Hybrid amplitude adjustment algorithm for resistivity logging tools

What is claimed is: 1. A resistivity logging tool for being disposed downhole, the resistivity logging tool comprising: at least one transmitter device connected to at least one excitation electrode and operable to inject an excitation current into the formation via the at least one excitation electrode; a plurality of receiver devices respectively connected to a plurality of monitoring electrodes, wherein each receiver device comprises a respective processing device in communication with a respective memory device in which instructions executable by the respective processing device are stored, wherein the instructions comprise instructions for determining a respective voltage level induced by the excitation current based on voltage data sampled from a respective monitoring electrode; and a controller in communication with the at least one transmitter device and the plurality of receiver devices, the controller in communication with a memory device in which instructions executable by the controller are stored, wherein the instructions comprise: instructions for determining whether a voltage level measured by at least one receiver device of the plurality of receiver devices is within a specified range, instructions for selecting, based on the measured voltage level, at least one of a global amplitude adjustment algorithm for modifying the excitation current and a localized amplitude adjustment algorithm for modifying at least one gain of the at least one receiver device, and instructions for modifying at least one of the excitation current and the at least one gain by executing the selected algorithm. 2. The resistivity logging tool of claim 1 , wherein the instructions for determining whether the voltage level is within the specified range comprise instructions for determining that the voltage level is too low to be measured. 3. The resistivity logging tool of claim 2 , wherein the instructions for selecting the global amplitude adjustment algorithm comprise instructions for determining that the excitation current is below a threshold excitation current; and wherein the instructions for selecting the localized amplitude adjustment algorithm comprise instructions for determining that the excitation current is at the threshold excitation current. 4. The resistivity logging tool of claim 3 , wherein the threshold excitation current comprises an excitation current value sufficient to prevent crosstalk interference between components of the resistivity logging tool from exceeding a threshold signal power. 5. The resistivity logging tool of claim 1 , wherein the instructions for determining whether the voltage level is within the specified range comprise instructions for determining that the voltage level is too high to be measured. 6. The resistivity logging tool of claim 5 , wherein the instructions for selecting the global amplitude adjustment algorithm comprise instructions for determining that respective analog gains of respective local amplifiers of the plurality of receiver devices are set to initial configuration values; wherein the instructions for selecting the localized amplitude adjustment algorithm comprise instructions for determining that the respective analog gains of the respective local amplifiers of the plurality of receiver devices are set to values other than the initial configuration values. 7. The resistivity logging tool of claim 1 , further comprising an interface operable for communicating digital data among the controller, the at least one transmitter device, and the plurality of receiver devices. 8. The resistivity logging tool of claim 7 , wherein the interface comprises a controller area network bus. 9. A method comprising: injecting, by a transmitter device, an excitation current into a formation; determining whether a voltage level induced by the excitation current and measured by at least one receiver device is within a specified range; selecting, based on the measured voltage level, at least one of a global amplitude adjustment algorithm for modifying the excitation current and a localized amplitude adjustment algorithm for modifying at least one gain of the at least one receiver device; and modifying at least one of the excitation current and the at least one gain by executing the selected algorithm. 10. The method of claim 9 , wherein determining whether the voltage level is within the specified range comprises determining that the voltage level is too low to be measured. 11. The method of claim 10 , wherein selecting the global amplitude adjustment algorithm comprises determining that the excitation current is below a threshold excitation current; and wherein selecting the localized amplitude adjustment algorithm comprises determining that the excitation current is at the threshold excitation current. 12. The method of claim 11 , wherein the threshold excitation current comprises an excitation current value sufficient to prevent crosstalk interference between components of a resistivity logging tool in which the transmitter device and the at least one receiver device are disposed from exceeding a threshold signal power. 13. The method of claim 9 , wherein determining whether the voltage level is within the specified range comprises determining that the voltage level is too high to be measured. 14. The method of claim 13 , wherein selecting the global amplitude adjustment algorithm comprises determining that an analog gain of a local amplifier of the receiver device is set to an initial configuration value; wherein selecting the localized amplitude adjustment algorithm comprises determining that the analog gain of the local amplifier is set to a value other than the initial configuration value. 15. A controller comprising: a processing device, a memory device in which instructions executable by the processing device are stored, wherein the instructions comprise: instructions for determining whether a voltage level measured by a receiver device of a resistivity logging tool is within a specified range, instructions for selecting, based on the measured voltage level, at least one of a global amplitude adjustment algorithm for modifying an excitation current of a transmitter device of the resistivity logging tool and a localized amplitude adjustment algorithm for modifying a gain of the receiver device, and instructions for modifying at least one of the excitation current and the gain by executing the selected algorithm. 16. The controller of claim 15 , wherein the instructions for determining whether the voltage level is within the specified range comprise instructions for determining that the voltage level is too low to be measured. 17. The controller of claim 16 , wherein the instructions for selecting the global amplitude adjustment algorithm comprise instructions for determining that the excitation current is below a threshold excitation current; wherein the instructions for selecting the localized amplitude adjustment algorithm comprise instructions for determining that the excitation current is at the threshold excitation current. 18. The controller of claim 17 , wherein the threshold excitation current comprises an excitation current value sufficient to prevent crosstalk interference between components of the resistivity logging tool from exceeding a threshold signal power. 19. The controller of claim 15 , wherein the instructions for determining whether the voltage level is within the specified range comprise instructions for determining that the voltage level is too high