Safe occlusion-aware cooperative adaptive cruise control under environmental interference

1 . A method of controlling speed of an ego vehicle in a vehicle platoon that includes a preceding vehicle and the ego vehicle, the method comprising: providing cooperative adaptive cruise control (CACC) commands to a speed controller, wherein the CACC commands are based on at least one of a vehicle-to-vehicle (V2V) communication control received via a wireless communication from the preceding vehicle and a feedback control based on a sensor output of a long-range sensor of the ego vehicle; and in response to detecting an occluded state: determining a minimum spacing value and a minimum relative velocity value between the ego vehicle and the preceding vehicle based on information received before the detection of the occluded state; determining a safety speed based on the minimum spacing value and the minimum relative velocity value; and providing an occluded adaptive cruise control command to the speed controller to maintain a speed of the ego vehicle that is less than or equal to the safety speed. 2 . The method of claim 1 , wherein detecting the occluded state includes at least one of: detecting a missing or invalid V2V communication control; and detecting a missing or invalid sensor output from the long-range sensor. 3 . The method of claim 1 , further comprising, in response to the detection of the occluded state, estimating a memory-hold speed of the preceding vehicle using a memory-hold technique based on last information received before the detection of the occluded state; and wherein providing the occluded adaptive cruise control command to the speed controller to maintain the speed of the ego vehicle that is less than or equal to the safety speed includes: determining the occluded adaptive cruise control command based on a minimum of the memory-hold speed and the safety speed. 4 . The method of claim 1 , wherein determining the minimum spacing value and the minimum relative velocity value between the ego vehicle and the preceding vehicle includes: updating a minimum spacing value based on a previous spacing value and a previous relative velocity value; correcting the updated minimum spacing value based on information from a short-range sensor of the ego vehicle; and updating the minimum relative velocity value based on the previous relative velocity value and vehicle dynamics of the preceding vehicle under an emergency braking assumption. 5 . The method of claim 4 , wherein correcting the updated minimum spacing value based on information from the short-range sensor of the ego vehicle includes: comparing the updated minimum spacing value to a maximum range of the short-range sensor; and in response to determining that the updated minimum spacing value is less than the maximum range of the short-range sensor and that the short-range sensor does not detect the preceding vehicle, increasing the updated minimum spacing value to be at least the maximum range of the short-range sensor. 6 . The method of claim 4 , wherein updating the minimum relative velocity value based on the previous relative velocity value and vehicle dynamics of the preceding vehicle under the emergency braking assumption includes estimating a maximum deceleration of the preceding vehicle based on one or more of a mass, a braking efficiency, or a rolling resistance of the preceding vehicle. 7 . The method of claim 1 , wherein providing the occluded adaptive cruise control command to the speed controller to maintain the speed of the ego vehicle that is less than or equal to the safety speed includes minimizing a difference between the occluded adaptive cruise control command and a previous command to the speed controller to improve driving comfort and tracking accuracy. 8 . A non-transitory computer-readable medium having computer-executable instructions stored thereon that, in response to execution by an engine control unit (ECU) of an ego vehicle, cause the ECU to perform actions to control speed of the ego vehicle while in a vehicle platoon that includes a preceding vehicle and the ego vehicle, the actions comprising: providing cooperative adaptive cruise control (CACC) commands to a speed controller, wherein the CACC commands are based on at least one of a vehicle-to-vehicle (V2V) communication control received via a wireless communication from the preceding vehicle and a feedback control based on a sensor output of a long-range sensor of the ego vehicle; and in response to detecting an occluded state: determining a minimum spacing value and a minimum relative velocity value between the ego vehicle and the preceding vehicle based on information received before the detection of the occluded state; determining a safety speed based on the minimum spacing value and the minimum relative velocity value; and providing an occluded adaptive cruise control command to the speed controller to maintain a speed of the ego vehicle that is less than or equal to the safety speed. 9 . The non-transitory computer-readable medium of claim 8 , wherein detecting the occluded state includes at least one of: detecting a missing or invalid V2V communication control; and detecting a missing or invalid sensor output from the long-range sensor. 10 . The non-transitory computer-readable medium of claim 8 , wherein the actions further comprise, in response to the detection of the occluded state, estimating a memory-hold speed of the preceding vehicle using a memory-hold technique based on last information received before the detection of the occluded state; and wherein providing the occluded adaptive cruise control command to the speed controller to maintain the speed of the ego vehicle that is less than or equal to the safety speed includes: determining the occluded adaptive cruise control command based on a minimum of the memory-hold speed and the safety speed. 11 . The non-transitory computer-readable medium of claim 8 , wherein determining the minimum spacing value and the minimum relative velocity value between the ego vehicle and the preceding vehicle includes: updating a minimum spacing value based on a previous spacing value and a previous relative velocity value; correcting the updated minimum spacing value based on information from a short-range sensor of the ego vehicle; and updating the minimum relative velocity value based on the previous relative velocity value and vehicle dynamics of the preceding vehicle under an emergency braking assumption. 12 . The non-transitory computer-readable medium of claim 11 , wherein correcting the updated minimum spacing value based on information from the short-range sensor of the ego vehicle includes: comparing the updated minimum spacing value to a maximum range of the short-range sensor; and in response to determining that the updated minimum spacing value is less than the maximum range of the short-range sensor and that the short-range sensor does not detect the preceding vehicle, increasing the updated minimum spacing value to be at least the maximum range of the short-range sensor. 13 . The non-transitory computer-readable medium of claim 11 , wherein updating the minimum relative velocity value based on the previous relative velocity value and vehicle dynamics of the preceding vehicle under the emergency braking assumption includes estimating a maximum deceleration of the preceding vehicle based on one or more of a mass, a braking efficiency, or a rolling resistance of the preceding vehicle. 14 . The non-transitory computer-readable medium of claim 8 , wherein providing the occluded adaptive cruise control command to the speed controller to maintain the speed of the ego vehicle that is