Obstacle detection for a robotic working tool

The invention claimed is: 1. A robotic lawnmower system comprising a robotic lawnmower and a beacon marker, said robotic lawnmower comprising a beacon sensor configured to sense a signal being transmitted by the beacon marker, said beacon marker marking an area around an obstacle in a work area in which said robotic lawnmower is arranged to operate, wherein said robotic lawnmower is configured to: determine a proximity to the beacon marker and to adapt operation of the robotic work tool based on the proximity to the beacon marker. 2. The robotic lawnmower system according to claim 1 , wherein the robotic lawnmower is further configured to determine the proximity to the beacon marker as a state of being close or not close by comparing a signal strength of the beacon signal to a threshold value, and if the signal strength is above the threshold value, the beacon marker is close, and, if not, the beacon marker is not close. 3. The robotic lawnmower system according to claim 1 , wherein the robotic lawnmower is configured to determine the proximity to the beacon marker by comparing the signal strength of the beacon signal to a model of signal declination. 4. The robotic lawnmower system according to claim 1 , wherein the robotic lawnmower is configured to determine the proximity to the beacon marker by sending a signal to the beacon marker and measuring a two-way response. 5. The robotic lawnmower system according to claim 4 , wherein the robotic lawnmower is configured to determine the proximity to the beacon marker as a state of being close or not close by comparing the two-way response to a threshold value, and if the two-way response time is above the threshold value, the beacon marker is close, and, if not, the beacon marker is not close. 6. The robotic lawnmower system according to claim 4 , wherein the robotic lawnmower is configured to determine a distance to the beacon marker based on the two-way response time. 7. The robotic lawnmower system according to claim 1 , wherein the robotic lawnmower is configured to adapt its operation when determining a proximity to an obstacle by slowing down or making a turn less than 180 degrees. 8. The robotic lawnmower system according to claim 1 , wherein the beacon marker and the beacon sensor are synchronized. 9. The robotic lawnmower system according to claim 1 , wherein the beacon marker is a radio frequency beacon. 10. The robotic lawnmower system according to claim 9 , wherein said beacon marker comprises fastening means for securing said beacon marker to an obstacle or a pole. 11. The robotic lawnmower system according to claim 1 , wherein the beacon marker is an ultrasonic beacon. 12. The robotic lawnmower system according to claim 1 , further comprising a position determining device comprising a Global Navigation Satellite System device. 13. A method for use in a robotic lawnmower system comprising a robotic lawnmower and a beacon marker, said robotic lawnmower comprising a beacon sensor configured to sense a signal being transmitted by the beacon marker, said beacon marker marking an area around an obstacle in a work area in which said robotic lawnmower is arranged to operate, said method comprising determining a proximity to a beacon marker and adapting an operation of the robotic lawnmower based on the proximity to the beacon marker.