Laser radar device and radar image generating method

The invention claimed is: 1. A laser radar device comprising: a laser light transmitter and receiver to radiate laser light toward a measurement object while changing a beam scanning angle, and receive said laser light which is reflected by said measurement object and then returns thereto; an elapsed time measurer to measure an elapsed time that elapses from a time when the laser light is radiated from said laser light transmitter and receiver to a time when the laser light is received by said laser light transmitter and receiver; a distance calculator to calculate a distance from said device in question to said measurement object by using the elapsed time measured by said elapsed time measurer; an imager to image the distance calculated by said distance calculator; a quality determinator to determine whether image quality showing either a number of pixels each having a measured distance value or a degree of omission in measurement portions, in of an image generated by said imager, satisfies reference quality; and a relative relation changer to change at least one of a speed and an altitude of said device in question with respect to said measurement object when said quality determinator determines that the image quality does not satisfy the reference quality, wherein said quality determinator determines whether an omission in measurement portions occurs in the image generated by said imager from a relation among a speed of a moving object in which said device in question is mounted, an altitude of said moving object, a beam divergence, and a beam scanning rate, and, when an omission in measurement portions occurs, determines that said image quality does not satisfy the reference quality. 2. The laser radar device according to claim 1 , wherein said laser radar device includes a light intensity detector to detect light intensity of the laser light received by said laser light transmitter and receiver, and said imager images the light intensity detected by said light intensity detector. 3. The laser radar device according to claim 1 , wherein said laser radar device includes a three dimensional coordinate calculator to calculate three dimensional coordinates of a measure point in the measurement object from both the distance calculated by said distance calculator and the beam scanning angle of the laser light by said laser light transmitter and receiver, and said imager images the three dimensional coordinates calculated by said three dimensional coordinate calculator. 4. The laser radar device according to claim 1 , wherein when said quality determinator determines that the image quality does not satisfy the reference quality, said relative relation changer changes the speed of said device in question with respect to the measurement object by commanding the moving object to lower the speed. 5. The laser radar device according to claim 4 , wherein when the speed of the moving object cannot be lowered, said relative relation changer changes the altitude of said device in question with respect to the measurement object by commanding the moving object to change the altitude. 6. The laser radar device according to claim 5 , wherein when an amount of variation in a spatial resolution exceeds a preset permissible amount due to a change of the altitude of the moving object, said relative relation changer changes a specification of the laser light radiated from said laser light transmitter and receiver within limits at which the amount of variation in said spatial resolution does not exceed said permissible amount, without commanding said moving object to change the altitude. 7. The laser radar device according to claim 3 , wherein said laser radar device includes a three-dimensional map generator to generate a three-dimensional map from the three dimensional coordinates calculated by said three dimensional coordinate calculator, and a low measurement point density area extractor to examine a measurement point gap of the three-dimensional map generated by said three-dimensional map generator, and extract an area where a measurement point density is lower than a reference density and notify said area to the moving object. 8. The laser radar device according to claim 1 , wherein the quality determinator counts a number of pixels which are included in pixels which construct the image generated by said imager and each of which has a measured distance value which has succeeded in being measured, and, when said number is smaller than a reference number, determines that said image quality does not satisfy the reference quality. 9. The laser radar device according to claim 8 , wherein when said quality determinator determines that the image quality does not satisfy the reference quality, said relative relation changer changes at least one of the speed and the altitude of said device in question with respect to said measurement object by commanding the moving object to move closer to the measurement object. 10. The laser radar device according to claim 2 , wherein said quality determinator counts a number of pixels which are included in pixels which construct the image generated by said imager and each of which has a measured distance value which has succeeded in being measured and also counts a number of pixels which are included in pixels which construct the light intensity image generated by said imager and each of which has a saturation value, and, even if the number of pixels each having the measured distance value which has succeeded in being measured is equal to or larger than a first reference number but the number of pixel each having the saturation value is equal to or larger than a second reference number, determines that the quality of the image does not satisfy the reference quality. 11. The laser radar device according to claim 10 , wherein said relative relation changer changes a transmission and reception condition for laser light when said quality determinator determines that the image quality does not satisfy the reference quality. 12. The laser radar device according to claim 2 , wherein said laser light transmitter and receiver is equipped with a light receiver to, when receiving the laser light which is reflected by the measurement object and then returns thereto, convert said laser light into an electric signal and output a received signal which is said electric signal, and said laser radar device includes a received signal selector to, only when a signal level of the received signal outputted from said light receiver is equal to or higher than a reference level, output said received signal to said elapsed time measurer and said light intensity detector, and wherein said elapsed time measurer measures the elapsed time that elapses from the time when the laser light is radiated from said laser light transmitter and receiver to the time when the received signal is outputted from said received signal selector and said light intensity detector detects a peak value of the received signal outputted from said received signal selector as the light intensity of the laser light received by said laser light transmitter and receiver. 13. The laser radar device according to claim 12 , wherein said light receiver applies a gain varying according to the elapsed time that elapses from a time when said laser light transmitter and receiver starts radiating the laser light to the received signal, and outputs the received signal to which the gain is applied to said received signal selector. 14. The laser radar device according to claim 1 , wherein said laser light transmitter and receiver performs one-dimensional scanning of the laser light for the measurement object w