An adaptive archery auxiliary training system
A training system and self-adaptive technology, applied in the field of archery training, can solve the problems of limited accuracy, cumbersome adjustment and maintenance, high cost, and achieve the effects of high accuracy, strong training guidance function and high precision
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Embodiment 1
[0038] The invention provides an adaptive archery auxiliary training system, which combines figure 1 As shown, the adaptive archery auxiliary training system includes an information processor for calculating and analyzing data;
[0039] An image collector, used to collect real-time images of the target;
[0040] Sensors to measure the state of the bow;
[0041] A prompter, used to guide archers to adjust the bow;
[0042] The sensor includes a gyroscope, the gyroscope is installed on the bow arm of the bow, and is used to measure the real-time attitude angle of the bow;
[0043] When the archers carry out archery training, the image collector collects the information of the target surface in real time, the gyroscope measures the real-time attitude angle of the bow, and the information processor controls the image collector and the gyroscope The collected information is processed, including identifying the ring number of the drop point on the target, analyzing the position o...
Embodiment 2
[0050] Like the adaptive archery auxiliary training system described above, the difference in this embodiment is that the information processor measures the current attitude angle of the bow according to the gyroscope and the target angle collected by the image collector. Number of rings, calculate and analyze the proper angle between the bow and the horizontal direction when the arrow points to the bull's-eye, and guide the archers to adjust the bow according to the said proper angle. The specific steps are as follows:
[0051] After the archer stands at a fixed position, he shoots multiple arrows at the same shooting point arbitrarily at the target, defines the x-axis as the axis perpendicular to the target surface, the gyroscope measures the attitude angle of the bow that shoots the arrow, and the image acquisition The device collects the position of the falling point and the bull's eye on the target;
[0052] The information processor randomly selects multiple groups from th...
Embodiment 3
[0058] As the adaptive archery auxiliary training system described above, the difference of this embodiment is that, in combination with figure 2 and image 3 As shown, the information processor can calculate the distance between the drop point of the two arrows, the bull's-eye and the projected point perpendicular to the target surface, and the angle relationship between the interconnected lines. The calculation method is:
[0059] The initial coordinate system of the bow is defined as the x-axis is perpendicular to the wall where the target is located, and the y-axis and z-axis are respectively perpendicular to the x-axis and horizontal and vertical coordinate axes; according to the position of the shooting point T on the bow and the level of the target The distance y, the angle tanα and tanβ between the shooting direction of the arrow and the horizontal x-axis, can calculate the distance between the two landing points A and B of the two arrows on the target and the project...
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