Radio communication system

What is claimed is: 1 . A positioning system comprising: a network of first access points and second access points, wherein: each first access point is configured for bi-directional communication, using a first radio protocol, with a communication device that has been associated with the first access point by an association data exchange, wherein the first radio protocol conforms to, or is compatible with, one of the IEEE 802.11 standards; each first access point is further configured to receive, at a first data rate using the first radio protocol, a multicast radio message from a wireless communication unit that is not associated with the first access point, and to forward the message onto the network; each second access point is configured for two-way communication using a second radio protocol which is different from the first radio protocol; and each second access point is configured to transmit data comprising control messages, addressed to one or more specific wireless communication units, at a second data rate which is lower than the first data rate, using the second radio protocol; a wireless communication unit: comprising a radio transmitter configured to transmit a multicast radio message at the first data rate using the first radio protocol, wherein the multicast radio message comprises (i) identification information relating to the wireless communication unit, and (ii) information relating to the position of the wireless communication unit, or information from which the position of the wireless communication unit can be derived; comprising a radio receiver configured to receive and decode a control message from one of said second access points, received at the second data rate using the second radio protocol; and a server configured to: receive and process the multicast message from the wireless communication unit, forwarded to the server by one of the first access points, to determine the position of the wireless communication unit; and control the sending of the control messages from the second access points. 2 . The positioning system of claim 1 , wherein the first access points and the second access points are connected to one another by a wired network. 3 . The positioning system of claim 1 , wherein a maximum data rate supported by the second protocol is less than a minimum data rate supported by the first protocol. 4 . The positioning system of claim 1 , wherein each of the second access points has an effective transmission range that is greater than a greatest effective transmission ranges of any of the first access points, when each first access point is communicating with a communication device associated with the first access point. 5 . The positioning system of claim 1 , wherein: the wireless communication unit comprises a clock; the positioning system is configured to send clock-synchronization information from one of the second access points, at the second data rate using the second radio protocol; and the wireless communication unit is configured to use said clock-synchronization information to synchronize the clock of the wireless communication unit. 6 . The positioning system of claim 1 , wherein the wireless communication unit is configured to communicate (i) a wireless-communication-unit identifier, and (ii) a zone identifier, in said multicast radio message. 7 . The positioning system of claim 1 , wherein the wireless communication unit comprises a second radio transmitter configured to transmit messages using the second radio protocol. 8 . A positioning system comprising: a network comprising a plurality of first-radio-protocol access points and a second-radio-protocol radio transmitter, wherein: each of the first-radio-protocol access points is configured for bi-directional communication, using a first radio protocol, with communication devices that have been associated with the first-radio-protocol access point by an association data exchange, wherein the first radio protocol conforms to, or is compatible with, one of the IEEE 802.11 standards; each of the first-radio-protocol access points is further configured to receive, at a first data rate using the first radio protocol, a multicast radio message from a wireless communication unit that is not associated with the first-radio-protocol access point, and to forward the message onto the network; and the second-radio-protocol radio transmitter is configured to send data at a second data rate which is lower than the first data rate, using a second radio protocol which is different from the first radio protocol; a wireless communication unit: comprising a first-radio-protocol radio transmitter configured to transmit a multicast radio message at the first data rate using the first radio protocol, wherein the multicast radio message comprises (i) identification information relating to the wireless communication unit, and (ii) information relating to the position of the wireless communication unit, or information from which the position of the wireless communication unit can be derived; and comprising a second-radio-protocol radio receiver configured to receive synchronization information from said second-radio-protocol radio transmitter using the second radio protocol, and configured to use said synchronization information for time synchronization; and a server configured to: receive and process the multicast message from the wireless communication unit, forwarded to the server by one of the first access points, to determine the position of the wireless communication unit. 9 . The positioning system of claim 8 , configured to broadcast synchronization information from the second-radio-protocol radio transmitter to a plurality of wireless communication devices. 10 . The positioning system of claim 8 , wherein: the wireless communication unit comprises a clock; the positioning system is configured to send clock synchronization information from the second-radio-protocol radio transmitter, at the second data rate using the second radio protocol; and the wireless communication unit is configured to use said clock synchronization information to synchronize the clock of the wireless communication unit. 11 . The positioning system of claim 8 , wherein the wireless communication unit comprises a second-radio-protocol radio transmitter configured to transmit messages using the second radio protocol. 12 . A wireless communication unit comprising: a first radio transmitter configured to transmit a multicast radio message at a first data rate using a first radio protocol to a plurality of first access points, wherein the wireless communication unit is not associated with any of the first access points, wherein the first radio protocol conforms to, or is compatible with, one of the IEEE 802.11 standards, and wherein the multicast radio message includes (i) identification information relating to the wireless communication unit, and (ii) information relating to the position of the wireless communication unit, or from which the position of the wireless communication unit can be derived; a second radio transmitter, configured to transmit messages to a second access point using a second radio protocol which is different from the first radio protocol; and a radio receiver configured to receive and decode a control message, addressed to the wireless communication unit, from the second access point at a second data rate which is lower than the first data rate, using the second radio protocol, the wireless communication unit being configured to execute a function in response to receiving the control message. 13 . The wireless communication