Deconvolution-based enhancement of apparent resistivity and bed boundary identification in borehole resistivity imaging

What is claimed is: 1. A method for locating one or more bed boundaries with a downhole tool comprising: disposing a downhole tool into a wellbore, wherein the downhole tool comprises a transmitter and a receiver; broadcasting a signal from the transmitter; measuring the signal response to obtain wellbore wall resistivity with the receiver; extracting a vertical voltage measurement from the wellbore wall resistivity; deconvolving the vertical voltage measurement with an impulse response to obtain an apparent resistivity; determining the impulse response, wherein the determining comprises: calculating a two-dimensional modeled response of a thin horizontal bed in the two-dimensional plane; obtaining a two-dimensional ideal system response of the thin horizontal bed; and constructing a two-dimensional impulse response through linearly combining the modeled impulse response and the ideal system response; calculating a derivative of the apparent resistivity and finding one or more peaks of the derivative; and identifying a location of the one or more bed boundaries based on at least one or more peaks of the derivative, apparent resistivity, or voltage response. 2. The method of claim 1 , further comprising displaying the one or more bed boundaries and wherein an operator makes a production decision based on the one or more bed boundaries. 3. The method of claim 2 , further comprising producing a formation data product comprising the one or more bed boundaries. 4. The method of claim 3 , further comprising storing the formation data product on a non-transitory computer-readable media. 5. The method of claim 1 , wherein the deconvolving the vertical voltage measurement is in a two-dimensional plane. 6. The method of claim 1 , wherein the downhole tool comprises at least one pad, at least one arm, and wherein at least one transmitter and at least one receiver are disposed on the at least one pad. 7. A well measurement system for locating one or more bed boundaries comprising: a downhole tool, wherein the downhole tool comprises: a pad; an arm, wherein the arm extends the pad from the downhole tool; a receiver disposed on the pad; and a transmitter disposed on the pad; a conveyance, wherein the conveyance is attached to the downhole tool; and an information handling system, wherein the information handling system is configured to: measure wellbore wall resistivity with the downhole tool; extract a vertical voltage measurement from the wellbore wall resistivity; deconvolve the vertical voltage measurement with an impulse response to obtain an apparent resistivity; calculate a two-dimensional modeled response of a thin horizontal bed in the two-dimensional plane; obtain a two-dimensional ideal system response of the thin horizontal bed; and construct a two-dimensional impulse response through linearly combining the modeled impulse response and the ideal system response; and calculate a derivative of the apparent resistivity and find one or more peaks of the derivative to determine the locations of the one or more bed boundaries. 8. The well measurement system for locating bed boundaries of claim 7 , wherein the information system is configured to calculate a modeled impulse response of a thin horizontal bed; extract the modeled impulse response from a computed vertical response; obtain an ideal system response of the thin horizontal bed; and construct the impulse response through a process comprising linearly combining the modeled impulse response and the ideal system response. 9. The well measurement system for locating bed boundaries of claim 7 , wherein the information handling system is configured to display the locations of the one or more bed boundaries. 10. The well measurement system for locating bed boundaries of claim 7 , wherein the information handling system is configured to deconvolve the vertical voltage measurement in a two-dimensional plane. 11. The well measurement system for locating bed boundaries of claim 7 , wherein the information handling system is configured to display the one or more bed boundaries. 12. The well measurement system of claim 11 , further comprising producing a formation data product comprising the one or more bed boundaries. 13. The well measurement system of claim 12 , further comprising storing the formation data product on a non-transitory computer-readable media. 14. A method for locating one or more bed boundaries in a two-dimensional plane comprising: calculating a two-dimensional modeled impulse response of a thin horizontal bed in the two-dimensional plane; obtaining a two-dimensional ideal system response of the thin horizontal bed; and constructing a two-dimensional impulse response through linearly combining the modeled impulse response and the ideal system response; and determining the location of the one or more bed boundaries using the two-dimensional impulse response. 15. The method of claim 14 wherein determining the location of the one or more bed boundaries using the two-dimensional impulse response comprises: disposing a downhole tool into a wellbore; measuring the signal response to obtain wellbore wall resistivity with the downhole tool; extracting a vertical voltage measurement from the wellbore wall resistivity; deconvolving the vertical voltage measurement of a two-dimensional region with the two-dimensional new impulse response; and calculating a derivative of a new apparent resistivity and finding a peak to determine the location of the one or more bed boundaries. 16. The method of claim 15 , wherein an information handling system is configured to display the location of the bed boundary. 17. The method of claim 14 , further comprising displaying the one or more bed boundaries and wherein an operator makes a production decision based on the one or more bed boundaries. 18. The method of claim 17 , further comprising producing a formation data product comprising the one or more bed boundaries. 19. The method of claim 18 , further comprising storing the formation data product on a tangible, non-volatile computer-readable medium. 20. The method of claim 1 , further comprising extracting the two-dimensional modeled impulse response from a computed vertical response and an azimuthal response.