Wireless control systems and methods for aircraft seating systems

What is claimed is: 1. An electromechanical actuation system for an aircraft passenger suite comprising: a plurality of aircraft suite actuators for allowing passenger-initiated adjustment of a passenger seat and one or more passenger suite components; and a plurality of line replacement units, including a respective line replacement unit of the plurality of line replacement units coupled to each of the plurality of aircraft suite actuators, the line replacement units including control circuitry configured to receive a passenger-initiated adjustment request for adjusting at least one of the passenger seat and the one or more passenger suite components, and control actuation of one or more associated aircraft suite actuator of the plurality of aircraft suite actuators in response to the passenger-initiated adjustment request, and wireless communication circuitry configured to initiate wireless communication links with one or more line replacement units coupled to each of the plurality of aircraft suite actuators to create a wireless communication network connecting the plurality of line replacement units, establish master or slave relationships with the plurality of replacement units based on at least one of properties of the wireless communication links and properties of aircraft suite actuators coupled to the plurality of replacement units, and communicate actuation commands from the control circuitry between the plurality of line replacement units via the wireless communication links corresponding to the passenger-initiated adjustment request. 2. The electromechanical actuation system of claim 1 , wherein: the one or more passenger suite components comprise at least one shared component configured for control by two passengers of two adjacent passenger suites; and establishing master or slave relationships with the plurality of line replacement units comprises establishing an associated line replacement unit of the plurality of replacement units associated with the at least one shared component as a master line replacement unit of a first suite of the two adjacent passenger suites such that, when a first passenger of the two passengers issues a command for actuating the at least one shared component, a second passenger of the two passengers is unable to issue a conflicting command. 3. The electromechanical actuation system of claim 2 , wherein establishing the associated line replacement unit as the master line replacement unit comprises establishing the associated line replacement unit as the master line replacement unit responsive to receiving the command for actuating the at least one shared component. 4. The electromechanical actuation system of claim 2 , wherein the at least one shared component comprises a shared privacy panel. 5. The electromechanical actuation system of claim 1 , wherein: the plurality of aircraft suite actuators comprises a seat reclining actuator, a seat pan actuator, and a foot rest actuator; the passenger-initiated adjustment request comprises a preset seating position; and responsive to the passenger-initiated adjustment request, the control circuitry controls actuation of the seat reclining actuator, the seat pan actuator, and the foot rest actuator to move the passenger seat into the preset seating position. 6. The electromechanical actuation system of claim 5 , wherein the control circuitry is further configured to: receive an emergency override; and responsive to the emergency override, control actuation of the seat reclining actuator, the seat pan actuator, and the foot rest actuator to move the passenger seat into a taxi takeoff and landing (TTOL) position. 7. The electromechanical actuation system of claim 1 , wherein the wireless communication network is a Bluetooth Personal Area Network. 8. The electromechanical actuation system of claim 1 , wherein establishing master or slave relationships with the plurality of line replacement units comprises establishing a plurality of localized networks into a scatternet by connecting, by one or more line replacement units of the plurality of line replacement units, the plurality of localized networks. 9. The electromechanical actuation system of claim 8 , wherein: establishing master or slave relationships with the plurality of line replacement units comprises establishing at least one line replacement unit of the plurality of line replacement units as a seat control module; and controlling actuation of the at least one aircraft suite actuator of the plurality of aircraft suite actuators comprises coordinating actuation, by the seat control module, of two or more aircraft suite actuators of the plurality of aircraft suite actuators. 10. The electromechanical actuation system of claim 9 , wherein coordinating actuation comprises: receiving an intermediate status message from a first actuator of the two or more aircraft suite actuators; and responsive to the intermediate status message, communicating information regarding the intermediate status message to a second actuator of the two or more aircraft suite actuators; wherein actuation of the second actuator depends upon a position of the first actuator. 11. The electromechanical actuation system of claim 1 , wherein the properties of the wireless communication links comprise at least one of frequency of interference and time of connection to the wireless communication network. 12. The electromechanical actuation system of claim 1 , wherein the properties of aircraft suite actuators comprise at least one of location within an aircraft compartment and shared status with multiple passengers. 13. An electromechanical actuation system for passenger-initiated adjustment of a plurality of aircraft components, the electromechanical actuation system comprising: a plurality of actuators for allowing passenger-initiated adjustment of the plurality of aircraft components, wherein the plurality of aircraft components comprise at least one of a passenger seat, a lighting fixture, and a suite partition; a plurality of control units, each control unit including short range wireless communication circuitry for communicating with additional control units of the plurality of control units, and control circuitry for causing actuation of one or more associated actuators of the plurality of aircraft suite actuators, wherein a first control unit of the plurality of control units comprises a user interface for receiving a plurality of passenger input commands; wherein the control circuitry of the first control unit is configured to initiate wireless communication links with a first portion of the plurality of control units to establish a short-range wireless communication network, wherein a second portion of the plurality of control units is in communication with the first control unit via a bridge unit of the second portion of the plurality of control units, receive a passenger input command of the plurality of passenger input commands, communicate, responsive to the passenger input command, one or more actuation commands to one or more control units of the first portion of the plurality of control units via the wireless communication links, and receive, from at least one of the one or more control units, one or more status/position messages communicating information regarding movement of corresponding actuators of the plurality of actuators caused by the at least one control unit. 14. The electromechanical actuation system of claim 13 , wherein the one or more status/position messages comprise a message identifying movement to a predetermined position corresponding to the passenger