Systems and methods for assembling a wellhead

What is claimed is: 1. A wellhead system, comprising: a tubing or casing hanger to be installed in a wellhead, the tubing or casing hanger comprising an outer surface including a landing profile configured to engage a mating landing profile of the wellhead; a landing sensor configured to transmit a signal indicating contact between the landing profile of the tubing or casing hanger and the landing profile of the wellhead, wherein the landing sensor comprises a flexible switch biased into a position protruding from the outer surface of the tubing or casing hanger and wherein the landing sensor is configured to flex into contact with an electrical contact in response to the landing profile of the tubing or casing hanger contacting the landing profile of the wellhead; and a processor configured to receive the signal transmitted by the landing sensor. 2. The wellhead system of claim 1 , wherein the landing sensor is disposed on the landing profile of the tubing or casing hanger. 3. The wellhead system of claim 1 , further comprising a plurality of landing sensors disposed on the landing profile of the tubing or casing hanger, each landing sensor configured to transmit a signal indicating contact between the landing profile of the tubing or casing hanger and the landing profile of the wellhead. 4. The wellhead system of claim 3 , wherein, in response to only a portion of the landing sensors transmitting signals indicating contact between the landing profile of the tubing or casing hanger and the landing profile of the wellhead, the processor is configured to transmit a signal indicating an angular misalignment between a longitudinal axis of the tubing or casing hanger and a longitudinal axis of the wellhead. 5. The wellhead system of claim 1 , further comprising: a plurality of alignment sensors circumferentially spaced about an outer surface of a tool coupled to the tubing or casing hanger, the tool configured to install the tubing or casing hanger in the wellhead; wherein each alignment sensor is configured to transmit a signal indicating a distance between the outer surface of the tool and an inner surface of the wellhead; wherein the processor is configured to receive the signals transmitted by the plurality of alignment sensors. 6. A wellhead system, comprising: a tool configured to install a tubing or casing hanger in a wellhead; a plurality of alignment sensors circumferentially spaced about an outer surface of the tool, wherein each alignment sensor is configured to transmit a signal indicating a distance between the outer surface of the tool and an inner surface of the wellhead; and a processor coupled to the tool and in signal communication with the plurality of alignment sensors, the processor configured to receive the signals transmitted by the plurality of alignment sensor; wherein, in response to one of the plurality of alignment sensors transmitting a signal indicating a first distance between the outer surface of the tool and the inner surface of the wellhead and another one of the plurality of alignment sensors transmitting a signal indicating a second distance between the outer surface of the tool and the inner surface of the wellhead, where the first distance is different than the second distance, the processor is configured to transmit a signal indicating a radial misalignment between a longitudinal axis of the tubing or casing hanger and a longitudinal axis of the wellhead. 7. The wellhead system of claim 6 , wherein each of the plurality of alignment sensors are disposed on an outer surface of the tool. 8. The wellhead system of claim 6 , wherein each of the plurality of alignment sensors are disposed on an inner surface of the wellhead. 9. The wellhead system of claim 6 , wherein each of the plurality of alignment sensors comprises: a contactor biased away from the outer surface of the tool by a first biasing member; and a sensor pin biased into engagement with the contactor by a second biasing member, the sensor pin at least partially disposed in a linear variable differential transformer; wherein the linear variable differential transformer is configured to transmit a signal indicating the position of the sensor pin within the linear variable differential transformer. 10. The wellhead system of claim 6 , wherein each of the plurality of alignment sensors comprises a proximity sensor. 11. The wellhead system of claim 6 , further comprising a plurality of landing sensors disposed on a landing profile of the tubing or casing hanger, each landing sensor configured to transmit a signal indicating contact between the landing profile of the tubing or casing hanger and a landing profile of the wellhead. 12. A method of assembling a wellhead, comprising: disposing a tool in the wellhead, the tool configured to install a tubing or casing hanger in the wellhead; measuring a radial distance between an outer surface of the tool and an inner surface of the wellhead using an alignment sensor; transmitting a signal corresponding to the measured radial distance from the alignment sensor to a processor coupled to the tool; transmitting a signal indicating contact between a landing profile of the tubing or casing higher and a landing profile of the wellhead to the processor using a landing sensor; and transmitting a signal from the processor indicating an angular misalignment between a longitudinal axis of the tubing or casing hanger and a longitudinal axis of the wellhead. 13. The method of claim 12 , further comprising: measuring a plurality of radial distances between the outer surface of the tool and the inner surface of the wellhead using a plurality of alignment sensors spaced circumferentially about the tool; and transmitting a plurality of signals corresponding to the measured radial distances from the alignment sensors to the processor. 14. The method of claim 13 , further comprising transmitting a signal from the processor indicating a radial misalignment between a longitudinal axis of the tubing or casing hanger and a longitudinal axis of the wellhead.