Master Communication Tool for Distributed Network of Wireless Communication Devices

1 . A method of communicating with downhole equipment in a borehole, comprising: exchanging messages between a surface control system and downhole equipment to control performance of a downhole operation, wherein the messages are exchanged via a first communications path that includes a wireless communications path between a plurality of wireless devices provided along a tubing in the borehole; in response to an inability to exchange messages via the first communications path while performing the downhole operation, deploying a master communications device to establish an alternative communications path between the surface control system and the downhole equipment, the alternative communications path including a wireless communication link between the master communications device and a first wireless device of the plurality of wireless devices; and continuing performing the downhole operation using the alternative communications path to exchange messages between the surface control system and the downhole equipment to control the downhole operation. 2 . The method as recited in claim 1 , wherein the master communications device is deployed in the borehole. 3 . The method as recited in claim 2 , wherein deploying the master communications device comprises: positioning the master communications device at a first location in the borehole; and moving the master communications device to a second location in the borehole if the alternative communications path cannot be established at the first location. 4 . The method as recited in claim 3 , wherein the first location corresponds to a wireless range of the first wireless device, and the second location corresponds to a wireless range of a second wireless device of the plurality of wireless devices. 5 . The method as recited in claim 1 , wherein the master communications device is acoustically coupled to the first wireless device and electrically coupled to the control system. 6 . The method as recited in claim 1 , wherein a second wireless device of the plurality of wireless devices is acoustically coupled to the first wireless device and electrically coupled to the control system. 7 . A method, comprising: establishing an acoustic communications path between equipment and a control system, the acoustic communications path comprising a plurality of acoustic modems deployed along a conduit; communicating messages via the acoustic communications path between the equipment and the control system; establishing a different communications path between the equipment and the control system, the different communications path comprising at least a first acoustic modem and a second acoustic modem of the plurality of the acoustic modems and a wireless communications link between a mobile master modem located within a wireless range of one of the first acoustic modem and the second acoustic modem; and communicating messages via the different communications path between the equipment and the control system. 8 . The method as recited in claim 7 , wherein the wireless communications link between the mobile master modem and the first acoustic modem is an acoustic communications link. 9 . The method as recited in claim 7 , further comprising: initiating deployment of the conduit in a wellbore; stopping the deployment of the conduit when a subset of the acoustic modems is positioned in the wellbore; deploying the mobile master modem in the wellbore; establishing a temporary communications path between the equipment and the control system to communicate messages via the temporary communications path while the deployment is stopped, wherein the temporary communications path comprises the mobile master modem and at least one acoustic modem of the subset of the acoustic modems; and continuing deployment of the conduit in the wellbore, wherein the temporary communications path is established before the acoustic communications path has been initialized. 10 . The method as recited in claim 9 , further comprising: moving the mobile master modem outside of a wireless range of the acoustic modems; and communicating messages between equipment and the control system via the acoustic communications path. 11 . The method as recited in claim 9 , wherein the equipment comprises a sensor to monitor at least one of pressure and temperature in the wellbore. 12 . The method as recited in claim 7 , further comprising: performing an operation while communicating messages between the equipment and the control system via the acoustic communications path; in response to an inability to communicate messages between the equipment and the control system, establishing the different communications path; and continuing performance of the operation by communicating messages between the equipment and the control system via the different communications path. 13 . The method as recited in claim 7 , wherein the mobile master modem is electrically coupled to the control system. 14 . A communication system for communicating with downhole equipment in a wellbore, comprising: a control system to exchange messages with the downhole equipment to control performance of a downhole operation; a network of wireless modems located along a tubing deployed in the wellbore, the network providing a primary communications path between the control system and the downhole equipment, wherein a message from the downhole equipment is wirelessly received on the primary communications path by at least a first modem and wirelessly repeated on the primary communications path by at least a second modem of the network; and a mobile master modem in communication with the control system wherein when the mobile master modem is moved within a wireless range of one of the first and second modems in response to detection of a failure of the primary communications path during performance of the downhole operation, a wireless communications link is established between the mobile master modem and the corresponding one of the first and second modems so that messages between the downhole equipment and the control system for controlling the downhole operation are transmitted through the mobile master modem and bypass at least a portion of the primary communications path. 15 . The system as recited in claim 14 , wherein the primary communications path is acoustic communications path. 16 . The system as recited in claim 14 , wherein the wireless communications link is an acoustic communications link. 17 . The system as recited in claim 14 , wherein the mobile master modem is electrically connected to the control system. 18 . The system as recited in claim 14 , wherein the wellbore penetrates a hydrocarbon-bearing formation, and wherein the downhole equipment comprises one of a sensor to monitor pressure in the wellbore and a valve to control fluid flow through the conduit. 19 . The system as recited in claim 18 , wherein the wellbore extends through a seabed and into the hydrocarbon-bearing formation.