Fuel injection control device and fuel injection control method for internal combustion engine

The invention claimed is: 1. A fuel injection control device for an internal combustion engine that includes a plurality of fuel injection valves that directly injects fuel into a cylinder, respectively, and a fuel pressure sensor that is provided for each fuel injection valve and detects a fuel pressure inside each fuel injection valve or in a system that supplies fuel to the fuel injection valve, the fuel injection control device comprising: an electronic control unit configured to execute a learned value updating process, the learned value updating process updating a learned value for compensating for an individual difference of each fuel injection valve at a predetermined learning rate on the basis of the fuel pressure that is detected by each fuel pressure sensor, the electronic control unit configured to execute the learned value updating process by increasing a learning rate of the learned value when an accumulated value of the number of updates of the learned value after the fuel injection valve is assembled to the internal combustion engine is smaller than a predetermined value as compared with when the accumulated value is larger than or equal to the predetermined value, the electronic control unit configured to provide the learned value separately for each of a plurality of engine operating regions, the electronic control unit configured to execute the learned value updating process by updating the learned value in a first engine operating region on the basis of the learned value in a second engine operating region different from the first engine operating region, on a condition that the accumulated value of the number of updates of the learned value in the first engine operating region becomes the predetermined value or a value smaller than the predetermined value, the number of updates of the learned value in the first engine operating region is smaller than or equal to a first predetermined number of times and the number of updates of the learned value in the second engine operating region is larger than or equal to a second predetermined number of times larger than the first predetermined number of times, and the electronic control unit configured to actuate the fuel injection valves based on the learned values. 2. The fuel injection control device according to claim 1 , wherein the electronic control unit is configured to execute the learned value updating process by determining a tendency of deviation of an actual fuel injection characteristic of the fuel injection valve with respect to a basic fuel injection characteristic of the fuel injection valve on the basis of the fuel pressure that is detected by the fuel pressure sensor, utilizing the tendency of deviation at a predetermined rate at the time of updating the learned value, and increasing the predetermined rate when the accumulated value of the number of updates of the learned value is smaller than the predetermined value as compared with when the accumulated value is larger than or equal to the predetermined value. 3. The fuel injection control device according to claim 2 , wherein the electronic control unit is configured to execute the learned value updating process by detecting a manner of fluctuation of the fuel pressure with injection of fuel by the fuel injection valve with the use of the fuel pressure sensor and determining the tendency of deviation on the basis of a result of comparison between a basic temporal waveform and a detected temporal waveform that is a temporal waveform of a fuel injection rate that is determined from the detected manner of fluctuation of the fuel pressure. 4. The fuel injection control device according to claim 1 , wherein the electronic control unit is configured to execute the learned value updating process by updating the learned value in the first engine operating region with the learned value in the second engine operating region adjacent to the first engine operating region, on the condition that the accumulated value of the number of updates of the learned value becomes the predetermined value or the value smaller than the predetermined value, the number of updates of the learned value in the first engine operating region is smaller than or equal to the first predetermined number of times and the number of updates of the learned value in the second engine operating region is larger than or equal to the second predetermined number of times. 5. The fuel injection control device according to claim 1 , wherein the internal combustion engine is mounted on a vehicle, and the electronic control unit, in an alternative mode, is configured to estimate the accumulated value of the number of updates of the learned value on the basis of an accumulated value of a vehicle travel distance after the fuel injection valve is assembled to the internal combustion engine when the accumulated value of the vehicle travel distance is greater than or equal to the predetermined value. 6. A fuel injection control method for an internal combustion engine that includes an electronic control unit and a fuel injection valve that directly injects fuel into a cylinder, the fuel injection control method comprising: updating, by the electronic control unit, a learned value for compensating for an individual difference of the fuel injection valve at a predetermined learning rate on the basis of a fuel pressure inside the fuel injection valve or in a system that supplies fuel to the fuel injection valve; increasing, by the electronic control unit, the learning rate of the learned value when an accumulated value of the number of updates of the learned value after the fuel injection valve is assembled to the internal combustion engine is smaller than a predetermined value as compared with when the accumulated value is larger than or equal to the predetermined value; acquiring, by the electronic control unit, the learned value for each of a plurality of engine operating regions; and actuating, by the electronic control unit, the fuel injection valve based on the learned values, wherein the learned value in a first engine operating region is updated on the basis of the learned value in a second engine operating region different from the first engine operating region, on a condition that the accumulated value of the number of updates of the learned value in the first engine operating region becomes the predetermined value or a value smaller than the predetermined value, the number of updates of the learned value in the first engine operating region is smaller than or equal to a first predetermined number of times and the number of updates of the learned value in the second engine operating region is larger than or equal to a second predetermined number of times larger than the first predetermined number of times. 7. The fuel injection control method according to claim 6 , wherein a tendency of deviation of an actual fuel injection characteristic of the fuel injection valve with respect to a basic fuel injection characteristic of the fuel injection valve is determined on the basis of the fuel pressure, the tendency of deviation is utilized at a predetermined rate at the time of updating the learned value, and the predetermined rate is increased when the accumulated value of the number of updates of the learned value is smaller than the predetermined value as compared with when the accumulated value is larger than or equal to the predetermined value. 8. The fuel injection control method according to claim 7 , wherein a manner of fluctuation of the fuel pressure with injection of fuel by the fuel injection valve is detected, and the tendency of deviation is determined on the basis of a result of comparison between a basic temporal waveform and a detected temporal waveform that is a