Robotic vacuum cleaning

The invention claimed is: 1. A robotic vacuum cleaner comprising: a suction nozzle with a cleaning brush arranged for contacting a floor; a drive and steering mechanism for providing mobility and steerability to at least the suction nozzle; at least one detector for determining boundaries of a vacuum cleanable floor surface; and a control system communicating with the at least one detector and with the drive mechanism for conducting the suction nozzle over the vacuum cleanable floor surface, wherein the control system is arranged for controlling at least frequency or intensity of contact between the cleaning brush and each portion of the floor surface to be brushed with at least some portions of floor surface closely adjacent to at least one of the boundaries of the vacuum cleanable floor surface, at least the frequency or the intensity of contact between the cleaning brush and each of the floor surface portions decreases as approaching the at least one boundary of the vacuum cleanable floor surface. 2. The vacuum cleaner according to claim 1 , wherein the control system is arranged for automatically reducing the intensity of contact between the cleaning brush and the floor surface in response to a distance to the at least one boundary of the vacuum cleanable floor surface below at least one predetermined value. 3. The vacuum cleaner according to claim 2 , wherein the cleaning brush is drivable for motion within the suction nozzle and wherein the control system is arranged for controlling the velocity of rotation of the cleaning brush for reducing the velocity of rotation in response to the distance to the at least one boundary of the vacuum cleanable floor surface being below the at least one predetermined value. 4. The vacuum cleaner according to claim 3 , wherein the control system is arranged for controlling a motor for ceasing driving of the cleaning brush in response to the distance to the at least one boundary of the vacuum cleanable floor surface being below the at least one predetermined value. 5. The vacuum cleaner according to claim 2 , wherein the cleaning brush is suspended for contacting the floor surface with a controllable downward contact force and wherein the control system is arranged for causing the downward force to be reduced in response to the distance to the at least one boundary of the vacuum cleanable floor surface being below the at least one predetermined value. 6. The vacuum cleaner according to claim 1 , wherein the suction nozzle has a footprint with a footprint contour and wherein the cleaning brush is shaped and suspended for brushing in a brushing area having a brushing area contour, the brushing area contour being located within and spaced from the footprint contour. 7. The vacuum cleaner according to claim 1 , wherein the control system is arranged for gradually reducing the intensity of contact between the cleaning brush and the floor surface a plurality of times as approaching the at least one boundary of the vacuum cleanable floor surface. 8. The vacuum cleaner according to claim 1 , further comprising a floor type sensor connected with the controller for determining the type of surface that is being cleaned and wherein the control system is arranged for the controlling of at least the frequency or the intensity of contact between the cleaning brush and the floor surface, such that at least, at least for portions of floor surface closely adjacent to at least one of the boundaries of the vacuum cleanable floor surface, the frequency or the intensity of contact between the cleaning brush and the floor surface decreases with the distance to the at least one boundary of the vacuum cleanable floor surface, only in response to a signal from the floor type sensor indicating a predetermined type of floor surface or one of a predetermined group of floor types. 9. The vacuum cleaner according to claim 8 , wherein the at least one detector for determining boundaries of a vacuum cleanable floor surface also is the floor type sensor. 10. The vacuum cleaner according to claim 1 , wherein the at least one detector for determining boundaries of a vacuum cleanable floor surface is a vision system. 11. A vacuum cleaner according to claim 1 , wherein the control system includes a memory for storing a map of the vacuum cleanable floor surface and trajectories followed by the suction nozzle, the control system being arranged for conducting the suction nozzle such that: during each cleaning cycle, the suction nozzle is moved along a plurality of successive suction nozzle trajectories covering the vacuum cleanable floor surface; a first minimum distance is maintained between the at least one boundary and the suction nozzle during a first cleaning cycle, and a second minimum distance different from said first minimum distance is maintained between the at least one boundary and the suction nozzle during a second cleaning cycle. 12. A method for robotic vacuum cleaning a floor surface, the method comprising acts of: passing a suction nozzle with a cleaning brush contacting the floor surface over the floor surface to be cleaned, under control of a control system communicating with at least one detector for determining at least one boundary of the floor surface to be cleaned, wherein the control system controls at least frequency or intensity of contact between the cleaning brush and each portion of the floor surface being brushed, such that, at least for some portions of floor surface closely adjacent to at least one of the boundaries of the vacuum cleanable floor surface, at least the frequency or the intensity of contact between the cleaning brush and each of the floor surface portions decreases as approaching the at least one boundary of the vacuum cleanable floor surface.