Remote-controlled crane

The invention claimed is: 1. A crane system, comprising: a crane; a trolley movably mounted on a jib, the trolley including a load hook; drive units configured to raise or lower the crane via movable crane elements and to move the crane within a crane working area; a control unit coupled to the crane; a mobile transponder; and one or more transmitting/receiving units communicatively coupled with the control unit and configured to receive signals transmitted by the mobile transponder; wherein the control unit includes computer-readable instructions stored on non-transitory memory for: automatically determining a position of the mobile transponder relative to one or more of the load hook and one of the movable crane elements based on signals from the mobile transponder received at the one or more transmitting/receiving units; and automatically controlling one or more of the drive units based on the position of the mobile transponder, such that the load hook is automatically moved to the position of the mobile transponder, wherein the instructions for automatically determining the position of the mobile transponder relative to one or more of the load hook and one of the movable crane elements comprise instructions to evaluate signal characteristics of the signals from the mobile transponder received at the one or more transmitting/receiving units and determine the position of the mobile transponder from the signal characteristics, and wherein the signal characteristics comprise one or more of a signal propagation delay and a signal strength. 2. The crane system of claim 1 , wherein the mobile transponder is incorporated into a portable control panel for operating the crane. 3. The crane system of claim 2 , wherein the portable control panel is a radio remote control. 4. The crane system of claim 2 , wherein the portable control panel comprises a switch, and wherein the automatic control of the one or more drive units based on the position of the mobile transponder is triggered via activation of the switch. 5. The crane system of claim 4 , wherein a touch display is included in the portable control panel. 6. The crane system of claim 1 , wherein the control unit further includes computer-readable instructions stored on non-transitory memory for: virtually presenting the crane working area on a display; receiving, at the display, input from a crane operator of a target point within the crane working area; and automatically controlling the one or more drive units to move the load hook to the target point. 7. The crane system of claim 6 , wherein the display is a touch display, and wherein the input from the crane operator received at the display is a touch input. 8. The crane system of claim 1 , wherein the jib is coupled to a crane tower, and wherein the one or more transmitting/receiving units comprise transmitting/receiving units attached to the jib, spaced apart from one another. 9. The crane system of claim 1 , wherein the crane is one of a tower crane, a telescopic boom crane, and a harbour crane. 10. The crane system of claim 1 , wherein the control unit comprises a stationary control panel in an operator cab of the crane or at a control stand of the crane. 11. The crane system of claim 1 , wherein the mobile transponder is configured to be directly attachable to a load with detachable fasteners. 12. The crane system of claim 1 , wherein the mobile transponder is configured as a wearable to be worn by a crane operator. 13. A method for a crane system, comprising: transmitting signals from a mobile transponder incorporated in a portable control panel for operating a crane to one or more transmitting/receiving units communicatively coupled with a control unit of the crane, the crane comprising drive units configured to raise or lower the crane via movable crane elements and to move the crane within a crane working area; with the control unit, automatically determining a position of the mobile transponder relative to one or more of a load hook and one of the movable crane elements based on the signals from the mobile transponder received at the one or more transmitting/receiving units, and automatically controlling the drive units based on the position of the mobile transponder, such that the load hook is automatically moved to the position of the mobile transponder, wherein automatically determining the position of the mobile transponder relative to one or more of the load hook and one of the movable crane elements based on the signals from the mobile transponder received at the one or more transmitting/receiving units comprises, with the control unit, determining signal strengths of the signals from the mobile transponder received at the one or more the transmitting/receiving units, and determining the position of the mobile transponder relative to the crane based on the signal strengths. 14. A method for a crane system, comprising: transmitting signals from a mobile transponder incorporated in a portable control panel for operating a crane to one or more transmitting/receiving units communicatively coupled with a control unit of the crane, the crane comprising drive units configured to raise or lower the crane via movable crane elements and to move the crane within a crane working area; with the control unit, automatically determining a position of the mobile transponder relative to one or more of a load hook and one of the movable crane elements based on the signals from the mobile transponder received at the one or more transmitting/receiving units, and automatically controlling the drive units based on the position of the mobile transponder, such that the load hook is automatically moved to the position of the mobile transponder, wherein automatically determining the position of the mobile transponder relative to one or more of the load hook and one of the movable crane elements based on the signals from the mobile transponder received at the one or more transmitting/receiving units comprises, with the control unit, determining propagation delays of the signals from the mobile transponder received at the one or more transmitting/receiving units, and determining the position of the mobile transponder relative to the crane based on the propagation delays. 15. The method of claim 14 , wherein the one or more transmitting/receiving units comprise three or more transmitting/receiving units spaced apart from each other and arranged on different portions of a jib of the crane, the method further comprising, with the control unit, automatically determining a distance of the mobile transponder from each transmitting/receiving unit based on a propagation delay and a strength of the signal from the mobile transponder received at the transmitting/receiving unit, and determining the position of the mobile transponder relative to the load hook based on the determined distances and the positions of the transmitting/receiving units at the crane. 16. The method of claim 14 , wherein the portable control panel is a radio remote control. 17. The method of claim 14 , wherein the one or more transmitting/receiving units comprise one or more transmitting/receiving units attached to a jib of the crane, spaced apart from one another, and wherein a trolley including the load hook is movably mounted on the jib. 18. The method of claim 14 , wherein the one or more transmitting/receiving units are mounted within the working area of the crane. 19. The method of claim 14 , wherein automatically controlling the drive units based on the position of