On the move millimeter wave interrogation system with a hallway of multiple transmitters and receivers

We claim: 1. A method for screening an unconstrained subject, comprising: (a) transmitting, in sequence by each of a plurality of transmitters spatially distributed on two sides along a path of movement of a subject, radiation to be scattered from the subject; (b) collecting, by a plurality of sensors spatially distributed on the two sides and coherently configured with respect to the plurality of transmitters, measurements of scattered radiation corresponding to the radiation transmitted by each of the plurality of transmitters, such that: (i) at least a first one of the plurality of sensors collecting measurements of scattered radiation transmitted by at least one of the plurality of transmitters located on an opposite side of the path of movement as that on which the at least first one of the plurality of sensors is located, to produce a cross-path measurement, and (ii) at least a second one of the plurality of sensors collecting measurements of scattered radiation transmitted by at least one of the plurality of transmitters located on a same side of the path of movement as that on which the at least second one of the plurality of sensors is located, to produce a side-view measurement; (c) generating, based on both the collected cross-path and side-view measurements, a two-dimensional or three-dimensional reconstruction estimate of body surface of the subject with one or more foreign objects on the subject; and (d) detecting and identifying, based on the two-dimensional or three-dimensional reconstruction estimate of the body outline, surface or volume, one or more foreign objects on the subject. 2. The method of claim 1 , wherein (a) comprises transmitting radiation at a first time instance by a first transmitter located on a first side of the two sides along the path of movement, and transmitting radiation at a second time instance by a second transmitter located on a second side of the two sides along the path of movement. 3. The method of claim 1 , wherein (b) comprises collecting, at a first time instance by a first sensor located on a first side of the two sides along the path of movement, a measurement of a first scattered radiation corresponding to radiation transmitted by a first transmitter of the plurality of transmitters, and collecting, at the first time instance by a second sensor located on a second side of the two sides along the path of movement, a measurement of a second scattered radiation corresponding to radiation transmitted by the first transmitter. 4. The method of claim 1 , wherein (b) comprises collecting, by the plurality of sensors, measurements of radiation scattered from the subject at a first position along the path of movement based on radiation from a first transmitter of the plurality of transmitters, and measurements of radiation scattered from the subject at a second position along the path of movement based on radiation from a second transmitter of the plurality of transmitters. 5. The method of claim 1 , wherein (b) comprises collecting, by a first sensor, measurement of radiation scattered from the subject based on radiation transmitted by a first transmitter, the first transmitter and the first sensor having a subtended angle of at least 90 degrees relative to the subject. 6. The method of claim 1 , wherein (b) comprises collecting, by a first sensor, measurement of radiation scattered from the subject based on radiation transmitted by a first transmitter, the first transmitter and the first sensor having a subtended angle less than 90 degrees relative to the subject. 7. The method of claim 1 , further comprising: transmitting, at a first time instance by a first transmitter located in front of the subject or behind the subject along the path of movement, radiation incident on the subject, and collecting, by the plurality of sensors, measurements of radiation scattered from the subject corresponding to the radiation transmitted by the first transmitter. 8. The method of claim 1 , wherein (c) comprises generating a plurality of partial reconstruction estimates, each of the plurality of partial reconstruction estimates generated based on measurements of scattered radiation corresponding to radiation transmitted by a respective transmitter from the plurality of transmitters. 9. The method of claim 8 , further comprising registering a position of the subject along the path of movement with a corresponding one of the plurality of partial reconstruction estimates. 10. The method of claim 8 , further comprising combining the plurality of partial reconstruction estimates to generate the two-dimensional or three-dimensional reconstruction estimate. 11. A system for screening an unconstrained subject, the system comprising: a plurality of transmitters spatially distributed on two sides along a path of movement of a subject, each of the plurality of transmitters transmitting, in sequence, radiation to be scattered from the subject; a plurality of sensors spatially distributed on the two sides and coherently configured with respect to the plurality of transmitters, the plurality of sensors collecting measurements of scattered radiation corresponding to the radiation transmitted by each of the plurality of transmitters, such that: (i) at least a first one of the plurality of sensors collecting measurements of scattered radiation transmitted by at least one of the plurality of transmitters located on an opposite side of the path of movement as that on which the at least first one of the plurality of sensors is located, to produce a cross-path measurement, and (ii) at least a second one of the plurality of sensors collecting measurements of scattered radiation transmitted by at least one of the plurality of transmitters located on a same side of the path of movement as that on which the at least second one of the plurality of sensors is located, to produce a side-view measurement; and an imaging module, executable by a processor, the imaging module (i) generating, based on both the collected cross-panel and side-view measurements, a two-dimensional or three-dimensional reconstruction estimate of body surface of the subject with one or more attached foreign objects, and (ii) detecting and identifying, based on the two-dimensional or three-dimensional reconstruction estimate of the body outline, surface or volume, one or more foreign objects on the subject. 12. The system of claim 11 , wherein the plurality of transmitters comprises a first transmitter located on a first side of the two sides transmitting radiation at a first time instance, and a second transmitter located on a second side of the two sides transmitting radiation at a second time instance. 13. The system of claim 11 , wherein the plurality of sensors comprises a first sensor located on a first side of the two sides collecting, at a first time instance, a measurement of a first scattered radiation corresponding to radiation transmitted by a first transmitter of the plurality of transmitters, and a second sensor located on a second side of the two sides collecting, at the first time instance, a measurement of a second scattered radiation corresponding to radiation transmitted by the first transmitter. 14. The system of claim 11 , wherein the plurality of sensors collects measurements of radiation scattered from the subject at a first position along the path of movement based on radiation from a first transmitter of the plurality of transmitters, and collects measurements of radiation scattered from the subject at a second position along the path of movement based on radiation from a second transmitter of the plurality of transmitters.