Capacitive sensing acquisition schemes

What is claimed is: 1. An input device associated with a sensing region, comprising: sensor circuitry configured to: operate, during a first timeslot, a plurality of electrodes as a first cluster; and operate, during a second timeslot, the plurality of electrodes as a second cluster, wherein the plurality of electrodes are aligned with an axis, and wherein at least one of the plurality of electrodes operates as a transmitter in the first cluster and as a receiver in the second cluster; and determination circuitry configured to: determine a first set of signal values associated with a first set of electrodes in the first cluster; determine a second set of signal values associated with a second set of electrodes in the second cluster; determine a subset of receiver electrodes belonging to both the first set of electrodes and the second set of electrodes, wherein the first set of electrodes and the second set of electrodes are all receiver electrodes; determine a first signal value subset of the first set of signal values corresponding to the subset of receiver electrodes; determine a second signal value subset of the second set of signal values corresponding to the subset of receiver electrodes; determine a first gain between the first cluster and the second cluster based on the first signal value subset and the second signal value subset; scale the second set of signal values based on the first gain; determine, after the second set of signal values are scaled, a plurality of sums based on the first set of signal values and the second set of signal values; and generate a profile for the sensing region based on the plurality of sums, wherein the profile reflects an input object in the sensing region. 2. The input device of claim 1 , wherein: the sensor circuitry is further configured to operate, during a third timeslot, the plurality of electrodes as a third cluster; and the determination circuitry is further configured to: determine a third set of signal values associated with a third set of electrodes in the third cluster, wherein the third set of electrodes are receiver electrodes, wherein there is no overlap between the first set of electrodes and the third set of electrodes; determine a second gain between the second cluster and the third cluster; and scale the third set of signal values based on the first gain and the second gain, wherein the plurality of sums is further based on the third set of signal values after the third set of signal values are scaled. 3. The input device of claim 2 , wherein the determination circuitry is further configured to: determine a first maximum value of the first set of signal values; determine a second maximum value of the second set of signal values; determine a third maximum value of the third set of signal values; and determine a weighted maximum value based on the first maximum value, the second maximum value, the third maximum value, a cardinality of the first set of electrodes, a cardinality of the second set of electrodes, and a cardinality of the third set of electrodes, wherein the profile is further based on scaling the plurality of sums based on the weighted maximum value. 4. The input device of claim 1 , wherein: the first cluster is a repeating pattern of 0T0RR; the second cluster is a shifted version of the first cluster; and T is transmitter electrode, R is receiver electrode, and 0 is shielding electrode. 5. The input device of claim 1 , wherein: the first cluster comprises a first plurality of transmitter-receiver (Tx-Rx) pairs; the second cluster comprises a second plurality of Tx-Rx pairs; the second cluster is a shifted version of the first cluster; the first set of signal values are assigned to the first set of electrodes; and the second set of signal values are assigned to the second set of electrodes. 6. The input device of claim 5 , wherein: the first set of electrodes comprises at least one transmitter electrode and at least one receiver electrode; the second set of electrodes comprises at least one transmitter electrode and at least one receiver electrode; each of the first plurality of Tx-Rx pairs comprises one of the first set of electrodes; each of the second plurality of Tx-Rx pairs comprises one of the second set of electrodes; and there is no overlap between the first set of electrodes and the second set of electrodes. 7. The input device of claim 6 , wherein the determination circuitry is further configured to: determine a plurality of averages based on the first set of signal values and the second set of signal values, wherein each of the plurality of averages is assigned to one of the plurality of electrodes, and wherein the profile is generated based on the plurality of averages. 8. The input device of claim 5 , wherein: one of the first set of signal values is assigned to a boundary electrode. 9. The input device of claim 5 , wherein: the first cluster is a repeating pattern of RRRTT; and T is transmitter electrode and R is receiver electrode. 10. An input device associated with a sensing region, comprising: sensor circuitry configured to: operate, during a first timeslot, a plurality of electrodes as a first cluster, wherein the first cluster comprises a first plurality of transmitter-receiver (Tx-Rx) pairs; operate, during a second timeslot, the plurality of electrodes as a second cluster, the second cluster comprises a second plurality of Tx-Rx pairs, and the second cluster is a shifted version of the first cluster; operate, during a third timeslot, the plurality of electrodes as a third cluster; and operate, during a fourth timeslot, the plurality of electrodes as a fourth cluster; wherein the plurality of electrodes are aligned with an axis, and wherein at least one of the plurality of electrodes operates as a transmitter in the first cluster and as a receiver in the second cluster; and determination circuitry configured to: determine a first set of signal values associated with a first set of electrodes in the first cluster, the first set of signal values are assigned to the first set of electrodes, determine a second set of signal values associated with a second set of electrodes in the second cluster, the second set of signal values are assigned to the second set of electrodes, determine a third set of signal values associated with a third set of electrodes in the third cluster; determine a fourth set of signal values associated with a fourth set of electrodes in the fourth cluster, wherein the first set of electrodes, the second set of electrodes, the third set of electrodes, and the fourth set of electrodes are all receiver electrodes; determine a plurality of averages based on the first set of signal values, the second set of signal values, the third set of signal values, and the fourth set of signal values; and generate a profile for the sensing region based on the plurality of averages, wherein the profile reflects an input object in the sensing region. 11. A method for operating an input device associated with a sensing region, comprising: operating, during a first timeslot, a plurality of electrodes as a first cluster; operating, during a second timeslot, the plurality of electrodes as a second cluster, wherein the plurality of electrodes are aligned with an axis, and wherein at least one of the plurality of electrodes operates as a transmitter in the first cluster and as a receiver in the second cluster; determining a first set of signal values associated with a first set of electrodes in the first cluster; determining a second set of signal values associated with a second set of electrod