Coil width control method and apparatus

What is claimed is: 1. A coil width control method comprising: generating, using a control unit, a prediction model for predicting a width shrinkage of a coil, which occurs in a heat-treatment process and post-treatment process of a cold-rolled steel sheet production process, on the basis of historical operating results; receiving, using the control unit, an input width of the coil entering the heat-treatment process; predicting, using the control unit, an output width of the coil, after the post-treatment process, on the basis of the received input width and operating conditions of the cold-rolled steel sheet production process; and controlling, using the control unit, in-furnace temperature and in-furnace tension of the heat-treatment process and elongation of the coil caused by the post-treatment process as a function of the predicted output width. 2. The coil width control method of claim 1 , wherein the prediction model is a correlation model between operating conditions and coil width shrinkage, generated by performing regression analysis of the operating conditions through a least square method, wherein the operating conditions include the in-furnace temperature, the in-furnace tension and the elongation of the coil caused by the post-treatment process. 3. The coil width control method of claim 2 , wherein controlling the in-furnace temperature and in-furnace tension of the heat-treatment process and the elongation of the coil caused by the post-treatment process comprises: firstly predicting, using the control unit, the output width of a specific position of the coil on the basis of the received input width and the operating conditions of the cold-rolled steel sheet production process by use of a historical database (DB); controlling, using the control unit, the in-furnace temperature on the basis of the firstly predicted output width and the prediction model, before the specific position of the coil enters the heat-treatment process; secondly predicting, using the control unit, the output width of the specific position of the coil on the basis of current heat-treatment process conditions; controlling, using the control unit, the in-furnace tension on the basis of the secondly predicted output width and the prediction model, after the specific position of the coil enters the heat-treatment process; and thirdly predicting, using the control unit, the output width of the specific position of the coil on the basis of current post-treatment process conditions; and controlling, using the control unit, the elongation of the coil on the basis of the thirdly predicted output width and the prediction model, after the specific position of the coil passes through the heat-treatment process. 4. The coil width control method of claim 3 , wherein controlling the elongation of the coil includes sequentially controlling a roll force of a skin pass mill and a roll force of a tension leveler. 5. The coil width control method of claim 1 , further comprising: receiving, using the control unit, an actual output width of the coil that passed through the post-treatment process; and updating using the control unit, the prediction model on the basis of a deviation between the predicted output width and the received actual output width. 6. A coil width control apparatus comprising: an input width measurement unit configured to measure an input width of a coil entering a heat-treatment process in a cold-rolled steel sheet production process, the cold rolled sheet production process including the heat-treatment process and a post-treatment process; a heat-treatment control unit configured to control in-furnace temperature and in-furnace tension of the heat-treatment process; a post-treatment control unit configured to control elongation of the coil caused by the post-treatment process; and a control unit configured to generate a prediction model for predicting a width shrinkage of the coil, which occurs in the heat-treatment process and the post-treatment process, on the basis of historical operating results, the control unit predicting an output width of the coil after the post-treatment process on the basis of the input width received from the input width measurement unit and operating conditions of the cold-rolled steel sheet production process, and controlling the in-furnace temperature and the in-furnace tension through the heat-treatment control unit on the basis of the predicted output width and the prediction model, and controlling the elongation through the post-treatment control unit. 7. The coil width control apparatus of claim 6 , wherein the control unit is configured to: firstly predict the output width of a specific position of the coil on the basis of the received input width and the operating conditions of the cold-rolled steel sheet production process by use of a historical database (DB); control the in-furnace temperature through the heat-treatment control unit on the basis of the firstly predicted output width and the prediction model, before the specific position of the coil enters the heat-treatment process; secondly predict the output width of the specific position of the coil on the basis of current heat-treatment process conditions; control the in-furnace tension through the heat-treatment control unit on the basis of the secondly predicted output width and the prediction model, after the specific position of the coil enters the heat-treatment process; and thirdly predict the output width of the specific position of the coil on the basis of current post-treatment process conditions; and control the elongation of the coil through the post-treatment control unit on the basis of the thirdly predicted output width and the prediction model, after the specific position of the coil passes through the heat-treatment process. 8. The coil width control apparatus of claim 6 , further comprising an output width measurement unit configured to measure the output width of the coil that passed through the post-treatment process, wherein the control unit is configured to receive the actual output width of the coil, which passed through the post-treatment process, from the output width measurement unit, and update the prediction model on the basis of a deviation between the predicted output width and the received actual output width.