Radiation imaging apparatus comprising a bias power supply, a processing unit, and a drive control unit, method of controlling the radiation imaging apparatus, and radiation imaging system

What is claimed is: 1. A radiation imaging apparatus, comprising: a signal line; a pixel array comprising a plurality of pixels arranged to configure a plurality of rows and a plurality of columns, each pixel of the plurality of pixels including (i) a conversion element configured to convert radiation into an electric charge, and (ii) a switch element for connecting the conversion element to the signal line; a bias line configured to apply a bias potential to each conversion element of the plurality of pixels; a plurality of drive lines for respectively configured to supply an ON voltage for turning on each switch element of the plurality of pixels to a control terminal of each switch element of the plurality of pixels; a driving unit configured to cyclically supply the ON voltage to the plurality of drive lines; an acquiring unit configured to acquire a plurality of signal values by acquiring a signal value representing a current flowing through the bias line at each of a plurality of times within a period in which the ON voltage is continuously supplied to at least one of the plurality of drive lines; and a processing unit configured to specify an outlier in the plurality of signal values, and to determine whether or not there is a radiation irradiation with respect to the pixel array based on a signal value among the plurality of signal values that is not the outlier without being based on the signal value specified as the outlier among the plurality of signal values. 2. The radiation imaging apparatus according to claim 1 , wherein the plurality of signal values are a plurality of first signal values, the driving unit is configured to supply the ON voltage to one or more drive lines of the plurality of drive lines, and then supplies the ON voltage to another one or more drive lines of the plurality of drive lines in a time period, the acquiring unit is configured to acquire a plurality of second signal values by acquiring a second signal value representing a current flowing through the bias line at each of a plurality of times not within the period in which the ON voltage is continuously supplied to at least one of the plurality of drive lines, and the processing unit is configured to specify an outlier in the plurality of second signal values, and to determine whether or not there is a radiation irradiation with respect to the pixel array also based on a second signal value among the plurality of second signal values that is not the outlier without being based on the second signal value specified as the outlier among the plurality of second signal values. 3. The radiation imaging apparatus according to claim 1 , wherein the processing unit is configured to specify the signal value among the plurality of signal values that is not included in a reference range as the outlier in the plurality of signal values. 4. The radiation imaging apparatus according to claim 3 , wherein the processing unit is configured to determine the reference range based on the plurality of signal values. 5. The radiation imaging apparatus according to claim 1 , wherein the processing unit is configured to specify the outlier in the plurality of signal values based on an amount of change of the plurality of signal values. 6. The radiation imaging apparatus according to claim 1 , wherein the processing unit is configured to specify a predetermined number or a predetermined ratio of the plurality of signal values as outliers in the plurality of signal values. 7. The radiation imaging apparatus according to claim 1 , wherein the processing unit is configured to generate information for determining a presence or an absence of a radiation irradiation with respect to the pixel array by performing arithmetic processing, which is performed on the plurality of signal values when the plurality of signal values do not include the outlier, or on a signal value from the plurality of signal values that is not the outlier. 8. The radiation imaging apparatus according to claim 7 , wherein the arithmetic processing includes an arithmetic mean. 9. The radiation imaging apparatus according to claim 1 , wherein the processing unit is configured to generate information for determining a presence or an absence of a radiation irradiation with respect to the pixel array by performing arithmetic processing, which is performed on the plurality of signal values when the plurality of signal values do not include the outlier, after a signal value specified as the outlier is replaced with another signal value. 10. The radiation imaging apparatus according to claim 1 , further comprising a sensor configured to detect a noise, wherein the plurality of signal values are a plurality of first signal values, the acquiring unit is further configured to acquire a plurality of third signal values from the sensor in a synchronization with an acquisition of the plurality of first signal values, and the processing unit is further configured to specify an outlier in the plurality of third signal values, and to specify as the outlier a first signal value of the plurality of first signal values corresponding to a third signal value of the plurality of third signal values specified as the outlier in the plurality of third signal values. 11. A radiation imaging system, comprising: a radiation imaging apparatus according to claim 1 ; and a processor configured to process a signal output from the radiation imaging apparatus. 12. A method of controlling a radiation imaging apparatus, the radiation imaging apparatus comprising: a signal line; a pixel array comprising a plurality of pixels arranged to configure a plurality of rows and a plurality of columns, each pixel of the plurality of pixels including (i) a conversion element configured to convert radiation into an electric charge, and (ii) a switch element for connecting the conversion element to the signal line; a bias line configured to apply a bias potential to each conversion element of the plurality of pixels; a plurality of drive lines for respectively configured to supply an ON voltage for turning on each switch element of the plurality of pixels to a control terminal of each switch element of the plurality of pixels; and a driving unit configured to cyclically supply the ON voltage to the plurality of drive lines; and the method comprising the steps of: acquiring a plurality of signal values by acquiring a signal value representing a current flowing through the bias line at each of a plurality of times within a period in which the ON voltage is continuously supplied to at least one of the plurality of drive lines; and specifying an outlier in the plurality of signal values, and determining whether or not there is a radiation irradiation with respect to the pixel array based on a signal value among the plurality of signal values that is not the outlier without being based on the signal value specified as the outlier among the plurality of signal values.