Adaptive side blind zone alert system and method

What is claimed is: 1. An adaptive side blind zone method, comprising: determining that a host vehicle is approaching a first lane that is nonparallel to a second lane, wherein the host vehicle is moving in the second lane; activating an adaptive side blind zone alert system of the host vehicle in response to determining that the host vehicle is approaching the first lane that is nonparallel to the second lane; determining a minimum distance from a center of gravity of the host vehicle to a centerline extending along a center of the first lane; determining a warning zone in response to activating the adaptive side blind zone alert system of the host vehicle by determining a width of the warning zone as a function of the minimum distance from the center of gravity of the host vehicle to the centerline extending along the center of the first lane, and determining a length of the warning zone as a function of the width of the warning zone; detecting a remote vehicle inside the warning zone after determining the warning zone, wherein the remote vehicle is moving in the first lane; and providing an alert in response to detecting that the remote vehicle is inside the warning zone. 2. The method of claim 1 , wherein determining the length of the warning zone as a function of the width of the warning zone includes determining the length of the warning zone using a following equation: L=k×w where: L is the length of the warning zone; w is the width of the warning zone; and k is a predetermined scaling factor. 3. The method of claim 2 , wherein detecting the remote vehicle inside the warning zone includes using a blind zone sensor to detect the remote vehicle inside the warning zone, the blind zone sensor is an ultrasonic sensor, the blind zone sensor has a maximum range, the length of the warning zone is equal to or less than the maximum range of the blind zone sensor, the width of the warning zone is equal to or less than the maximum range of the blind zone sensor, and the length of the warning zone and the width of the warning zone are constrained by a following equation: w 2 + L 2 ≤ γ max where: L is the length of the warning zone; w is the width of the warning zone; and γ max the maximum range of the blind zone sensor. 4. The method of claim 3 , wherein determining the warning zone as the function of the minimum distance from the center of gravity of the host vehicle to the centerline of the first lane includes calculating the width of the warning zone using a following equation: w = d + 1 2 ⁢ V ⁢ e ⁢ h width + 1 2 ⁢ lane width cos ⁢ α + δ where: δ is a predetermined constant to fine tune the width of the warning zone; d is the minimum distance from the center of gravity of the host vehicle to the centerline extending along the center of the first lane; Veh width is a width of the host vehicle; lane width is a width of the second lane; α is an angle from centerline extending along the center of the first lane and a centerline extending along a center of the second lane; and w is the width of the warning zone. 5. The method of claim 1 , wherein providing the alert includes turning on a light of the host vehicle. 6. The method of claim 1 , wherein determining that the host vehicle is approaching the first lane that is nonparallel to the second lane includes: receiving location data of the host vehicle; receiving a navigation map of an area surrounding the host vehicle; and determining that the host vehicle is approaching the first lane that is nonparallel to the second lane using the location data of the host vehicle and the navigation map of the area surrounding the host vehicle. 7. The method of claim 1 , wherein determining that the host vehicle is approaching the first lane that is nonparallel to the second lane includes: detecting a traffic pattern that is not parallel to a heading of the host vehicle; and determining that the host vehicle is approaching the first lane that is nonparallel to the second lane in response to detecting the traffic pattern that is not parallel to the heading of the host vehicle. 8. The method of claim 1 , wherein determining that the host vehicle is approaching the first lane that is nonparallel to the second lane includes: receiving a vehicle-to-vehicle (V2V) communication from the remote vehicle, wherein the V2V communication is indicative that the host vehicle is approaching the first lane that is nonparallel to the second lane; and determining that the host vehicle is approaching the first lane that is nonparallel to the second lane in response receiving the V2V communication from the remote vehicle. 9. The method of claim 1 , wherein determining that the host vehicle is approaching the first lane that is nonparallel to the second lane includes: receiving a vehicle-to-infrastructure (V2I) communication from an infrastructure, wherein the V2I communication is indicative that the host vehicle is approaching the first lane that is nonparallel to the second lane; and determining that the host vehicle is approaching the first lane that is nonparallel to the second lane in response receiving the V2I communication from the remote vehicle. 10. A tangible, non-transitory, machine-readable medium, comprising machine-readable instructions, that when executed by a processor, cause the processor to: determine that a host vehicle is approaching a first lane that is nonparallel to a second lane, wherein the host vehicle is moving in the second lane; activate an adaptive side blind zone alert system of the host vehicle in response to determining that the host vehicle is approaching the first lane that is nonparallel to the second lane; determine a minimum distance from a center of gravity of the host vehicle to a centerline extending along a center of the first lane; determine a warning zone in response to activating the adaptive side blind zone alert system of the host vehicle by determining a width of the warning zone as a function of the minimum distance from the center of gravity of the host vehicle to the centerline extending along the center of the first lane, and determining a length of the w