Vehicle ultrasonic sensors

What is claimed is: 1 . A vehicle operation method, comprising: receiving, by a computer located in a vehicle, data from an ultrasonic sensor located on the vehicle, wherein the data includes a first set of coordinates of two points associated with a location where an object is detected by the ultrasonic sensor; determining a second set of coordinates associated with a point in between the two points; performing a first determination that the second set of coordinates is associated with a lane or a road on which the vehicle is operating; performing a second determination that the object is movable; and sending, in response to the first determination and the second determination, a message that causes the vehicle to perform a driving related operation while the vehicle is operating on the road. 2 . The vehicle operation method of claim 1 , further comprising: sending, in response to the first determination and the second determination, another message that causes the vehicle to not perform another driving related operation while the vehicle is stopped on the road. 3 . The vehicle operation method of claim 2 , wherein the another driving related operation includes causing the vehicle to not apply throttle or causing the vehicle to keep brakes applied. 4 . The vehicle operation method of claim 1 , wherein the driving related operation includes causing the vehicle to apply brakes or causing the vehicle to steer away from the object. 5 . The vehicle operation method of claim 1 , wherein the two points include two endpoints of a line that extends in between a sensing region of the ultrasonic sensor. 6 . The vehicle operation method of claim 1 , wherein the point is a midpoint in between the two points. 7 . The vehicle operation method of claim 1 , wherein the second set of coordinates includes two-dimensional (2D) world coordinates of the point. 8 . The vehicle operation method of claim 7 , wherein the data received from the ultrasonic sensor includes an identifier of the ultrasonic sensor and a timestamp when the object is detected by the ultrasonic sensor, and wherein the 2D world coordinates of the point is determined by: determining a third set of coordinates associated with the point in between the two points based on the first set of coordinates of the two points, wherein the first set of coordinates and the third set of coordinates are associated with a first coordinate system of the ultrasonic sensor; obtaining, based on the identifier of the ultrasonic sensor, a set of pre-determined values that describe a spatial relationship between an inertial measurement unit (IMU) sensor and the ultrasonic sensor; and determining a fourth set of coordinates of the point in a second coordinate system associated with the IMU sensor by combining the third set of coordinates of the point with the set of pre-determined values, wherein the second set of coordinates associated with the point is determined based on the fourth set of coordinates of the point in the second coordinate system and 3D world coordinates of the IMU sensor at the timestamp when the object is detected. 9 . An apparatus for autonomous vehicle operation comprising a processor, configured to implement a method comprising: receive, by a computer located in a vehicle, data from an ultrasonic sensor located on the vehicle, wherein the data includes a first set of coordinates of two points associated with a location where an object is detected by the ultrasonic sensor; determine a second set of coordinates associated with a point in between the two points; perform a first determination that the second set of coordinates is associated with a lane or a road on which the vehicle is operating; perform a second determination that the object is movable; and send, in response to the first determination and the second determination, a message that causes the vehicle to perform a driving related operation while the vehicle is operating on the road. 10 . The apparatus of claim 9 , wherein the vehicle comprises a plurality of ultrasonic sensors that include the ultrasonic sensor, and wherein at least two ultrasonic sensors located immediately adjacent to each other have overlapping sensing regions. 11 . The apparatus of claim 9 , wherein the vehicle comprises a plurality of ultrasonic sensors that include the ultrasonic sensor, and wherein a total number of the plurality of ultrasonic sensors is based on a size of or a number of blind spot regions close to the vehicle, or a distribution of the blind spot regions around the vehicle. 12 . The apparatus of claim 9 , wherein the vehicle comprises a plurality of ultrasonic sensors that include the ultrasonic sensor, and wherein a sensitivity related to object detection capability of each ultrasonic sensor is independently adjustable. 13 . The apparatus of claim 12 , wherein the sensitivity of the ultrasonic sensor is adjusted based on a second location of the vehicle. 14 . A non-transitory computer readable program storage medium having code stored thereon, the code, when executed by a processor, causing the processor to implement a method, comprising: receiving, by a computer located in a vehicle, data from an ultrasonic sensor located on the vehicle, wherein the data includes a first set of coordinates of two points associated with a location where an object is detected by the ultrasonic sensor; determining a second set of coordinates associated with a point in between the two points; performing a first determination that the second set of coordinates is associated with a lane or a road on which the vehicle is operating; performing a second determination that the object is movable; and sending, in response to the first determination and the second determination, a message that causes the vehicle to perform a driving related operation while the vehicle is operating on the road. 15 . The non-transitory computer readable program storage medium of claim 14 , wherein the second determination is performed in response to the first determination. 16 . The non-transitory computer readable program storage medium of claim 14 , wherein the first determination is performed by querying a map database stored on the computer with the second set of coordinates associated with the point in between the two points, and wherein the method further comprises: receiving, from the map database, information that indicates that the second set of coordinates are associated with the lane or the road. 17 . The non-transitory computer readable program storage medium of claim 14 , wherein the second determination that the object is movable is performed in response to determining that the information does not include additional information related to the second set of coordinates. 18 . The non-transitory computer readable program storage medium of claim 14 , wherein the message is sent in response to the first determination, in response to the second determination, and in response to receiving from the ultrasonic sensor a pre-determined number of consecutive frames that include coordinates of a set of points associated with locations where the object is detected. 19 . The non-transitory computer readable program storage medium of claim 14 , wherein the message is sent in response to the first determination, in response to the second determination, and in response to receiving from the ultrasonic sensor a pre-determined number of frames that include coordinates of a set of points associated with location