Base material processing apparatus and base material processing method

What is claimed is: 1. A base material processing apparatus comprising: a transport mechanism that transports a long band-like base material in a longitudinal direction of the base material along a transport path formed by a plurality of rollers; an image recording part that ejects ink to a surface of the base material at a processing position in the transport path to record an image; an image capturing part that generates image data of the base material by capturing an image of a surface of the base material on which the image recording part has ejected the ink; a transport displacement calculation part that calculates a transport displacement in a transport direction of the base material that is being transported, the transport displacement calculation part including an operation unit; and at least one of: a) a tension detector connected directly or indirectly to at least one of the plurality of rollers and that detects tension on the base material that is being transported by the plurality of rollers; b) an encoder connected directly or indirectly to at least one of the plurality of rollers and that detects an amount of rotational drive of the at least one roller; and c) an edge position detector that continuously or intermittently detects a position of an edge of the base material in a width direction at each of a first detection position and a second detection position that are spaced from each other in the transport direction in the transport path, wherein the operation unit has learned learning model generated through machine learning, the operation unit outputting, a transport displacement of the base material in the transport direction on the basis of input of at least one of either a result of the tension detector detecting the tension on the base material or a result of calculating an amount of change in the tension, either a result of the encoder detecting the amount of rotational drive of the at least one roller or a result of calculating an amount of change in the amount of rotational drive, and a result of the edge position detector detecting the position of the edge of the base material in the width direction, and wherein in the machine learning, the operation unit uses an actual transport displacement, acquired by input from an image analyzer calculating the actual transport displacement of the base material in the transport direction through image analysis on the basis of the image data of the base material or calculated through a visual check by an operator or other person on the basis of the image data, as teacher data, and adjusts a plurality of parameters included in the learning model so as to minimize a difference between the teacher data and the transport displacement outputted by the learning model. 2. The base material processing apparatus according to claim 1 , further comprising: an information acquisition part that acquires information relating to at least one of a type of the base material, a thickness of the base material, and an environmental condition including temperature or humidity around the base material, wherein the operation unit outputs the transport displacement of the base material in the transport direction on the basis of input of the information acquired by the information acquisition part and at least one of either the result of the tension detector detecting the tension on the base material or the result of calculating the amount of change in the tension, either the result of the encoder detecting the amount of rotational drive of the roller or the result of calculating the amount of change in the amount of rotational drive, and the result of the edge position detector detecting the position of the edge of the base material in the width direction. 3. The base material processing apparatus according to claim 1 , further comprising: an information acquisition part that acquires information relating to a type or amount of the ink ejected from the image recording part, wherein the operation unit outputs the transport displacement of the base material in the transport direction on the basis of input of the information acquired by the information acquisition part and at least one of either the result of the tension detector detecting the tension on the base material or the result of calculating the amount of change in the tension, either the result of the encoder detecting the amount of rotational drive of the roller or the result of calculating the amount of change in the amount of rotational drive, and the result of the edge position detector detecting the position of the edge of the base material in the width direction. 4. The base material processing apparatus according to claim 3 , further comprising: an expansion-contraction error calculation part that calculates an expansion-contraction error in the width direction of the base material that is being transported, the expansion-contraction error calculation part including a second operation unit that has completed learning through machine learning and outputs an expansion-contraction error in the width direction of the base material at the processing position on the basis of input of the information acquired by the information acquisition part and at least one of either the result of the tension detector detecting tension on the base material or the result of calculating the amount of change in the tension, either the result of the encoder detecting the amount of rotational drive of the roller or the result of calculating the amount of change in the amount of rotational drive, and the result of the edge position detector detecting the position of the edge of the base material in the width direction. 5. The base material processing apparatus according to claim 1 , further comprising an ejection correction part that calculates a correction value for correcting an ejection timing or position of the ink from the image recording part on the basis of the transport displacement of the base material in the transport direction calculated by the transport displacement calculation part. 6. The base material processing apparatus according to claim 1 , wherein the image recording part includes a plurality of recording heads aligned in the transport direction, and the plurality of recording heads eject ink of different colors. 7. The base material processing apparatus according to claim 1 , wherein the operation unit includes a decision tree, and wherein the plurality of parameters adjusted through the machine learning are the parameters included in the decision tree. 8. A base material processing method for calculating a transport displacement of a long band-like base material in a transport direction while transporting the base material in a longitudinal direction of the base material along a transport path formed by a plurality of rollers, the method comprising: at least one of: a) detecting tension on the base material that is being transported by the plurality of rollers; b) detecting amounts of rotational drive of the plurality of rollers; and c) continuously or intermittently detecting a position of an edge of the base material in a width direction at each of a first detection position and a second detection position that are spaced from each other in the transport direction in the transport path; d) ejecting ink to a surface of the base material while transporting the base material; e) generating image data of the base material by capturing an image of the surface of the base material on which the ink is ejected; and f) calculating a transport displacement of the base material in the transport direction, wherein learning model has been learned and generated through machine learning, before the operation f) to make it capable of outputting