Processing apparatus

What is claimed is: 1 . A processing apparatus for a target detection apparatus, the processing apparatus comprising a processor and associated memory configured to: generate, for a plurality of reflection points at which transmitted radio waves are reflected by a target, a plurality of instantaneous data sets, each of which includes a projected relative velocity of a said reflection point with respect to a host vehicle; calculate, for each of the plurality of instantaneous data sets, a projected ground velocity of the reflection point with respect to the host vehicle based on the projected relative velocity and a velocity of the host vehicle; align starting points of the calculated projected ground velocities to a predetermined point; and estimate a movement direction of the target from an intersection of perpendicular lines to the projected ground velocities whose starting points are aligned. 2 . The processing apparatus according to claim 1 , wherein when there is one intersection, the processor estimates that a direction from the predetermined point to the one intersection is the movement direction of the target. 3 . The processing apparatus according to claim 1 , wherein when there are three or more intersections, the processor estimates the movement direction based on an inner center of a triangle that is formed by the three or more intersections. 4 . The processing apparatus according to claim 1 , wherein among the plurality of the instantaneous data sets, the processor does not use to estimate the movement direction of the target an instantaneous data set having a direction from the reflection point to the host vehicle similar to that of another one of the plurality of the instantaneous data sets. 5 . The processing apparatus according to claim 1 , wherein: each of the plurality of the instantaneous data sets includes a distance between the reflection point and the host vehicle, and among the plurality of the instantaneous data sets, the processor does not use to estimate the movement direction of the target an instantaneous data set having an absolute value of the relative velocity and the distance between the reflection point and the vehicle similar to those of another one of the plurality of the instantaneous data sets. 6 . The processing apparatus according to claim 1 , wherein: the memory stores the plurality of the instantaneous data sets generated by the processor as history data and the processor uses at least one past instantaneous data set stored as the history data for the estimation process of the movement direction when an amount of latest ones of the plurality of the instantaneous data sets is less than a predetermined amount. 7 . The processing apparatus according to claim 6 , wherein the processor corrects a direction to the host vehicle in the at least one past instantaneous data set stored in the history data based on a change amount of the direction of the host vehicle. 8 . The processing apparatus according to claim 1 , wherein: the processor generates a target data set corresponding to each of the plurality of the instantaneous data sets by using a particle filter that assigns a plurality of particle data sets to the instantaneous data sets generated by the generator, wherein the processor regards the movement direction of the target as a defined value of an estimation result when a similarity between directions of vectors based on the plurality of the particle data sets acid the movement direction is equal to or more than a predetermined value. 9 . A processing apparatus mounted on a target detection apparatus installed in a predetermined direction, the processing apparatus comprising a processor and associated memory configured to: generate, for each of a plurality of reflection points at which transmitted radio waves are reflected by a target, a plurality of instantaneous data sets, each of which includes a projected relative velocity of a said reflection point with respect to a host vehicle; align starting points of the projected relative velocities to a predetermined point; estimate a movement direction of the host vehicle from an intersection of perpendicular lines to the projected relative velocities whose starting points are aligned; and detect an axis deviation from the predetermined direction based on the estimated movement direction of the host vehicle. 10 . The processing apparatus according to claim 9 , wherein when there is one intersection, the processor estimates that a direction from the predetermined point to the one intersection is the movement direction of the host vehicle. 11 . The processing apparatus according to claim 9 , wherein among the plurality of the instantaneous data sets, the processor selects an instantaneous data set corresponding to a stationary object and creates the intersection based on the selected instantaneous data set. 12 . The processing apparatus according to claim 11 , wherein the processor buffers the selected instantaneous data set and creates the intersection based on the buffered instantaneous data set. 13 . The processing apparatus according to claim 11 , wherein when there are two or more intersections, the processor calculates a representative point representing a plurality of the intersections and estimates the movement direction of the host vehicle based on the representative point. 14 . The processing apparatus according to claim 13 , wherein when there are three or more intersections, the processor creates an inner center of a triangle that is formed by the three or more intersections as the representative point. 15 . The processing apparatus according to claim 9 , wherein the processor applies a temporal smoothing process to an axis deviation angle of the detected axis deviation. 16 . An axis deviation detection method of a target detection apparatus installed in a predetermined direction, the method comprising: (a) generating, for each of a plurality of reflection points at which transmitted radio waves are reflected by a target, a plurality of instantaneous data sets, each of which includes a projected relative velocity of a said reflection point with respect to a host vehicle; (b) aligning starting points of the projected relative velocities to a predetermined point; (c) estimating a movement direction of the host vehicle from an intersection of perpendicular lines to the projected relative velocities whose starting points are aligned; and (d) detecting an axis deviation from the predetermined direction based on the estimated movement direction of the host vehicle.