Signal processing device, image scanning device, image forming apparatus, and method of controlling the same

What is claimed is: 1. A signal processing device in a scanning device that further includes an optical reading device including a light source device to emit light to be reflected from an object, the signal processing device comprising: a signal output circuit to receive the light reflected from the object and to generate and output a signal according to a quantity of the received light, the signal output circuit including a plurality of pixels, each pixel of which outputs a corresponding pixel output signal; a controller to control the signal output circuit; and a corrector to correct, for each pixel amongst the plurality of pixels, a pixel output signal to be corrected for the pixel, wherein the signal output circuit selectively performs, for each particular pixel amongst the plurality of pixels and according to control of the controller based on a processing signal value of the pixel output signal to be corrected for the particular pixel, one of (a) a first operation of generating and outputting a characteristic signal that indicates characteristics of the particular pixel when the light is received by the particular pixel, and (b) a second operation of generating and outputting a pseudo signal that is spuriously generated by the particular pixel when the particular pixel is shielded from the light, and the corrector corrects the pixel output signal to be corrected for the particular pixel using the characteristic signal obtained by performing the first operation when the processing condition value of the pixel output signal to be corrected for the particular pixel is equal to or above a threshold, and the pseudo signal obtained by performing the second operation when the processing condition value of the pixel output signal to be corrected for the particular pixel is below the threshold. 2. An image scanning device, comprising the signal processing device of claim 1 , wherein the signal processing device further includes a movement controller to control the optical reading device to move in relation to the object based on the processing condition value, and the signal output circuit includes a plurality of pixels, each of which outputs a signal based on a quantity of incident light received, the quantity of incident light received by each of the plurality of pixels being based on movement of the optical reading device. 3. The image scanning device of claim 2 , wherein the controller causes each of the plurality of pixels to output the characteristic signal, which corresponds to that is a reference signal, when the plurality of pixels are shielded from light in response to returning from a wait state of the image scanning device. 4. The image scanning device of claim 3 , wherein the controller determines that the plurality of pixels are shielded when the optical reading device moves to a position under a material for shielding the light at a first time after returning from the wait state. 5. The image scanning device of claim 2 , wherein the controller causes the plurality of pixels to perform the first operation when the optical reading device is not at a wait position and is controlled by the controller to start operating. 6. The image scanning device of claim 2 , further comprising a conveying device, wherein the controller causes the plurality of pixels to perform the first operation when the conveying device causes the image scanning object to be stopped at an improper position that is different from a predetermined position. 7. An image forming apparatus, comprising: the image scanning device of claim 2 ; and an image forming device to form an image based on image data read with the image scanning device. 8. The image scanning device of claim 1 , wherein when the processing signal value of the pixel output signal to be corrected is equal to or above the predetermined threshold, the controller controls the optical reading device to perform a scanning operation, and causes the signal output circuit to generate a first input signal and to perform the first operation to generate the characteristic signal, and the corrector corrects the first input signal based on the characteristic signal, and when the processing signal value of the pixel output signal to be corrected is below the predetermined threshold, the controller controls the optical reading device to perform a pre-scanning operation, and causes the signal output circuit to generate a second signal and to perform the second operation to generate the pseudo signal, and the corrector corrects the second input signal based on the pseudo signal. 9. A method performed by a signal processing device, in a scanning device that further includes an optical reading device including a light source device to emit light to be reflected from an object, to correct a signal to be corrected in a signal output circuit to receive the light reflected from the object and to output a signal according to a quantity of the received light, the signal output circuit including a plurality of pixels each outputting a corresponding pixel output signal, the method comprising: (a) controlling, by a controller, the signal output circuit to selectively perform, for each particular pixel amongst the plurality of pixels and based on a processing signal value of the pixel output signal to be corrected for the particular pixel, one of (1) a first operation of generating a characteristic signal that indicates characteristics of the particular pixel when the light is received by the particular pixel and (2) a second operation of generating a pseudo signal that is spuriously generated when the particular pixel is shielded from the light; and (b) correcting, for each particular pixel amongst the plurality of pixels, the pixel output signal to be corrected, which is output from the particular pixel, the correcting using the characteristic signal obtained by performing the first operation when the processing condition value of the pixel output signal to be corrected is equal to or above a threshold, and the pseudo signal obtained by performing the second operation when the processing condition value of the pixel output signal to be corrected is below the threshold. 10. The method of claim 9 , further comprising: generating and outputting, in the first operation for the particular pixel, a signal according to a quantity of light received after the signal output circuit outputs a reference signal corresponding to the characteristic signal and movement of the optical reading device when an accuracy level, which corresponds to the processing condition value, of the pixel output signal to be corrected is equal to or above a predetermined accuracy; and generating and outputting, in the second operation for the particular pixel, a signal according to the quantity of light received after the signal output circuit outputs a pseudo reference signal corresponding to the pseudo signal, when the accuracy level of the pixel output signal to be corrected is permitted to be below the predetermined accuracy. 11. The method of claim 9 , further comprising: (c) controlling the optical reading device to perform a pre-scanning operation and a scanning operation; (d) when the controller controls the optical reading device to perform the scanning operation in (c), determining that the processing signal value of the pixel output signal to be corrected is equal to or above a predetermined threshold, and causing the signal output circuit to generate a first signal and to perform the first operation to generate the characteristic signal, and causing the pixel output signal to be corrected based on the characteristic signal; (e) when the controller controls the optical reading device to p