Monitoring expandable screen deployment in highly deviated wells in open hole environment

What is claimed is: 1. A method for deploying a sand screen in a borehole penetrating the earth, the method comprising: disposing the sand screen in an unexpanded form in the borehole, the sand screen at least partially surrounding a base-pipe; activating the sand screen in the unexpanded form by applying at least one of an activation fluid or heat to the sand screen causing the sand screen to expand into an expanded form; conveying a downhole tool through the base-pipe, the downhole tool being configured to sense a property derived from at least one of expansion or non-expansion of the sand screen as a function of distance into the borehole to provide sensed data related to the at least one of expansion or non-expansion of the sand screen as a function of distance into the borehole, the downhole tool comprising a plurality of radial measurement sectors for measuring a distance from the base-pipe to a wall of the borehole by emitting and receiving acoustic signals using an acoustic transducer, wherein the property is sensed by transmitting and receiving signals that travel completely through the sand screen; and identifying, using a processor, one of an expanded state and an unexpanded state of the sand screen using the sensed data as a function of distance into the borehole by using the distance measurement from each radial measurement sector at the same distance in the borehole to provide a measure of at least one of tilt or displacement of the base-pipe with respect to the wall of the borehole. 2. The method according to claim 1 , further comprising applying more activation fluid to the sand screen, applying another activation fluid to the sand screen, and/or applying heat to the sand screen in response to the sand screen being in the unexpanded state post-activation of the sand screen, wherein the heat is applied in addition to any previous application of heat. 3. The method according to claim 2 , further comprising terminating application of the activation fluid, the another activation fluid, and/or the heat in response to the sand screen being in the expanded state post-activation of the sand screen. 4. The method according to claim 1 , further comprising performing a survey of the borehole comprising at least one of an inclination and an azimuth to provide reference survey data as a function of distance into the borehole using the downhole tool prior to the base-pipe being disposed in the borehole. 5. The method according to claim 4 , wherein the sensed data comprises at least one of an azimuth and an inclination of the base-pipe as a function of distance into the borehole and the method further comprises comparing the sensed data to the reference survey data as a function of distance into the borehole and identifying a difference between the sensed data and the reference survey data that exceeds a threshold value at a certain distance into the borehole. 6. The method according to claim 1 , wherein the distance measured in each radial measurement sector is derived from time-of-flight of the acoustic signals. 7. The method according to claim 1 , wherein the using comprises comparing the measured distances for the radial measurement sectors at the same distance into the borehole and identifying a difference between the measured distances that exceeds a threshold value at the same distance into the borehole to provide the measure of at least one of tilt or displacement of the base-pipe with respect to the wall of the borehole. 8. An apparatus for deploying a sand screen in a borehole penetrating the earth, the apparatus comprising: a completion rig configured to apply at least one of an activation fluid or heat to a sand screen at least partially surrounding a base-pipe disposed in a borehole penetrating the earth, the at least one of the activation fluid and the heat causing the sand screen in an unexpanded form to expand into an expanded form; a downhole tool configured to be conveyed through the base-pipe and to sense a property derived from at least one of expansion or non-expansion of the sand screen as a function of distance into the borehole to provide sensed data related to the at least one of expansion or non-expansion of the sand screen as a function of distance into the borehole, the downhole tool comprising a plurality of radial measurement sectors for measuring a distance to a wall of the borehole using an acoustic transducer, wherein the property is sensed by transmitting and receiving signals that travel completely through the sand screen; and a processor configured to identify one of an expanded state and an unexpanded state of the sand screen using the sensed data as a function of distance into the borehole by using the distance measurement from each radial measurement sector at the same distance in the borehole to provide a measure of at least one of tilt or displacement of the base-pipe with respect to the wall of the borehole. 9. The apparatus according to claim 8 , wherein the completion rig is configured to apply more of the activation fluid to the sand screen, apply another type of activation fluid to the sand screen, and/or apply heat to the sand screen in response to the sand screen being in the unexpanded state post-activation of the sand screen, wherein the heat is applied in addition to any previous application of heat. 10. The apparatus according to claim 9 , wherein the completion rig is configured to terminate application of the activation fluid, the another activation fluid, and/or the heat in response to the sand screen being in the expanded state, wherein the application to be terminated is post-activation of the sand screen. 11. The apparatus according to claim 8 , wherein the downhole tool is configured to perform a survey comprising at least one of an inclination and an azimuth. 12. The apparatus according to claim 11 , wherein the downhole tool is configured to perform the survey prior to the base-pipe being disposed in the borehole to provide reference survey data as a function of distance into the borehole. 13. The apparatus according to claim 12 , wherein the downhole tool comprises a centralizer. 14. The apparatus according to claim 12 , wherein the processor is further configured to compare the sensed data to the reference survey data as a function of distance into the borehole and identify a difference between the sensed data and the reference survey data that exceeds a threshold value at a certain distance into the borehole. 15. The apparatus according to claim 8 , wherein the distance measured in each radial measurement sector is derived from time-of-flight of the acoustic signals. 16. The apparatus according to claim 8 , wherein the using comprises comparing the measured distances for the radial measurement sectors at the same distance into the borehole and identifying a difference between the measured distances that exceeds a threshold value at the same distance into the borehole to provide the measure of at least one of tilt or displacement of the base-pipe with respect to the wall of the borehole.