Fluid conduit with two-way communication

What is claimed is: 1. A fluid conduit having an interior diameter and an exterior wall, the fluid conduit comprising: electronic material printed on the exterior wall of the fluid conduit, the printed electronic material configured to sense at least one operating parameter of the fluid conduit and to provide output signals representing the sensed operating parameter; and an electrical conductor for communicating deposited on the exterior wall of the fluid conduit communicatively coupling the output signals to a controller; wherein the controller includes a wireless two-way communication unit adapted to receive the output signals and transmit the output signals from the wireless two-way communication unit using a two-way communication protocol. 2. The fluid conduit according to claim 1 , wherein the at least one operating parameter of the conduit is selected from a group consisting of the temperature of the conduit wall, the positive or negative pressure acting on the conduit wall, or the integrity of the conduit wall. 3. The fluid conduit according to claim 1 , wherein the printed electronic material produces at least one sensor element configured to sense and provide output signals representing a sensed operating parameter of the fluid conduit. 4. The fluid conduit according to claim 3 , wherein the at least one sensor element is selected from a group consisting of electrical conductors and resistive elements, the electrical conductors and resistive elements combined to form at least one of: a temperature sensor for measuring the temperature of the wall; a strain gauge sensor for measuring the positive or negative pressure acting on the conduit wall; a leak detection sensor, for measuring the integrity of the conduit wall. 5. The fluid conduit according to claim 1 , wherein the electronic material is printed on the conduit wall by at least one of: a flexographic printing process; a gravure printing process; a screen printing process; or a digital printing process. 6. The fluid conduit according to claim 3 , wherein the wireless two-way communication unit includes a BLUETOOTH low energy (BLE) communication transceiver and antenna operating on a BLE communication protocol, the BLE transceiver adapted to transmit the output signals of the at least one sensor element from the antenna using the BLE communication protocol upon receiving a request from a mobile device. 7. A method for sensing at least one operating parameter of a fluid conduit, the fluid conduit including an interior diameter and an exterior wall, the method comprising: printing electronic material on the exterior wall of the fluid conduit, the electronic material used to sense the at least one operating parameter and to provide output signals representing the sensed operating parameter; depositing an electrical conductor for communicating on the exterior wall of the fluid conduit communicatively coupling the output signals to a controller, the controller including a wireless two-way communication unit; and transmitting the output signals from the wireless two-way communication unit using a two-way communication protocol. 8. The method of claim 7 , wherein the at least one operating parameter is selected from a group consisting of the temperature of the conduit wall, the positive or negative pressure acting on the conduit wall and the integrity of the conduit wall. 9. The method of claim 7 , wherein the method further comprises: producing at least one sensor element from the printed electronic material, the sensor element configured to sense and provide output signals representing a sensed operating parameter of the fluid conduit. 10. The method of claim 9 , wherein the method further comprises: selecting the at least one sensor element from a group consisting of electrical conductors and resistive elements, the electrical conductors and resistive elements combined to form at least one of: a temperature sensor for measuring the temperature of the conduit wall; a strain gauge sensor for measuring the positive or negative pressure acting on the conduit wall; and a leak detection sensor for measuring the integrity of the conduit wall. 11. The method according to claim 9 , wherein the two-way communication unit includes a BLUETOOTH low energy (BLE) communication transceiver and antennae operating on a BLE communication protocol, the BLE transceiver adapted to: transmit the output signals of the at least one sensor element from the antennae using the BLE communication protocol upon receiving a request from a mobile device. 12. The method of claim 7 , wherein the method further includes: depositing a protective layer of at least one of an insulating ink, a di-electric ink, a thermoset or cross-linked resin such as epoxy, an insulating resin, a thermoset or cross-linked elastomer, or a thermoplastic elastomer over the printed electronic material, electrical conductor for communicating. 13. A fluid conduit having an interior diameter and an exterior wall, the fluid conduit comprising: at least one sensor element comprised of electronic material printed on the exterior wall of the fluid conduit, the printed electronic material configured to sense at least one operating parameter of the fluid conduit and to provide output signals representing the sensed operating parameter; and a wireless module that includes at least one antenna, the wireless module and antenna attached to the fluid conduit, the wireless module communicatively connected to the at least one sensor element and adapted to transmit the output signals from the antenna using a two-way wireless communication protocol. 14. The fluid conduit according to claim 13 , wherein the fluid conduit further includes a protective layer composed of at least one of an insulating ink, a di-electric ink, a thermoset or cross-linked resin such as epoxy, an insulating resin, a thermoset or cross-linked elastomer, or a thermoplastic elastomer deposited over the printed electronic material, wireless module and antenna. 15. The fluid conduit according to claim 14 , wherein the protective layer is deposited over the entire circumference of the conduit where the printed electronic material, wireless module and antenna are located. 16. The fluid conduit according to claim 13 , wherein the wireless module is a BLUETOOTH low energy (BLE) communication device operating on a BLE communication protocol, the BLE communication device adapted to transmit the output signals representing a sensed operating parameter from the antenna using the BLE communication protocol upon receiving a request from a mobile device.