The present invention provides an apparatus and related methods for stabilizing a payload device such an imaging device. The methods and apparatus provide fast response time for posture adjustment of the payload device while reducing the energy used.
대표청구항▼
1. An apparatus, comprising: (a) a frame assembly adapted to hold a device, wherein the frame assembly comprises: a first frame member configured to be coupled to the device;a second frame member rotatably coupled to the first frame member on a pitch axis of the device; anda third frame member rotat
1. An apparatus, comprising: (a) a frame assembly adapted to hold a device, wherein the frame assembly comprises: a first frame member configured to be coupled to the device;a second frame member rotatably coupled to the first frame member on a pitch axis of the device; anda third frame member rotatably coupled to the second frame member on a roll axis of the device that intersects with the device(b) a controller assembly comprising:an inertial measurement member configured to obtain state information comprising at least angular velocity and linear acceleration of the device;a controller configured to provide one or more motor signals based at least in part on posture information calculated from the state information; and(c) a motor assembly configured to directly drive the frame assembly in response to the one or more motor signals so as to allow the device to rotate around at least one of the pitch, roll or yaw axes; and whereinthe apparatus further comprises a connecting assembly that connects a distal end of the second frame member and a distal end of the third frame member so as to support and stabilize the second frame member when the second frame member rotates relative to the third frame member,wherein the connecting assembly comprises a first connecting member, a second connecting member, and a third connecting member, which are sequentially and hingedly connected;a free end of the first connecting member is hingedly connected with a first distal end of the second frame member;a free end of the third connecting member is hingedly connected with a second distal end of the second frame member; andthe second connecting member is connected with the third frame member, andwherein the motor assembly comprises a fourth motor configured to directly drive the second connecting member to rotate relative to the third frame member. 2. The apparatus of claim 1, wherein the motor assembly comprises: a first motor configured to directly drive the first frame member to rotate around the pitch axis in response to at least one of the one or more motor signals; anda second motor configured to directly drive the second frame member to rotate around the roll axis in response to at least one of the one or more motor signals. 3. The apparatus of claim 2, wherein the frame assembly further comprises a fourth frame member, the fourth frame member rotatably coupled to the third frame member on a yaw axis of the device. 4. The apparatus of claim 3, wherein the motor assembly further comprises a third motor configured to directly drive the third frame member to rotate around the yaw axis in response to at least one of the one or more motor signals. 5. The apparatus of claim 1, wherein the frame assembly further comprises an adjustment member for adjusting at least one of the pitch, roll, or yaw axis relative to the frame assembly. 6. An unmanned aerial vehicle (UAV), comprising a base coupled to the apparatus of claim 1. 7. A method for controlling the apparatus of claim 1, comprising: calculating, by the controller assembly, posture information based at least in part on the state information;providing, by the controller assembly, one or more motor signals to the motor assembly based at least in part on the calculated posture information; andin response to the one or more motor signals, driving, by the motor assembly, the frame assembly to rotate around at least one of the pitch, roll, or yaw axis;wherein said driving, by the motor assembly, further comprises driving the fourth motor to directly drive the second connecting member to rotate relative to the third frame member. 8. A method of image acquisition, comprising: remotely operating the unmanned aerial vehicle (UAV) to approach an object, the UAV being coupled to the apparatus of claim 1; andcontrolling the apparatus to stabilize a device held by the frame assembly of the apparatus so as to improve quality of images captured by the device. 9. The apparatus of claim 1, wherein the motor assembly comprises: a first motor configured to directly drive the first frame member to rotate around the pitch axis in response to at least one of the one or more motor signals;a second motor configured to directly drive the second frame member to rotate around the roll axis in response to at least one of the one or more motor signals; and whereina stator of the first motor is affixed to the first frame member and a rotor of the first motor is affixed to the second frame member, or the rotor of the first motor is affixed to the first frame member and the stator of the first motor is affixed to the second frame member; anda stator of the second motor is affixed to the second frame member and a rotor of the second motor is affixed to the third frame member, or the rotor of the second motor is affixed to the second frame member and the stator of the second motor is affixed to the third frame member. 10. The apparatus of claim 1, wherein the device is configured to capture images. 11. The apparatus of claim 2, wherein the center of gravity of (i) the device and (ii) the first frame member, is located on the pitch axis. 12. The apparatus of claim 2, wherein the center of gravity of (i) the device, (ii) the first frame member, and (iii) the second frame member, is located on the roll axis. 13. The apparatus of claim 2, wherein the center of gravity of (i) the device, (ii) the first frame member, (iii) the second frame member, and (iv) the third frame member, is located on the yaw axis.
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