; a hardware processor configured to solve a multi-variable minimization problem over unknown phases of the phaseless measurements and unknown image of the permittivity of the material of the object by minimizing a difference of a nonlinear function of the known incident field and the unknown image with a product of known magnitudes of the phaseless measurements and the unknown phases, estimate the permittivity of the material of the object based on the solution of the multi-variable minimization problem, and generate the image of the distribution of permittivity of the material of the object in the scene based on the estimated permittivity; and a display device configured to render the image of the distribution of permittivity of the material of the object in the scene. 2. The permittivity sensor of claim 1 , wherein the processor is configured to solve the multi-variable minimization problem using a simultaneous multi-variable minimization over both unknowns simultaneously by updating the both unknowns for each iteration. 3. The permittivity sensor of claim 2 , wherein the simultaneous multi-variable minimization uses a multi-variable proximal gradient method. 4. The permittivity sensor of claim 1 , wherein the multivariable minimization problem further includes additional constraints on the unknown image and the unknown phases. 5. The permittivity sensor of claim 4 , wherein the multi-variable proximal gradient method is implemented using fast iterative shrinkage-thresholding algorithm (FISTA). 6. The permittivity sensor of claim 1 , wherein the processor is configured to solve the multi-variable minimization problem using an alternating minimization. 7. The permittivity sensor of claim 1 , wherein the output interface renders the permittivity of the material of the object to a civil infrastructure system configured to detect at least one of defects of the material of the object, cavities or non-visible objects of the civil infrastructure. 8. The permittivity sensor of claim 7 , wherein the civil infrastructure system is configured to detect the non-visible objects including pipes located underground, and wherein the permittivity sensor is arranged on a moving platform traveling on the ground above the underground pipes, and wherein the civil infrastructure system is configured to generate a map of the underground pipes. 9. The permittivity sensor of claim 7 , wherein the civil infrastructure system is configured to detect the cavities of objects of the civil infrastructure including pipes, and wherein the permittivity sensor is arranged on a moving platform traveling through the pipes, and wherein the civil infrastructure system is configured to generate a map of the cavities of the pipes. 10. The permittivity sensor of claim 1 , wherein the permittivity of the material of the object corresponds to at least one of an internal structure of the object or an outer structure of the object. 11. A robot including the permittivity sensor of claim 1 , the robot comprising: a motor and wheels for moving the permittivity sensor to the scene. 12. A method for determining an image of a distribution of permittivity of a material of an object in a scene, wherein the method uses a processor coupled with stored instructions implementing the method, wherein the instructions, when executed by the processor carry out steps of the method, comprising: propagating, using a transmitter, a known incident field through the scene; accepting, using a receiver, phaseless measurements of propagation of the known incident field scattered by the material of the object in the scene; solving a multi-variable minimization problem over unknown phases of the phaseless measurements and unknown image of the permittivity of the material of the object by minimizing a difference of a nonlinear function of the known incident field and the unknown image with a product of known magnitudes of the phaseless measurements and the unknown phases; estimating the permittivity of the material of the object based on the solution of the multi-variable minimization problem; generating the image of the distribution of permittivity of the material of the object in the scene based on the estimated permittivity; and rendering the image of the distribution of permittivity of the material of the object on a display device. 13. The method of claim 12 , wherein the multivariable minimization problem further includes additional constraints on the unknown image and the unknown phases.