Vehicle communication system

The invention claimed is: 1. A communication system for facilitating control over a function of a vehicle, the communication system comprising: a base station positioned in the vehicle; and a mobile communication unit; the base station comprising a first transmitter for transmitting a signal to the mobile communication unit and a first receiver for receiving a signal from the mobile communication unit; the base station being further configured to cause the mobile communication unit to operate in accordance with a limited-response duty cycle, and to cause the mobile communication unit to resume operating in accordance with a high-response duty cycle in response to an occurrence of a predetermined trigger event, wherein the predetermined trigger event comprises a user initiated interaction with the vehicle, wherein the limited-response duty cycle comprises a period of inactivity, during which the mobile communication unit is unable to receive a transmission from the base station, and a period of activity, during which the mobile communication unit is capable of receiving a transmission from the base station, and wherein the high-response duty cycle comprises a period of activity, during which the mobile communication unit is capable of receiving a transmission from the base station. 2. A communication system as claimed in claim 1 , wherein the base station is configured for determining a location of the mobile communication unit relative to the vehicle. 3. A communication system as claimed in claim 1 , wherein the base station is configured to: cause the mobile communication unit to operate in accordance with the limited-response duty cycle in response to a determination that the mobile communication unit is located within the vehicle; and/or cause the mobile communication unit to operate in accordance with the limited-response duty cycle in response to a determination that the mobile communication unit is substantially stationary relative to the vehicle. 4. A communication system as claimed in claim 1 , wherein the predetermined trigger event is based at least in part upon: an opening of a door of the vehicle, a closing of a door of the vehicle, and/or a request to start an engine of the vehicle. 5. A communication system as claimed in claim 1 , wherein the period of inactivity of the limited-response duty cycle is longer in time than a period of activity. 6. A communication system as claimed in claim 1 , wherein the period of activity of the limited-response duty cycle occurs without substantial interruption by a period of inactivity. 7. A communication system as claimed in claim 1 , wherein the base station is configured for determining a location of the mobile communication unit relative to the vehicle based on a time of flight of communications between the mobile communication unit and one or more transceivers positioned in the vehicle. 8. A communication system as claimed in claim 7 , wherein the base station is configured for determining a location of the mobile communication unit relative to the vehicle based on a time of flight of communications between the mobile communication unit and three or more transceivers positioned in the vehicle. 9. A communication system as claimed in claim 8 , wherein the base station is configured for determining a location of the mobile communication unit relative to the vehicle based on a time of flight of communications between the mobile communication unit and four or more transceivers positioned in the vehicle. 10. A communication system as claimed in claim 7 wherein the base station is configured for determining a location of the mobile communication unit relative to the vehicle based on a time of flight of ultra-wide band communications between the mobile communication unit and the at least one transceiver positioned in the vehicle. 11. A communication system as claimed in claim 1 , the mobile communication unit comprising a motion sensor configured to detect movements of the mobile communication unit and to communicate said movements to the base station. 12. A communication system as claimed in claim 11 , wherein a determination that the mobile communication unit is substantially stationary relative to the vehicle is made in dependence on the detected movements communicated from the mobile communication unit to the base station. 13. A method of facilitating control over a function of a vehicle, the method comprising: providing a base station positioned in the vehicle and a mobile communication unit, the base station comprising a first transmitter and a first receiver; transmitting a signal from the first transmitter to the mobile communication unit; receiving a signal from the mobile communication unit; causing the mobile communication unit to operate in accordance with a limited-response duty cycle; and causing the mobile communication unit to resume operating in accordance with a high-response duty cycle in response to an occurrence of a predetermined trigger event, wherein the predetermined trigger event comprises a user initiated interaction with the vehicle, wherein the limited-response duty cycle comprises a period of inactivity, during which the mobile communication unit is unable to receive a transmission, and a period of activity, during which the mobile communication unit is capable of receiving a transmission, and wherein the high-response duty cycle comprises a period of activity, during which the mobile communication unit is capable of receiving a transmission. 14. A method of facilitating control over a function of a vehicle as claimed in claim 13 , further comprising determining a location of the mobile communication unit relative to the vehicle. 15. A method of facilitating control over a function of a vehicle as claimed in claim 14 , further comprising: causing the mobile communication unit to operate in accordance with the limited-response duty cycle in response to a determination that the mobile communication unit is located within the vehicle; and/or causing the mobile communication unit to operate in accordance with the limited response duty cycle in response to a determination that the mobile communication unit is substantially stationary relative to the vehicle. 16. A method of facilitating control over a function of a vehicle as claimed in claim 13 , further comprising determining a location of the mobile communication unit relative to the vehicle based on a time of flight of communications between the mobile communication unit and one or more transceivers positioned in the vehicle. 17. A method of facilitating control over a function of a vehicle as claimed in claim 13 , further comprising determining a location of the mobile communication unit relative to the vehicle based on a time of flight of communications between the mobile communication unit and three or more transceivers positioned in the vehicle. 18. A method of facilitating control over a function of a vehicle as claimed in claim 13 , further comprising determining a location of the mobile communication unit relative to the vehicle based on a time of flight of communications between the mobile communication unit and four or more transceivers positioned in the vehicle. 19. A vehicle having a communication system as claimed in claim 1 . 20. A vehicle adapted to perform a method as claimed in claim 13 .