Instrument for minimally invasive surgery

The invention claimed is: 1. An instrument comprising: a frame, comprising: a proximal region; a distal region adjoining the proximal region, wherein the distal region is forked into a first prong and a second prong, each prong comprising a length from a point at which the respective prong meets the proximal region to a distal end of the respective prong, the prongs being separated from one another by a void that extends the entire length of the prongs, the prongs not being connected to one another anywhere along the lengths of the prongs; a first working element pivotably attached to the first prong at a first point; a second working element attached to the second prong at a second point, the second working element cooperating with the first working element to thereby exert a force between the first working element and the second working element; a first strain sensor disposed along the frame at or near the distal region and configured to measure a linear sum of a plurality of forces including at least a force exerted between the first and the second working elements and an actuation pulling force; a second strain sensor disposed along the frame further away from the distal region than the first strain sensor, the second strain sensor configured to measure an actuation pulling force along an axis of the frame; and a control unit configured to receive strain measurements from the first and second strain sensors and calculate the force exerted between the first and the second working elements by using the measurements from the second strain sensor as a reference for compensating for the actuation pulling force along the axis of the frame in the linear sum of a plurality of forces measured by the first strain sensor. 2. The instrument according to claim 1 , wherein the void comprises a hole or a slit. 3. The instrument according to claim 1 , wherein the first working element is pivotable about a hinge disposed at the first point. 4. The instrument according to claim 1 , further comprising a strain sensor disposed on one of the working elements, the strain sensor being configured to measure a temperature of a region of the instrument near the distal end. 5. The instrument according to claim 1 , wherein the control unit is further configured to determine a feedback signal. 6. The instrument according to claim 5 , wherein the feedback signal is used to control the first working element. 7. The instrument according to claim 5 , wherein the feedback signal is used to indicate the force exerted between the first working element and the second working element. 8. The instrument according to claim 6 , further comprising a further actuator configured to control the first working element, wherein the feedback signal is provided to the further actuator. 9. The instrument according to claim 1 , wherein at least one of the first strain sensor and the second strain sensor comprises at least one Fibre Bragg Grating (FBG) sensor. 10. The instrument according to claim 9 , wherein at least one of the first strain sensor and the second strain sensor is a plurality of FBG sensors integrated on a mutual optical fiber. 11. The instrument according to claim 1 , wherein a region of the frame comprising the distal end is removable from a remainder of the frame. 12. The instrument according to claim 1 , further comprising an actuator disposed near the proximal end, wherein the actuator is configured to control movement of the first working element. 13. The instrument according to claim 1 , wherein the second working element is pivotably attached to the frame at the second point. 14. The instrument according to claim 13 , wherein the second working element is pivotable about a hinge disposed at the second point. 15. The instrument according to claim 1 , wherein the first point lies across the void from the second point. 16. The instrument according to claim 1 , further comprising a sensor to derive a measure (γ) for an opening angle between the first and second working elements. 17. The instrument according to claim 16 , wherein the control unit is further configured to receive a measure for the opening angle and calculate a position (L 0 ) where the force (F 0 ) is exerted between the first and the second working elements based on the measure for the opening angle and the measurements from the first and second strain sensors. 18. The instrument according to claim 17 , wherein the opening angle is derived by measuring displacement of a pulling rod actuating the first and/or second working elements. 19. The instrument according to claim 17 , wherein the control unit is configured to calculate the force exerted between the first and the second working elements using calibration data of a relative sensitivity of the first and second sensors to the force.