Vehicle detection system and method for detecting a target vehicle in a detection area located behind a subject vehicle

1 . A vehicle detection system ( 10 ) for detecting a target vehicle ( 60 ) in a detection area (DA) located behind a subject vehicle ( 50 ), the vehicle detection system ( 10 ) comprising judging means ( 20 ) configured to judge whether a target vehicle ( 60 ) which has been detected to approach the subject vehicle ( 50 ) occupying a driving lane (DL) from behind in a first adjacent lane (ALF) which is on one side of the driving lane (DL) and which target vehicle ( 60 ) has been further detected to change from the first adjacent lane (ALF) by diagonally passing the driving lane (DL) on to a second adjacent lane (ALS) on the other side of the driving lane (DL), is an alert object, to output a result of judgement to warning means ( 30 ) which warns a driver of the subject vehicle ( 50 ) that a target vehicle ( 60 ) is present behind the subject vehicle ( 50 ) based on the judging means ( 20 ) judging the target vehicle ( 60 ) to be an alert object, and to determine, on the basis of a change of a lateral overlap ( 65 ) of the target vehicle ( 60 ) in the detection area (DA), an overlap change rate which represents the change in size of the lateral overlap ( 65 ) over a specified time, wherein the judging means ( 20 ) is configured to judge the target vehicle ( 60 ) to be an alert object or to be not an alert object on the basis of the overlap change rate. 2 . The vehicle object detection system ( 10 ) according to claim 1 , wherein the detection area (DA) of the subject vehicle ( 50 ) corresponds to a region of the driving lane (DL) of and behind the subject vehicle ( 50 ), and in particular at least a region of the first adjacent lane (ALF) and/or at least a region of the second adjacent lane (ALS). 3 . The vehicle detection system ( 10 ) according to claim 1 , wherein the lateral overlap ( 65 ) of the target vehicle ( 60 ) in the detection area (DA) is determined starting from a longitudinal reference line ( 70 ) which the target vehicle ( 60 ) crosses during its lane change from the first adjacent lane (ALF) to the second adjacent lane (ALS) and is measured in transverse direction. 4 . The vehicle detection system ( 10 ) according to claim 3 , wherein said longitudinal reference line ( 70 ) is a transition line ( 80 ) at the side of the detection area (DA). 5 . The vehicle detection system ( 10 ) according to claim 1 , wherein the judging means ( 20 ) is configured to judge the target vehicle ( 60 ) to be not an alert object if the lateral overlap ( 65 ) of the target vehicle ( 60 ) continuously increases while diagonally passing the driving lane (DL). 6 . The vehicle detection system ( 10 ) according to claim 1 , wherein the judging means ( 20 ) is configured to output a result of judgement to the warning means ( 30 ) which result of judgement indicates to the warning means ( 30 ) to suppress a warning even if a target vehicle ( 60 ) has been detected, based on the judging means ( 20 ) judging the target vehicle ( 60 ) to be not an alert object. 7 . The vehicle detection system ( 10 ) according to claim 1 , wherein the overlap change rate is defined as the difference between an actual lateral overlap and a previous lateral overlap divided by a cycle time of a determination cycle, in particular of a cycle time of 0.05 s, and an overlap change rate warning threshold is set to be in the range of 1.0 m/s to 1.5 m/s and preferably 1.3 m/s and the judging means ( 20 ) is further configured to judge the target vehicle ( 60 ) to be not an alert object if the overlap change rate exceeds this overlap change rate warning threshold. 8 . The vehicle detection system ( 10 ) according to claim 1 , wherein the judging means ( 20 ) is further configured to determine a lateral TTE (Time-to-Exit) of the target vehicle ( 60 ) for moving out of the driving lane (DA), preferably by calculating the ratio of lateral overlap of the target vehicle ( 60 ) to lateral velocity of the target vehicle ( 60 ), and is configured for the judgement carried out in repeated determination cycles whether TTE is lower than 4.0 s or TTE is 4.0 s or greater than 4.0 s and if TTE is lower than 4.0 s to set a delay timer on a minimum value between TTE and 1.5 s and to judge the target vehicle ( 60 ) to be not an alert object until delay timer is expired, if TTE is 4.0 s or greater than 4.0 s to judge the target vehicle ( 60 ) to be an alert object. 9 . A driver assistance system ( 1 ) for a subject vehicle ( 50 ), comprising: detecting means ( 40 ) for detecting a target vehicle ( 60 ) in a detection area (DA) located behind the subject vehicle ( 50 ), a vehicle detection system ( 10 ) according to claim 1 , and warning means ( 30 ) for warning a driver of the subject vehicle ( 50 ) that a target vehicle ( 60 ) is present in the detection area (DA) or in the driving lane (DL) only if the judging means ( 20 ) of the vehicle detection system ( 10 ) judged the target vehicle ( 60 ) to be an alert object. 10 . The driver assistance system ( 1 ) according to claim 9 , wherein the detecting means ( 40 ) comprises radar sensors for detecting a target vehicle ( 60 ) in the detection area (DA), in particular radar sensors for Rear Approaching Target Notification (RTAN) and for Long-range Rear Approaching Target Notification (L-RTAN) and wherein the judgement of the judging means ( 20 ) is preferably based on the L-RTAN radar detection. 11 . A vehicle, preferably autonomous vehicle, comprising a driver assistance system ( 1 ) according to claim 9 . 12 . A computer-implemented method for detecting a target vehicle ( 60 ) in a detection area (DA) located behind a subject vehicle ( 50 ), particularly for controlling a vehicle detection system ( 10 ) according to claim 1 , wherein the method comprises the following steps: judging whether a target vehicle ( 60 ) which has been detected to approach the subject vehicle ( 50 ) occupying a driving lane (DL) from behind in a first adjacent lane (ALF) which is on one side of the driving lane (DL) and which target vehicle ( 60 ) has been further detected to change from the first adjacent lane (ALF) by diagonally passing the driving lane (DL) on to a second adjacent lane (ALS) on the other side of the driving lane (DL), is an alert object, outputting a result of judgement to warning means ( 30 ) which warns a driver of the subject vehicle ( 50 ) that a target vehicle ( 60 ) is present behind the subject vehicle ( 50 ) based on the judging means ( 20 ) judging the target vehicle ( 60 ) to be an alert object, and determining, on the basis of a change of a lateral overlap ( 65 ) of the target vehicle ( 60 ) in the detection area (DA), an overlap change rate which represents the change in size of the lateral overlap ( 65 ) over a specified time, and judging the target vehicle ( 60 ) to be an alert object or to be not an alert object on the basis of the overlap change rate. 13 . The method according to claim 12 , wherein the overlap change rate is defined as the difference between an actual lateral overlap and a previous lateral overlap divided by a cycle time of a determination cycle, in particular of a cycle time of 0.05 s. 14 . The method according to claim 13 , wherein an overlap change rate warning threshold is set to be in the range of 1.0 m/s to 1.5 m/s and preferably 1.3 m/s and the judging means ( 20 ) is further configured to judge the target vehicle ( 60 ) to be not an alert object if the overlap change rate exceeds this overlap change rate warning threshold. 15 . A non-transitory computer-readable medium having stored thereon a computer program comprising instructions which, when the pr