Radiation imaging apparatus and radiation imaging system

What is claimed is: 1. A radiation imaging system for performing a plurality of times of radiation imaging, the system comprising: a plurality of pixels configured to generate a signal corresponding to a radiation dose; a signal line to which signals are supplied from one or more pixels of the plurality of pixels; a readout circuit configured to perform a readout operation, the readout operation including reading out a signal (if any) that is being supplied to the signal line and generating a value corresponding to the signal; a control unit configured to control the readout operation; and a correction unit configured to correct the value generated by the readout circuit, wherein the control unit causes the readout circuit to generate two values, including a first pixel value by performing the readout operation while a signal is being supplied from the one or more pixels to the signal line, and including a first offset value by performing the readout operation while no signal is being supplied from the one or more pixels to the signal line, before starting the plurality of times of radiation imaging, the control unit causes the readout circuit to generate two further values, including a second pixel value by performing the readout operation while a signal is being supplied from the one or more pixels to the signal line, and including a second offset value by performing the readout operation while no signal is being supplied from the one or more pixels to the signal line, during the plurality of times of radiation imaging, and the correction unit corrects the second pixel value by using the first pixel value, the first offset value, and the second offset value. 2. The system according to claim 1 , wherein the plurality of pixels include conversion elements configured to generate charges corresponding to the radiation dose and a switch element configured to supply a signal corresponding to the charges to the signal line while the switch element is in a conductive state, the control unit accumulates charges in the conversion elements of the plurality of pixels while the switch elements are in a non-conductive state, and the control unit repetitively performs a frame operation including a first operation of accumulating the charges, a second operation of generating the second pixel value, and a third operation of generating the second offset value during the plurality of times of radiation imaging. 3. The system according to claim 2 , wherein the control unit performs the first operation, the second operation, and the third operation in an order named in one frame operation. 4. The system according to claim 2 , wherein the control unit does not drive the readout circuit during the first operation. 5. The system according to claim 4 , further comprising a power supply unit configured to generate power to be supplied to the readout circuit, wherein the control unit controls supply of the power from the power supply unit to the readout circuit, and the control unit does not supply the power from the power supply unit to the readout circuit during the first operation. 6. The system according to claim 2 , wherein the correction unit uses, as the second offset value for correcting the second pixel value, the second offset value generated by the frame operation in which the second pixel value was generated. 7. The system according to claim 6 , wherein the correction unit further uses, as the second offset value for correcting the second pixel value, the second offset value generated by a frame operation immediately preceding the frame operation in which the second pixel value was generated. 8. The system according to claim 2 , wherein the control unit causes the readout circuit to generate a plurality of second offset values in one frame operation, and the correction unit uses the plurality of second offset values as the second offset value for correcting the second pixel value. 9. The system according to claim 1 , wherein the control unit generates a plurality of first pixel values for the respective pixels before starting the plurality of times of radiation imaging, and the correction unit uses the plurality of first pixel values as the first pixel value for correcting the second pixel value. 10. The system according to claim 1 , wherein the control unit causes the readout circuit to generate a plurality of first offset values before starting the plurality of times of radiation imaging, and the correction unit uses the plurality of first offset values as the first offset value for correcting the second pixel value. 11. The system according to claim 1 , wherein the readout circuit includes a plurality of readout paths, the control unit causes the readout circuit to generate the first pixel value, the second pixel value, the first offset value, and the second offset value by using the plurality of readout paths, and the correction unit corrects the second pixel value by using the first pixel value, the first offset value, and the second offset value that have been generated using a readout path used to generate the second pixel value, out of the plurality of readout paths. 12. The system according to claim 1 , wherein the correction unit corrects the second pixel value by performing subtraction of the first pixel value and the second offset value, and addition of the first offset value with respect to the second pixel value. 13. A radiation imaging apparatus included in a radiation imaging system for performing a plurality of times of radiation imaging, the apparatus comprising: a plurality of pixels configured to generate a signal corresponding to a radiation dose; a signal line to which signals are supplied from one or more pixels of the plurality of pixels; a readout circuit configured to perform a readout operation, the readout operation including reading out a signal (if any) that is being supplied to the signal line and generating a value corresponding to the signal; and a control unit configured to control the readout operation, wherein the control unit causes the readout circuit to generate two values, including a first pixel value by performing the readout operation while a signal is being supplied from the one or more pixels to the signal line, and including a first offset value by performing the readout operation while no signal is being supplied from the one or more pixels to the signal line, before starting the plurality of times of radiation imaging, and the control unit causes the readout circuit to generate two further values, including a second pixel value by performing the readout operation while a signal is being supplied from the one or more pixels to the signal line, and including a second offset value by performing the readout operation while no signal is being supplied from the one or more pixels to the signal line so as to use the second offset value along with the first pixel value and the first offset value for a correction of the second pixel value, during the plurality of times of radiation imaging.