Reconstruction of original touch image from differential touch image

1 - 25 . (canceled) 26 . A method for reconstructing an original touch image from a differential touch image, comprising: capturing the differential touch image at a touch sensitive device; capturing common mode data at the device; combining the captured differential touch image data and the common mode data; performing a column alignment to align columns of the differential touch image to each other based on the combined data; and performing a baseline alignment to align the column-aligned differential touch image with a baseline value. 27 . The method of claim 26 , further comprising: sorting data values based on the combined data into bins of a histogram; identifying a highest-count bin of the histogram; and determining an offset value based on the highest-count bin. 28 . The method of claim 27 , wherein the baseline value is based on the determined offset value. 29 . The method of claim 27 , wherein values used to align columns of the differential touch image to each other are based on the determined offset value. 30 . The method of claim 27 , further comprising: identifying a second highest-count bin of the histogram; in accordance with a determination that the first and second highest-count bins are adjacent, the determined offset value is a weighted average of the center values for the two identified bins; and in accordance with a determination that the two identified bins are not adjacent, the determined offset value is the center value of the highest-count bin. 31 . The method of claim 26 , wherein combining the captured differential touch image data and the common mode data comprises scaling the differential touch image data and the common mode data based on a number of data values in the differential image indicative of a touching or hovering object. 32 . The method of claim 31 , wherein the scaling reduces contribution of the common mode data to the combined data as an number of data values indicating the touching or hovering object in differential touch image data increases. 33 . The method of claim 26 , wherein the baseline value is based on the combined data. 34 . A touch sensitive device comprising: a touch panel capable of sensing a proximate object; scan logic couplable to the touch panel and capable of performing a scan of the touch panel so as to capture a first touch image; and a processor capable of reconstructing a second touch image from the first touch image, the reconstructing including: capturing the differential touch image at a touch sensitive device; capturing common mode data at the device; combining the captured differential touch image data and the common mode data; performing a column alignment to align columns of the differential touch image to each other based on the combined data; and performing a baseline alignment to align the column-aligned differential touch image with a baseline value. 35 . The touch sensitive device of claim 34 , wherein the reconstructing further comprises: sorting data values based on the combined data into bins of a histogram; identifying a highest-count bin of the histogram; and determining an offset value based on the highest-count bin. 36 . The touch sensitive device of claim 35 , wherein the baseline value is based on the determined offset value. 37 . The touch sensitive device of claim 35 , wherein values used to align columns of the differential touch image to each other are based on the determined offset value. 38 . The touch sensitive device of claim 35 , the reconstruction further comprising: identifying a second highest-count bin of the histogram; in accordance with a determination that the first and second highest-count bins are adjacent, the determined offset value is a weighted average of the center values for the two identified bins; and in accordance with a determination that the two identified bins are not adjacent, the determined offset value is the center value of the highest-count bin. 39 . The touch sensitive device of claim 34 , wherein combining the captured differential touch image data and the common mode data comprises scaling the differential touch image data and the common mode data based on a number of data values in the differential image indicative of a touching or hovering object. 40 . The touch sensitive device of claim 39 , wherein the scaling reduces contribution of the common mode data to the combined data as an amount of data indicating a touching or hovering object in differential touch image data increases. 41 . The touch sensitive device of claim 34 , wherein the baseline value is based on the combined data. 42 . A method for reconstructing an original touch image from a differential touch image, comprising: capturing the differential touch image at a touch sensitive device; capturing common mode data at the device; performing a column alignment to align columns of the differential touch image to each other based on the captured common mode data; and performing a baseline alignment to align the column-aligned differential touch image with a baseline value. 43 . The method of claim 42 , further comprising: sorting data values based on the combined data into bins of a histogram; identifying a highest-count bin of the histogram; and determining an offset value based on the highest-count bin. 44 . The method of claim 43 , further comprising: identifying a second highest-count bin of the histogram; in accordance with a determination that the first and second highest-count bins are adjacent, the determined offset value is a weighted average of the center values for the two identified bins; and in accordance with a determination that the two identified bins are not adjacent, the determined offset value is the center value of the highest-count bin. 45 . The method of claim 42 , wherein combining the captured differential touch image data and the common mode data comprises scaling the differential touch image data and the common mode data based on a number of data values in the differential image indicative of a touching or hovering object.