Back-scattering inspection systems and methods for human body

What is claimed is: 1. A human body back-scattering inspection system, comprising: a first back-scattering scanning device and a second back-scattering scanning device which are placed in opposite positions relative to each other so that an object to be inspected stands therebetween when it is to be scanned, the first back-scattering scanning device comprising a first X-ray source, a first flying-spot forming unit, and a first detector, the first flying-spot forming unit having a plurality of holes that are distributed spirally on its cylindrical surface and outputting beams of X-rays, the first detector receiving beams of X-rays that are reflected from body of the inspected object, the second back-scattering scanning device comprising a second X-ray source, a second flying-spot forming unit, and a second detector, the second flying-spot forming unit having a plurality of holes that are distributed spirally on its cylindrical surface and outputting beams of X-rays, the second detector receiving beams of X-rays that are reflected from body of the inspected object; and a controlling unit coupled to the first and second back-scattering scanning devices, and configured to generate controlling signals to cause the first flying-spot forming unit and the second flying-spot forming unit to output the beams of X-rays at time which is different by about a half of a cycle of the intensity of beams varying over time; wherein diameter of holes and space between holes on the cylindrical surface of the flying-spot forming units are adjusted to reduce intensity of beams emitted from the second back-scattering scanning device when the first detector collects signals, and reduce intensity of beams emitted from the first back-scattering scanning device when the second detector collects signals. 2. The human body back-scattering inspection system according to claim 1 , wherein the controlling unit is configured to generate controlling signals to cause the first and second back-scattering scanning devices to start at time that is different by about a half of a cycle of the intensity of beams varying over time. 3. The human body back-scattering inspection system according to claim 1 , wherein the controlling unit is configured to generate controlling signals to cause the first detector to collect only reflected beams of X-rays about peaks of the beams of X-rays emitted from the first flying-spot forming unit, and to cause the second detector to collect only reflected beams of X-rays about peaks of the beams of X-rays emitted from the second flying-spot forming unit. 4. A human body back-scattering inspection system, comprising: a first back-scattering scanning device and a second back-scattering scanning device which are placed in opposite positions relative to each other so that an object to be inspected stands therebetween when it is to be scanned, the first back-scattering scanning device comprising a first X-ray source, a first flying-spot forming unit and a first detector, the first flying-spot forming unit outputting beams of X-rays, the first detector receiving beams of X-rays that are reflected from body of the inspected object, the second back-scattering scanning device comprising a second X-ray source, a second flying-spot forming unit and a second detector, the second flying-spot forming unit outputting beams of X-rays, the second detector receiving beams of X-rays that are reflected from body of the inspected object; and a controlling unit coupled to the first and second back-scattering scanning devices, and configured to generate controlling signals to cause the first and second detectors to collect reflected beams of X-rays in a time-sharing manner; wherein each of the first flying-spot forming unit and the second flying-spot forming unit has a plurality of holes that are distributed spirally on its cylindrical surface and outputs beams of X-rays therefrom; wherein diameter of holes and space between holes on the cylindrical surface of the flying-spot forming units are adjusted to reduce intensity of beams emitted from the second back-scattering scanning device when the first detector collects signals, and reduce intensity of beams emitted from the first back-scattering scanning device when the second detector collects signals. 5. A method for use in a human body back-scattering inspection system comprising a first back-scattering scanning device and a second back-scattering scanning device which are placed in opposite positions relative to each other so that an object to be inspected stands therebetween when it is to be scanned, the first back-scattering scanning device comprising a first X-ray source, a first flying-spot forming unit, and a first detector, the first flying-spot forming unit having a plurality of holes that are distributed spirally on its cylindrical surface and outputting beams of X-rays, the first detector receiving beams of X-rays that are reflected from body of the inspected object, the second back-scattering scanning device comprising a second X-ray source, a second flying-spot forming unit, and a second detector, the second flying-spot forming unit having a plurality of holes that are distributed spirally on its cylindrical surface and outputting beams of X-rays, the second detector receiving beams of X-rays that are reflected from body of the inspected object, the method comprising: generating controlling signals to cause the first flying-spot forming unit and the second flying-spot forming unit to output the beams of X-rays at time which is different by a half of a cycle of the intensity of beams varying over time; wherein diameter of holes and space between holes on the cylindrical surface of the flying-spot forming units are adjusted to reduce intensity of beams emitted from the second back-scattering scanning device when the first detector collects signals, and reduce intensity of beams emitted from the first back-scattering scanning device when the second detector collects signals. 6. The method according to claim 5 , further comprising generating controlling signals to cause the first and second back-scattering scanning devices to start at time that is different by about a half of the cycle of the intensity of beams varying over time. 7. The method according to claim 5 , further comprising generating controlling signals to cause the first detector to collect only reflected beams of X-rays about peaks of the beams of X-rays emitted from the first flying-spot forming unit, and to cause the second detector to collect only reflected beams of X-rays about peaks of the beams of X-rays emitted from the second flying-spot forming unit. 8. A method for use in a human body back-scattering inspection system comprising a first back-scattering scanning device and a second back-scattering scanning device which are placed in opposite positions relative to each other so that an object to be inspected stands therebetween when it is to be scanned, the first back-scattering scanning device comprising a first X-ray source, a first flying-spot forming unit, and a first detector, the first flying-spot forming unit outputting beams of X-rays, the first detector receiving beams of X-rays that are reflected from body of the inspected object, the second back-scattering scanning device comprising a second X-ray source, a second flying-spot forming unit, and a second detector, the second flying-spot forming unit outputting beams of X-rays, the second detector receiving beams of X-rays that are reflected from body of the inspected object, wherein each of the first flying-spot forming unit and the second flying-spot forming unit has a plurality of holes that are distributed spirally on its cylindrical surface and outputs beams of X-rays therefrom, the method comprising gen