Systems and methods for fastening a shoe

The invention claimed is: 1. A method for fastening a shoe, wherein the shoe comprises: an upper part and a sole which is connected with the upper part; a rotary closure for fastening the shoe on a wearer's foot using at least one tensioning element, wherein the rotary closure comprises a rotatably arranged tensioning roller for winding the tensioning element, wherein the tensioning roller is driven by an electric motor; and a switching element which is arranged at an instep and which is connected to a controller, wherein the switching element and the controller are configured to actuate the electric motor, wherein an operation of fastening the shoe takes place by actuating of the switching element, wherein the switching element comprises a number of touch-sensitive sensors which are arranged one beside the other and form a surface which is accessible to the wearer, and wherein the method comprises the steps of: receiving a first swipe over the surface of the touch-sensitive sensors in a first direction, detecting the first swipe signal of the touch-sensitive sensors by the controller, and causing the fastening of the shoe at the foot of the wearer at a first level of fastening force by the controller and the electric motor, wherein the tensioning roller includes a rotation angle sensor, and wherein the rotation angle sensor is configured to detect a zero position of the tensioning roller once the shoe reaches a fully de-laced end position. 2. The method of claim 1 further comprising the steps of: receiving a second swipe over the surface of the touch-sensitive sensors in the first direction, and detecting the second swipe signal of the touch-sensitive sensors by the controller and causing the fastening of the shoe at the foot of the wearer at a second level of fastening force which is higher than the first level of fastening force by the controller and the electric motor. 3. The method of claim 2 further comprising the steps of: receiving a third swipe over the surface of the touch-sensitive sensors in the first direction, and detecting the third swipe signal of the touch-sensitive sensors by the controller and causing the fastening of the shoe at the foot of the wearer at a third level of fastening force which is higher than the second level of fastening force by the controller and the electric motor. 4. The method of claim 3 further comprising the steps of: receiving a fourth swipe over the surface of the touch-sensitive sensors in a second direction which is opposite to the first direction, and detecting the fourth swipe signal of the touch-sensitive sensors by the controller and causing an opening of the shoe or a reduction of the level of the fastening force by the controller and the electric motor. 5. The method of claim 1 , wherein a number of illumination elements are arranged along the switching element, and wherein the level of the fastening force is displayed by a plurality of activated illumination elements. 6. The method of claim 1 , wherein a number of illumination elements are arranged along the switching element, and wherein an open state of the shoe is indicated by the illumination elements. 7. The method of claim 1 , wherein a pressure sensor on or inside the shoe is configured to detect a degree of lacing tension of the shoe on the wearer. 8. The method of claim 7 , wherein the pressure sensor provides a pressure reading that is compared with a set value to determine if the pressure is too high, and wherein a pressure that is determined to be too high triggers an automatic reduction of lacing tension. 9. A method for fastening a shoe, wherein the shoe comprises: an upper part and a sole which is connected with the upper part; a rotary closure for fastening the shoe on a wearer's foot using at least one tensioning element, wherein the rotary closure comprises a rotatably arranged tensioning roller for winding the tensioning element, wherein the tensioning roller is driven by an electric motor; and a switching element which is arranged at an instep and which is connected to a controller, wherein the switching element and the controller are configured to actuate the electric motor, wherein an operation of fastening the shoe takes place by actuating of the switching element, wherein the switching element comprises a number of touch-sensitive sensors, wherein the method comprises the steps of: receiving a first swipe over a surface of the touch-sensitive sensors in a first direction, and detecting the first swipe signal of the touch-sensitive sensors by the controller and causing the fastening of the shoe at the foot of the wearer at a first level of fastening force by the controller and the electric motor, wherein passing over the touch-sensitive sensors in the first direction, over only a part of the surface, causes an increase in force proportional to a length of a pass compared to a full length of the switching element, wherein a number of illumination elements, including a plurality of LEDs, are arranged along the switching element, wherein a level of the fastening force is displayed by a first number of activated illumination elements, and wherein passing over the touch-sensitive sensors in the first direction, over only a part of the surface, causes a proportional partial activation of the illumination elements to reflect a change in fastening force. 10. The method of claim 9 further comprising the steps of: receiving a second swipe over the surface of the touch-sensitive sensors in a second direction which is opposite to the first direction, and detecting the second swipe signal of the touch-sensitive sensors by the controller and causing an opening of the shoe or a reduction of the level of the fastening force by the controller and the electric motor, wherein passing over the touch-sensitive sensors in the second direction, over only a part of the surface, causes a decrease in force proportional to a length of a pass compared to the full length of the switching element. 11. The method of claim 10 , wherein passing over the touch-sensitive sensors in the second direction, over only a part of the surface, causes a proportional partial deactivation of the illumination elements to reflect a change in fastening force. 12. A method for fastening a shoe, wherein the shoe comprises: an upper part and a sole which is connected with the upper part; a rotary closure for fastening the shoe on a wearer's foot using at least one tensioning element, wherein the rotary closure comprises a rotatably arranged tensioning roller for winding the tensioning element, wherein the tensioning roller is driven by an electric motor; and a switching element which is arranged at an instep and which is connected to a controller, wherein the switching element and the controller are configured to actuate the electric motor, wherein an operation of fastening the shoe takes place by actuating of the switching element by the wearer of the shoe, wherein the switching element comprises a number of touch-sensitive sensors, wherein the method comprises the steps of: receiving a first swipe over a surface of the touch-sensitive sensors in a first direction, and detecting the first swipe signal by the controller and causing the fastening of the shoe at the foot of the wearer at a first level of fastening force by the controller and the electric motor, and wherein the first level fastening force is defined by a first current level, wherein the first current level is between 1.1 and 3.9 A, wherein the tensioning roller includes a rotation angle sensor, and wherein the rotation angle sensor is configured to detect a zero p