Puncture planning apparatus and puncture system

What is claimed is: 1. A puncture system comprising: a simulation unit that performs simulation of movement of an organ and a puncture needle when the puncture needle is inserted into the organ and advanced toward a target segment inside the organ, by simulation using an organ model; a planning unit that plans a movement of the puncture needle when an actual organ is punctured, and outputs a planning result; and a control unit that controls the movement of the puncture needle on a basis of the planning result, wherein the simulation unit executes a plurality of times of the simulation in which conditions of an advancement speed of the puncture needle are mutually different and generates a plurality of simulation results, and wherein the planning unit plans the movement of the puncture needle on a basis of a selected one of the plurality of simulation results, at least one puncture error and puncture time period of which meets a predetermined criteria, wherein the simulation unit performs speed adjustment in performing the simulation, so as to reduce the advancement speed of the puncture needle in accordance with a puncture reaction force, which is a force that the puncture needle receives from the organ, wherein the simulation unit adjusts the advancement speed of the puncture needle by multiplying a predetermined initial value of the advancement speed by a speed gain which is determined in accordance with the puncture reaction force, wherein the speed gain is determined by the following expressions, and the simulation unit executes the plurality of times of simulation while changing, as the condition, a value of a parameter a k in the following expressions: K f = 1 ( F n ≤ F nimin ) K f = a k ⁢ F n - a k ⁢ F nmin + 1 ( F nmin < F n < a k ⁢ F nmin - 1 + K fmin a k ) K f = K fmin ( F n ≥ a k ⁢ F nmin - 1 + K fmin a k ) where K f is a speed gain, F n is a puncture reaction force, F nmin is a predetermined threshold, a k is a parameter to determine the reduction rate of the speed gain, and K fmin is a predetermined minimum value of the speed gain. 2. The puncture system according to claim 1 , wherein the simulation unit executes the plurality of times of simulation while changing, as the condition, a parameter which determines a reduction rate of the advancement speed in the speed adjustment. 3. The puncture planning apparatus according to claim 1 , wherein the planning unit selects a simulation result in which an error of the angle of the puncture needle with respect to the target segment is minimal at a point when the puncture needle punctures the organ. 4. The puncture planning apparatus according to claim 1 , wherein the planning unit selects a simulation result in which time required for puncture is shortest out of the simulation results in which an error of the angle of the puncture needle with respect to the target segment is within a predetermined range at a point when the puncture needle punctures the organ. 5. The puncture planning apparatus according to claim 1 , wherein the planning unit selects a simulation result in which both an error of the angle of the puncture needle with respect to the target segment at a point when the puncture needle punctures the organ, and a maximum value of an error of the angle of the puncture needle with respect to the target segment after the puncture needle contacts the organ, are within a predetermined range. 6. The puncture planning apparatus according to claim 1 , wherein the planning unit outputs information that represents the angle of the puncture needle and an advancement displacement or the advancement speed of the puncture needle in each time step, as the planning result.