Robot for transporting storage bins

The invention claimed is: 1. A remotely operated vehicle for picking up storage bins from an underlying storage system, comprising: a vehicle lifting device for lifting the storage bin from the underlying storage system, a first vehicle rolling means comprising a first rolling set and a second rolling set arranged at opposite facing side walls of a vehicle body, allowing movement of the vehicle along a first direction on the underlying storage system during use, and a second vehicle rolling means comprising a first rolling set and a second rolling set arranged at opposite facing side walls of the vehicle body, allowing movement of the vehicle along a second direction on the underlying storage system during use, the second direction being perpendicular to the first direction, wherein each of said rolling sets comprises at least two wheels, wherein the vehicle further comprises: a first driving means situated at or at least partly within the first vehicle rolling means for providing rolling set specific driving force to the vehicle in the first direction, a second driving means situated at or at least partly within the second vehicle rolling means for providing rolling set specific driving force to the vehicle in the second direction and motor control electronics arranged within the volume between two of the wheels of each rolling set, which motor control electronics are configured to supply electric power to the first and second vehicle rolling means. 2. The vehicle in accordance with claim 1 , wherein at least one of the first and second driving means comprises rotor magnets arranged at the inner surface of the outer periphery of the vehicle rolling means. 3. The vehicle in accordance with claim 1 , wherein at least one of the driving means comprises an electric motor using permanent magnets. 4. The vehicle in accordance with claim 3 , wherein the at least one of the first driving means and the second driving means comprises a stator arranged at least partly within the same rotational plane as the vehicle rolling means and at least partly within the vehicle body. 5. The vehicle in accordance with claim 1 , wherein at least one of the first and second driving means comprises an electric motor comprising a rotor and a stator and that the vehicle further comprises means for measuring back electromotive force, the means being in signal communication with one of the stator and the rotor, allowing rolling set specific velocity registration of the vehicle during operation. 6. The vehicle in accordance with claim 1 , wherein the vehicle comprises a rotary encoder connected to at least one of the first and second vehicle rolling means, allowing angular position feedback during operation. 7. The vehicle in accordance with claim 6 , wherein the rotary encoder is of type optical encoders. 8. The vehicle in accordance with claim 6 , wherein the rotary encoder is a rotary encoder disk arranged within the outer periphery of the at least one of the first and second vehicle rolling means. 9. The vehicle in accordance with claim 1 , wherein: at least one of the first and second driving means comprises an electric motor comprising a rotor and a stator and that the vehicle further comprises an accelerometer that measures acceleration of at least one of the first and second vehicle rolling means, the accelerometer being in signal communication with the stator. 10. The vehicle in accordance with claim 9 , wherein the accelerometer comprises at least one of a piezoelectric sensor and an inductive sensor. 11. The vehicle in accordance with claim 1 , wherein the first vehicle rolling means comprises four first-direction-wheels having their direction of revolution in the first direction and the second vehicle rolling means comprises four second-direction-wheels having their direction of revolution in the second direction, wherein each of the first-direction-wheels and each of the second-direction-wheels is drivingly connected to the first driving means and the second driving means, respectively. 12. The vehicle in accordance with claim 11 , wherein, for each wheel, at least part of the driving means is arranged within the wheels outer periphery. 13. The vehicle in accordance with claim 11 , wherein each of the wheels has a plurality of rotor magnets arranged within the inner radial surface of the wheels outer periphery and a plurality of stator field windings arranged at least partly within the vehicle body. 14. The vehicle in accordance with claim 13 , wherein the stator field windings are following the outer periphery of the wheels. 15. A storage system for storage of bins, the storage system comprising: a bin storing structure comprising a plurality of storage columns, wherein each storage columns is arranged to accommodate a vertical stack of storage bins, and a remotely operated vehicle in accordance with claim 1 arranged on top of the bin storing structure.