Adaptive braking for a vehicle control system

We claim: 1. A controller for a vehicle system on a host vehicle comprising: an input for receiving a travel signal indicative of a direction of travel of the host vehicle; an output for transmitting a braking signal to control a braking action of the host vehicle; a processor having control logic, the control logic capable of: identifying a first target in a lane of travel of the host vehicle; monitoring for an active braking intervention request; monitoring for an additional target in an adjacent lane of travel to the host vehicle; transmitting a first braking signal at the output to control a braking action at a first braking level in response to receiving the active braking intervention request and identifying no other targets in adjacent lanes of travel to the host vehicle; identifying the additional target in the adjacent lane of travel; receiving the travel signal at the input indicative of a change in the direction of travel of the host vehicle toward the identified additional target; and transmitting a second braking signal at the output to control the braking action at a second braking level in response to receiving the active braking intervention request, identifying the additional target and receiving the travel signal indicative of the host vehicle moving to toward the additional target, the second level being different than the first level. 2. The controller as in claim 1 , wherein the second braking level is greater than the first braking level. 3. The controller as in claim 1 , wherein the first target is a vehicle and the additional target is a vehicle. 4. The controller as in claim 1 , wherein the first target is a vehicle and the additional target is a stationary object. 5. The controller as in claim 1 , wherein the control logic is further capable of: receiving the travel signal indicative of the host vehicle moving to a lane of travel with no targets and discontinuing transmitting the second braking signal, thereby releasing the braking action. 6. The controller as in claim 1 , wherein the control logic identifies the first target vehicle using at least one of an associated radar, a camera and a LIDAR. 7. The controller as in claim 1 , wherein the signal indicative of a direction of travel of the host vehicle is received from at least one of a steering angle sensor and a yaw rate sensor. 8. The controller as in claim 1 , wherein the output for transmitting a signal to control a braking response communicates with a braking system controller. 9. The controller as in claim 1 , wherein the second braking level is a maximum available braking level. 10. The controller as in claim 9 , wherein the first braking level is between about forty percent and sixty percent of the second braking level. 11. The controller as in claim 1 , further comprising an input for receiving a request for adaptive cruise control; wherein the control logic maintains a predetermined following distance behind the first target in response to a request for adaptive cruise control until receiving the active braking intervention request.