Navigating a robotic mower along a guide wire

What is claimed is: 1 . A method for navigating a robotic mower by means of a guide wire, said robotic mower comprising at least one sensor, the method comprising: detecting, by means of the at least one sensor, at least one signal from the guide wire, controlling the robotic mower to align with the guide wire, controlling the robotic mower to follow the guide wire in a first direction until detecting a straight section of the guide wire, controlling the robotic mower to follow the guide wire in a second direction opposite the first direction in response to detecting the straight section of the guide wire, driving a reversing distance based on a random distance value when following the guide wire in the second direction, controlling the robotic mower to turn by an angle with respect to a section of the guide wire, controlling the robotic mower to increase the distance between the robotic mower and the guide wire by driving a displacement distance based on the random distance value, measuring, by means of the at least one sensor, a signal level of the at least one signal from the guide wire, and controlling the robotic mower to follow the guide wire based on the measured signal level; wherein the random distance value is multiplied by a first factor for calculating the reversing distance, and the random distance value is multiplied by a second factor for calculating the displacement distance. 2 . The method according to claim 1 , wherein controlling the robotic mower to drive the displacement distance based on the random distance value comprises counting a number of revolutions of a rotatable component of the robotic mower and/or measuring a time. 3 . The method according to claim 2 , wherein controlling the robotic mower to align with the guide wire comprises crossing, by the robotic mower, the guide wire by a predetermined crossing distance, determining a direction based on a polarity of the at least one signal of the guide wire, measured by means of the at least one sensor, and turning the robotic mower towards the determined direction. 4 . The method according to claim 3 , wherein the robotic mower comprises at least two sensors, and turning the robotic mower towards the determined direction comprises rotating the robotic mower with respect to the guide wire until the at least two sensors detect the at least one signal of the guide wire with opposite polarity. 5 . The method according to claim 1 , wherein controlling the robotic mower to turn by the angle with respect to the section of the guide wire comprises turning the robotic mower with respect to the section of the guide wire by 30 to 60 degrees, in particular by 45 degrees. 6 . The method according to claim 5 , further adapted for guiding the robotic mower to a predetermined position, wherein the at least one signal from the guide wire is a first guiding signal and the guide wire is a first guiding signal source, the method further comprising: controlling the robotic mower to follow the first guiding signal at a fixed distance to the first guiding signal source, detecting, by means of the at least one sensor, a second signal from a second signal source within a predetermined distance from the predetermined position, controlling the robotic mower to follow the first guiding signal at a pre-configured distance from the first guiding signal source, detecting, by means of the at least one sensor, a third signal from a third signal source, and controlling the robotic mower to follow the third signal to dock the robotic mower at the predetermined position. 7 . A method for guiding a robotic mower to a predetermined position, said robotic mower comprising at least one sensor, the method comprising: detecting, by means of the at least one sensor, a first guiding signal from a first guiding signal source, the first guiding signal source being a guide wire arranged within an area delimited by a boundary wire, controlling the robotic mower to align with the guide wire, controlling the robotic mower to follow the guide wire in a first direction until detecting a straight section of the guide wire, in response to detecting a straight section of the guide wire, controlling the robotic mower to follow the guide wire in a second direction opposite the first direction to drive a reversing distance based on a random distance value; controlling the robotic mower to turn by an angle with respect to a section of the guide wire; controlling the robotic mower to increase the distance between the robotic mower and the guide wire by driving a displacement distance based on the random distance value, measuring, by means of the at least one sensor, a signal level of the at least one signal from the guide wire, controlling the robotic mower to follow the guide wire based on the measured signal level to controlling the robotic mower to follow the first guiding signal at a fixed distance to the first guiding signal source, detecting, by means of the at least one sensor, a second signal from a second signal source within a predetermined distance from the predetermined position, controlling the robotic mower to follow the first guiding signal at a pre-configured distance from the first guiding signal source, detecting, by means of the at least one sensor, a third signal from a third signal source, and controlling the robotic mower to follow the third signal to dock the robotic mower at the predetermined position; wherein the random distance value is multiplied by a first factor for calculating the reversing distance, and the random distance value is multiplied by a second factor for calculating the displacement distance. 8 . The method according to claim 7 , wherein the third signal source is a portion of, or electrically connected with, the boundary wire delimiting an area. 9 . The method according to claim 7 , wherein a charging station is provided at the predetermined position, and a boundary wire loop is arranged at a charging station plate of the charging station. 10 . The method according to claim 9 , wherein the robotic mower is guided to the predetermined position more than once, wherein the fixed distance is varied each time, while the pre-configured distance each time is the same. 11 . A robotic mower comprising at least one sensor, and adapted to: detect, by means of the at least one sensor, at least one signal from a guide wire, align with the guide wire; follow the guide wire in a first direction until detecting a straight section of the guide wire, and follow the guide wire in a second direction opposite the first direction in response to detecting the straight section of the guide wire; drive a reversing distance based on a random distance value when follow the guide wire in a second direction; turn by an angle with respect to a section of the guide wire, increase the distance to the guide wire by driving a displacement distance based on a random distance value, measure, by means of the at least one sensor, a signal level of the at least one signal from the guide wire, follow the guide wire based on the measured signal level; and wherein the random distance value is multiplied by a first factor for calculating the reversing distance, and the random distance value is multiplied by a second factor for calculating the displacement distance. 12 . The robotic mower according to claim 11 , further adapted to count a number of revolutions of a rotatable component of the robotic mower and/or to measure a time for driving the displacement distance based on the random distance value. 13 . The robotic mower according to claim 12 , further adapted to cross th