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A coaxial bi-modal imaging system is produced by aligning a microwave transceiver, an optical camera and an antenna array in a coaxial configuration. The microwave transceiver is operable to emit microwave radiation to illuminate an object and to receive reflected microwave radiation reflected from

A coaxial bi-modal imaging system is produced by aligning a microwave transceiver, an optical camera and an antenna array in a coaxial configuration. The microwave transceiver is operable to emit microwave radiation to illuminate an object and to receive reflected microwave radiation reflected from the object to capture a microwave image of the object. The antenna array includes a plurality of antenna elements, each programmable with a respective transmit direction coefficient to direct the microwave radiation emitted from said microwave transceiver toward a target on the object, and each programmable with a respective receive direction coefficient to direct the reflected microwave radiation reflected from said target towards said microwave transceiver. The optical camera is configured to capture an optical image of said object.

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We claim: 1. A bi-modal imaging system, comprising: a microwave transceiver to emit microwave radiation to illuminate an object and to receive reflected microwave radiation reflected from the object to capture a microwave image of the object; an antenna array including a plurality of antenna elemen

We claim: 1. A bi-modal imaging system, comprising: a microwave transceiver to emit microwave radiation to illuminate an object and to receive reflected microwave radiation reflected from the object to capture a microwave image of the object; an antenna array including a plurality of antenna elements, each programmed with a respective transmit direction coefficient to direct the microwave radiation emitted from said microwave transceiver toward a target on the object, and each programmed with a respective receive direction coefficient to direct the reflected microwave radiation reflected from said target towards said microwave transceiver; and an optical camera to capture an optical image of said object; wherein said microwave transceiver, said antenna array and said optical camera are aligned in a coaxial configuration. 2. The system of claim 1, wherein said microwave transceiver, said antenna array and said optical camera are aligned along an axis extending therethrough. 3. The system of claim 2, wherein said axis is orthogonal to the plane of said antenna array and extends through a center of said antenna array. 4. The system of claim 1, wherein said microwave transceiver is mounted to said antenna array to emit microwave radiation from a front side of said microwave transceiver towards said antenna elements and said optical camera is mounted to a back side of said microwave transceiver opposite said front side to receive light directed towards said back side of said microwave transceiver. 5. The system of claim 1, further comprising: a reflective disc to reflect the microwave radiation emitted from said microwave transceiver towards said antenna elements and to reflect the reflected microwave radiation reflected from said antenna elements towards said microwave transceiver. 6. The system of claim 5, wherein a back side of said microwave transceiver is mounted to said antenna array and said reflective disc is mounted to a front side of said microwave transceiver such that said microwave transceiver emits microwave radiation from the front side of said microwave transceiver towards a reflective surface said reflective disc; and wherein said optical camera is mounted to said reflective disc opposite said reflective surface to receive light directed towards said front side of said microwave transceiver. 7. The system of claim 5, wherein said microwave transceiver is mounted to a back side of said antenna array and said reflective disc is mounted to a front side of said antenna array such that said microwave transceiver emits microwave radiation through a hole in said antenna array towards a reflective surface said reflective disc; and wherein said optical camera is mounted to said reflective disc opposite said reflective surface to receive light directed towards said front side of said antenna array. 8. The system of claim 1, wherein said antenna array has a curved surface. 9. The system of claim 1, further comprising: a processor to measure a respective intensity of the reflected microwave radiation to determine a value of a voxel within the microwave image of the object, and wherein said processor constructs the microwave image of the object by programming said antenna elements to scan multiple targets on the object to measure the respective intensity of reflected microwave radiation from each of the multiple targets. 10. The system of claim 9, wherein said optical camera includes a plurality of photo detectors, each to measure the intensity of light received at the photo detector and to produce optical image data representative thereof, and wherein said processor receives the optical image data from said optical camera, process said optical image data to produce processed optical image data and produce the optical image from the processed optical image data. 11. The system of claim 10, wherein said processor produces a bi-modal image from a combination of the optical image and the microwave image. 12. The system of claim 11, further comprising: a display operably coupled to said processor to display at least one of the optical image, the microwave image and the bi-modal image. 13. The system of claim 10, wherein said processor extracts optical image information from the optical image data and to use said optical image information to identify a region of interest associated with the object and to control said array to illuminate only targets within the region of interest to produce the microwave image with only the region of interest. 14. The system of claim 1, wherein each of said plurality of antenna elements are discrete phase-delayed antenna elements, phase-shifted antenna elements, amplitude-delayed antenna elements or amplitude-shifted antenna elements. 15. A method for producing a coaxial bi-modal imaging system, comprising: providing a microwave transceiver to emit microwave radiation to illuminate an object and to receive reflected microwave radiation reflected from the object to capture a microwave image of the object; providing an antenna array including a plurality of antenna elements, each programmed with a respective transmit direction coefficient to direct the microwave radiation emitted from said microwave transceiver toward a target on the object, and each programmed with a respective receive direction coefficient to direct the reflected microwave radiation reflected from said target towards said microwave transceiver; providing an optical camera to capture an optical image of said object; and aligning said microwave transceiver, said antenna array and said optical camera in a coaxial configuration. 16. The method of claim 15, wherein said aligning further comprises: aligning said microwave transceiver, said antenna array and said optical camera along an axis extending therethrough. 17. The method of claim 16, wherein said axis is orthogonal to the plane of said antenna array and extends through a center of said antenna array. 18. The method of claim 15, wherein said aligning further comprises: mounting said microwave transceiver to said antenna array to emit microwave radiation from a front side of said microwave transceiver towards said antenna elements; and mounting said optical camera to a back side of said microwave transceiver opposite said front side to receive light directed towards said back side of said microwave transceiver. 19. The method of claim 15, further comprising: providing a reflective disc to reflect the microwave radiation emitted from said microwave transceiver towards said antenna elements and to reflect the reflected microwave radiation reflected from said antenna elements towards said microwave transceiver. 20. The method of claim 19, wherein said aligning further comprises: mounting a back side of said microwave transceiver to said antenna array; mounting said reflective disc to a front side of said microwave transceiver such that said microwave transceiver emits microwave radiation from the front side of said microwave transceiver towards a reflective surface said reflective disc; and mounting said optical camera to said reflective disc opposite said reflective surface to receive light directed towards said front side of said microwave transceiver. 21. The method of claim 19, wherein said aligning further comprises: mounting said microwave transceiver to a back side of said antenna array; mounting said reflective disc to a front side of said antenna array such that said microwave transceiver emits microwave radiation through a hole in said antenna array towards a reflective surface said reflective disc; and mounting said optical camera to said reflective disc opposite said reflective surface to receive light directed towards said front side of said antenna array. 22. The method of claim 15, further comprising: measuring a respective intensity of the reflected microwave radiation to determine a value of a voxel within the microwave image of the object; constructing the microwave image of the object by programming said antenna elements to scan multiple targets on the object to measure the respective intensity of reflected microwave radiation from each of the multiple targets. 23. The method of claim 22, wherein said providing said optical camera further includes providing said optical camera with a plurality of photo detectors to measure the intensity of light received at the photo detector and to produce optical image data representative thereof; and further comprising: processing said optical image data to produce processed optical image data; and producing the optical image from the processed optical image data. 24. The method of claim 23, further comprising: producing a bi-modal image from a combination of the optical image and the microwave image. 25. The system of claim 24, further comprising: displaying at least one of the optical image, the microwave image and the bi-modal image. 26. The method of claim 23, further comprising: extracting optical image information from the optical image data; using said optical image information to identify a region of interest associated with the object; and controlling said array to illuminate only targets within the region of interest to produce the microwave image with only the region of interest.