A wellbore system can include a completion assembly having a completion string. The system can also include a service string that can be positioned within an inner diameter of the completion string. A location-sensing component can be positioned on the completion string or the service string. A comm
A wellbore system can include a completion assembly having a completion string. The system can also include a service string that can be positioned within an inner diameter of the completion string. A location-sensing component can be positioned on the completion string or the service string. A communication link communicatively coupled with the location-sensing component can transmit signals representing a stimuli detected by the location-sensing component. A stimuli-producing device can output the stimuli that is detected by the location-sensing component. A stimuli-producing device can be positioned on the other of the completion string or the service string.
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1. A wellbore system, comprising: a completion assembly including a completion string;a service string positionable within an inner diameter of the completion string;a location-sensing component positioned on the completion string or the service string;a communication link communicatively coupled wi
1. A wellbore system, comprising: a completion assembly including a completion string;a service string positionable within an inner diameter of the completion string;a location-sensing component positioned on the completion string or the service string;a communication link communicatively coupled with the location-sensing component for transmitting a signal representing a stimuli detected by the location-sensing component; anda stimuli-producing device positionable on the other of the completion string or the service string for outputting the stimuli that is detectable by the location-sensing component, wherein the stimuli-producing device is a vibration source, and wherein the vibration source includes at least set of offset weights that produce a vibration in response to being spun and also includes at least one drag block that transmits the vibration. 2. The wellbore system of claim 1, wherein the stimuli-producing device is positioned on the service string and the location-sensing component is positioned proximate to the completion string. 3. The wellbore system of claim 2, further comprising a sand control screen positioned around the completion string, the sand control screen including an outer shroud having a groove, wherein the location sensing component is a fiber optic cable, the fiber optic cable being mounted in the groove in the outer shroud. 4. The wellbore system of claim 3, wherein the fiber optic cable is positioned along a length of the completion string for detecting the stimuli along the length of the completion string. 5. The wellbore system of claim 1, wherein the location-sensing component is a fiber optic cable and the communication link is the fiber optic cable. 6. The wellbore system of claim 1, wherein the stimuli-producing device is positioned on the completion string and the location-sensing component is positioned on the service string. 7. The wellbore system of claim 1, wherein the location-sensing component is a plurality of electronic gauges and the communication link is an electric cable. 8. A wellbore system, comprising: a completion tubular; anda location-sensing component positionable proximate to the completion tubular;a stimuli-producing device located on a service string, the service string positionable in an inner diameter of the completion tubular,the location-sensing component communicatively coupled to a surface of a wellbore for detecting a stimuli from the stimuli-producing device and communicating a signal to the surface that represents the stimuli, wherein the stimuli-producing device is a vibration source that includes at least one offset weight that produces a vibration in response to being spun and includes at least one drag block that transmits the vibration. 9. The wellbore system of claim 8, wherein the location-sensing component is a fiber optic cable. 10. The wellbore system of claim 9, further comprising a sand control screen positioned around the completion tubular, the sand control screen including an outer shroud having a groove, the fiber optic cable being mounted in the groove in the outer shroud. 11. The wellbore system of claim 9, wherein the fiber optic cable is positioned along a length of the completion tubular for detecting the stimuli along the length of the completion tubular. 12. A method for determining a position of a service string within a wellbore, the method comprising: producing, by a stimuli-producing device located the service string positioned within a completion assembly, a stimuli;sensing, by a location-sensing component located on the completion assembly, the stimuli;determining, by the location-sensing component, an origin location of the stimuli; andcommunicating to a surface of the wellbore, by a communication link, the origin location of the stimuli, wherein the stimuli-producing device is a vibration source that includes at least one offset weight that produces a vibration in response to being spun and includes at least one drag block that transmits the vibration. 13. The method of claim 12, wherein sensing the stimuli comprises sensing, by an electric gauge, the stimuli and wherein communicating to the surface of the wellbore comprises communicating by an electronic cable. 14. The method of claim 12, wherein sensing the stimuli comprises sensing, by a fiber optic cable, the stimuli and wherein communicating to the surface of the wellbore comprises communicating by the fiber optic cable.
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