Navigation for a robotic working tool

The invention claimed is: 1. A robotic work tool system comprising a robotic work tool, said robotic work tool comprising a position determining device, including a satellite signal receiver, for determining a current position, the robotic work tool being configured to: determine that reliable navigation through said position determining device is no longer possible, at a time point and position and in response thereto generate an obstacle map; determine when an area will be shadowed with regards to satellite reception based on said obstacle map; and schedule operation of the robotic work tool based on the obstacle map. 2. The robotic work tool system according to claim 1 , wherein the robotic work tool is further configured to determine a first robot position at which reception of a satellite signal is lost from a first satellite at a first time point; determine a second robot position at which reception of a satellite signal is lost from the first satellite at a second time point; and generate said obstacle map based on said first and second robot position and said first and second time point. 3. The robotic work tool system according to claim 2 , wherein the obstacle map is a shadow map giving information on areas that are at least partially shadowed, by an obstacle, at specific times. 4. The robotic work tool system according to claim 2 , wherein the robotic work tool is further configured to determine a first satellite position of the first satellite at the first time point; determine a second satellite position of the first satellite at the second time point; determine a position of an obstacle based on the first and second satellite position and first and second robot position; and generate said obstacle map based on the obstacle position. 5. The robotic work tool system according to claim 4 , wherein the obstacle map is a topological map. 6. The robotic work tool system according to claim 2 , wherein the robotic work tool is further configured to determine a first angle to the first satellite at the first time point; determine a second angle to the first satellite at the second time point; determine a position for an obstacle based on said angles; and generate said obstacle map based on the position of the obstacle. 7. The robotic work tool system according to claim 1 , wherein the robotic work tool is solar charged and wherein the robotic work tool is further configured to: determine that the robotic work tool has entered an area that is shadowed from the sun at a particular time point and, based on determining that the robotic work tool has entered the area that is shadowed from the sun at the particular time point, generate a shadow map and schedule operation of the robotic work tool further based on said shadow map. 8. The robotic work tool system according to claim 1 , wherein the robotic work tool is further configured to compare a current position to a position of an object-indicated by the obstacle map; and determine if there is an object close to or on the path of the robotic work tool, and in response thereto take one or more actions to avoid or at least mitigate consequences of a collision. 9. The robotic work tool system according to claim 1 , wherein the position determining device is a Global Navigation Satellite System device. 10. The robotic work tool system according to claim 1 , wherein the robotic work tool is a robotic lawnmower. 11. The robotic work tool system according to claim 1 , wherein the robotic work tool is one of a farming equipment, a vacuum cleaner, a floor cleaner, a street sweeper, a snow removal tool, a golf ball retriever robot, a cleaner robot, a leaves blower robot, a leaves collector robot, snow thrower robot or a mine clearance robot. 12. The robotic work tool system according to claim 1 , wherein the position determining device further comprises a laser positioning device. 13. The robotic work tool system according to claim 1 , wherein the position determining device further comprises a radio frequency positioning device. 14. A method for use in a robotic work tool system, comprising a robotic work tool, said robotic work tool comprising a position determining device, including a satellite signal receiver, for determining a current position, the method comprising: determining that reliable navigation through said position determining device is no longer possible, at a time point and position and in response thereto generating an obstacle map which gives information on the position of at least one obstacle; determining when an area will be shadowed with regards to satellite reception based on said obstacle map; and scheduling operation of the robotic work tool accordingly based on the obstacle map. 15. The method for use in robotic work tool system according to claim 14 further comprising: determining a first robot position at which reception of a satellite signal is lost from a first satellite at a first time point; determining a second robot position at which reception of a satellite signal is lost from the first satellite at a second time point; and generating said obstacle map based on said first and second robot position and said first and second time point. 16. The method for use in robotic work tool system according to claim 15 , wherein the obstacle map is a shadow map giving information on areas that are at least partially shadowed, by an obstacle, at specific times. 17. The method for use in robotic work tool system according to claim 15 further comprising: determining a first satellite position of the first satellite at the first time point; determining a second satellite position of the first satellite at the second time point; determining a position for an obstacle based on the first and second satellite position and first and second robot position; and generating said obstacle map based on the obstacle position. 18. The method for use in robotic work tool system according to claim 17 , wherein the obstacle map is a topological map. 19. The method for use in robotic work tool system according to claim 15 further comprising: determining a first angle to the first satellite at the first time point; determining a second angle to the first satellite at the second time point; determining a position for an obstacle based on said angles; and generating said obstacle map based on the obstacle position. 20. The method for use in robotic work tool system according to claim 1 , wherein the robotic work tool is solar charged and wherein the method further comprises: determining that the robotic work tool has entered an area that is shadowed from the sun at a particular time point and, generating a shadow map and scheduling operation of the robotic work tool further based on said shadow map, in response to determining that the robotic work tool has entered the area that is shadowed from the sun at the particular time point.