System and method for providing target threat assessment in a collision avoidance system on a vehicle

What is claimed is: 1. A method for providing target threat assessment in a collision avoidance system on a host vehicle, said method comprising: determining a predicted travel path of the host vehicle using motion dynamics of the host vehicle; transmitting a scan signal from at least one sensor on the host vehicle; receiving multiple scan return points at the host vehicle from one or more detected objects that reflect the scan signal; generating a probability function distribution signal defining a contour of each detected object using the scan signal; calculating a position and velocity of each detected object using the scan return points; selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle using a probabilistic technique and the distribution signal, position and velocity of each detected object; and determining a threat assessment of the selected objects by analyzing a time to collision (TTC) for each of the selected objects. 2. The method according to claim 1 wherein generating a distribution signal of each object includes updating the distribution signal at subsequent sample times using a Gaussian mixture model. 3. The method according to claim 1 wherein selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle includes reducing the complexity of the distribution signal by using a reduced number of the scan points. 4. The method according to claim 3 wherein selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle using the probabilistic technique includes representing each of the reduced number of scan points as a Gaussian distribution. 5. The method according to claim 1 wherein selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle using the probabilistic technique includes using a Monte Carlo technique that separates the distribution signal into a plurality of particles. 6. The method according to claim 1 wherein determining a threat assessment includes identifying a number of the scan points that are less than a predetermined threshold. 7. The method according to claim 1 further comprising performing sensor visibility analysis to determine if one or more of the sensors is being blocked in a particular direction, wherein determining a threat assessment includes determining a collision threat if one of the sensors is blocked. 8. The method according to claim 7 wherein performing sensor visibility analysis includes performing the sensor visibility analysis if it is determined that the host vehicle is at or approaching an intersection. 9. The method according to claim 1 wherein determining a threat assessment includes providing a warning of a potential collision and providing automatic braking for an imminent collision. 10. The method according to claim 1 wherein the at least one sensor is a radar sensor. 11. A method for providing target threat assessment in a collision avoidance system on a host vehicle, said method comprising: determining a predicted travel path of the host vehicle using motion dynamics of the host vehicle; transmitting a radar signal from at least one radar sensor on the host vehicle; receiving multiple scan return points at the host vehicle from one or more detected objects that reflect the radar signal; generating a probability function distribution signal defining a contour of each detected object using the radar signal, wherein generating a distribution signal of each detected object includes updating the distribution signal at subsequent sample times using a Gaussian mixture model; calculating a position, a translation velocity and an angular velocity of each detected object using the scan return points; selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle using the distribution signal, position, translation velocity and angular velocity of each object, wherein selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle includes using a probabilistic technique; and determining a threat assessment of the selected objects by analyzing a time to collision (TTC) for each of the selected objects. 12. The method according to claim 11 wherein selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle includes reducing the complexity of the distribution signal to a reduced number of the scan points. 13. The method according to claim 12 wherein selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle using the probabilistic technique includes representing each of the reduced number of scan points as a Gaussian distribution. 14. The method according to claim 11 wherein selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle using the probabilistic technique includes using a Monte Carlo technique that separates the distribution signal into a plurality of particles. 15. The method according to claim 11 further comprising performing sensor visibility analysis to determine if one or more of the sensors is being blocked in a particular direction, wherein determining a threat assessment includes determining a collision threat if one of the sensors is blocked. 16. The method according to claim 15 wherein performing sensor visibility analysis includes performing the sensor visibility analysis if it is determined that the host vehicle is at or approaching an intersection. 17. An analysis system for providing target threat assessment in a collision avoidance system on a host vehicle, said analysis system comprising: vehicle dynamics sensors on the host vehicle providing vehicle motion dynamics data; at least one sensor on the host vehicle transmitting a scan signal and receiving multiple scan return points from one or more detected objects that reflect the scan signal; and a processor configured with an algorithm including steps of: determining a predicted travel path of the host vehicle using the vehicle motion dynamics data; generating a probability function distribution signal defining a contour of each detected object using the scan signal; calculating a position and velocity of each detected object using the scan return points; selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle using a probabilistic technique and the distribution signal, position and velocity of each detected object; and determining a threat assessment of the selected objects by analyzing a time to collision (TTC) for each of the selected objects. 18. The analysis system according to claim 17 wherein selecting the detected objects which have a probability exceeding a threshold of being in or entering the predicted travel path of the host vehicle reduces the complexity of the distribution signal by using a reduced number of the scan points. 19. The analysis system according to claim 18 wherein selecting the detected obj