Kinematic mount for active reflective mirror alignment with multi-degree-of-freedom

What is claimed is: 1. A light detection and ranging (LiDAR) receiver comprising: a chassis; and a first mirror assembly comprising: a bracket detachably mounted on the chassis; a first mirror mount configured to hold a first mirror for receiving and deflecting a light beam to a photodetector; a first set of elastic connectors attached to both the bracket and the first mirror mount to couple the first mirror mount to the bracket; and a first set of screws extending through the bracket and in contact with the first mirror mount, wherein the first set of screws are adjustable to change a distance and an orientation of the first mirror mount with respect to the bracket. 2. The LiDAR receiver of claim 1 , wherein: the first set of elastic connectors include three or more extension springs; and each of the three or more extension springs is attached to the bracket through a respective first dowel pin and is attached to the first mirror mount through a respective second dowel pin. 3. The LiDAR receiver of claim 1 , wherein the first set of screws include three or more screws arranged in noncollinear locations. 4. The LiDAR receiver of claim 1 , wherein the first set of screws include four screws arranged at vertexes of a rectangle. 5. The LiDAR receiver of claim 1 , wherein the first set of screws are individually adjustable to move the first mirror mount with three degrees of freedom with respect to the bracket. 6. The LiDAR receiver of claim 1 , wherein the first set of screws are individually adjustable to rotate the first mirror mount by at least 3° with respect to the bracket. 7. The LiDAR receiver of claim 1 , further comprising a second mirror assembly detachably mounted on the chassis and configured to receive and direct the light beam deflected by the first mirror to the photodetector. 8. The LiDAR receiver of claim 1 , further comprising a galvo mirror assembly, the galvo mirror assembly comprising: a mirror holder including a handle and a galvo mirror for receiving and reflecting the light beam to the first mirror; and a galvo mirror mount detachably mounted on the chassis and including a recess for receiving the handle of the mirror holder. 9. The LiDAR receiver of claim 8 , wherein the galvo mirror assembly further comprises: two elastic members coupled to the handle of the mirror holder and the galvo mirror mount; and two set screws at least partially in the galvo mirror mount and in contact with the handle of the mirror holder, the two set screws individually adjustable to change a compression force applied to at least one of the two elastic members and a tilt angle of the mirror holder and the galvo mirror with respect to a vertical direction. 10. The LiDAR receiver of claim 1 , further comprising: a carrier frame detachably mounted on the chassis; a lens assembly coupled to the carrier frame, the lens assembly comprising: a lens holder detachably mounted on the carrier frame by a second set of elastic connectors attached to the carrier frame and the lens holder; and a lens installed on the lens holder and positioned to receive the light beam deflected by the first mirror to form an image on the photodetector; and a second set of screws extending through the carrier frame and in contact with the lens holder, wherein the second set of screws are adjustable to change at least one of a distance or an orientation of the lens holder with respect to the carrier frame. 11. A light detection and ranging (LiDAR) system comprising: a chassis; and a plurality of optical receivers mounted on the chassis, each optical receiver of the plurality of optical receivers configured to receive light from a respective field of view, wherein each optical receiver of the plurality of optical receivers comprises a first mirror assembly, the first mirror assembly comprising: a bracket detachably mounted on the chassis; a first mirror mount configured to hold a first mirror for receiving and deflecting a light beam to a photodetector; a first set of elastic connectors attached to both the bracket and the first mirror mount to couple the first mirror mount to the bracket; and a first set of screws extending through the bracket and in contact with the first mirror mount, wherein the first set of screws are adjustable to change at least one of a distance or an orientation of the first mirror mount with respect to the bracket. 12. The LiDAR system of claim 11 , wherein: the first set of elastic connectors include three or more extension springs; and each of the three or more extension springs is attached to the bracket through a respective first dowel pin and is attached to the first mirror mount through a respective second dowel pin. 13. The LiDAR system of claim 11 , wherein the first set of screws include three or more screws arranged in noncollinear locations. 14. The LiDAR system of claim 11 , wherein the first set of screws include four screws arranged at vertexes of a rectangle. 15. The LiDAR system of claim 11 , wherein the first set of screws are individually adjustable to move the first mirror mount with three degrees of freedom with respect to the bracket. 16. The LiDAR system of claim 11 , wherein the first set of screws are individually adjustable to rotate the first mirror mount by at least 3° with respect to the bracket. 17. The LiDAR system of claim 11 , wherein each optical receiver of the plurality of optical receivers further comprises a second mirror assembly detachably mounted on the chassis and configured to receive and direct the light beam from the first mirror to the photodetector. 18. The LiDAR system of claim 11 , wherein each optical receiver of the plurality of optical receivers further comprises a galvo mirror assembly, the galvo mirror assembly comprising: a mirror holder including a handle and a galvo mirror for receiving and reflecting the light beam to the first mirror; and a galvo mirror mount detachably mounted on the chassis and including a recess for receiving the handle of the mirror holder. 19. The LiDAR system of claim 18 , wherein the galvo mirror assembly further comprises: two elastic members coupled to the handle of the mirror holder and the galvo mirror mount; and two set screws in contact with the handle of the mirror holder and at least partially in the galvo mirror mount, the two set screws individually adjustable to change a compression force applied to at least one of the two elastic members and a tilt angle of the mirror holder and the galvo mirror with respect to a vertical direction. 20. The LiDAR system of claim 11 , wherein each optical receiver of the plurality of optical receivers further comprises: a carrier frame detachably mounted on the chassis; a lens assembly coupled to the carrier frame, the lens assembly comprising: a lens holder detachably mounted on the carrier frame by a second set of elastic connectors attached to the carrier frame and the lens holder; and a lens installed on the lens holder and positioned to receive the light beam from the first mirror to form an image on the photodetector; and a second set of screws extending through the carrier frame and in contact with the lens holder, wherein the second set of screws are adjustable to change at least one of a distance or an orientation of the lens holder with respect to the carrier frame.