Radio communication system

What is claimed is: 1 - 41 . (canceled) 42 . A temperature monitoring system comprising: a network comprising a plurality of Wi-Fi access points, each Wi-Fi access point being configured for bi-directional Wi-Fi communication with devices that are associated with the Wi-Fi access points, wherein each Wi-Fi access point is further configured to receive messages by radio from devices that are not associated with the Wi-Fi access points and to forward the messages onto the network; a non-Wi-Fi radio transmitter configured to transmit radio data using a non-Wi-Fi radio protocol; and a wireless temperature-sensing unit, wherein the wireless temperature-sensing unit comprises: a temperature sensor; a radio transmitter configured to transmit radio messages comprising temperature information derived from the temperature sensor for reception by one or more of the Wi-Fi access points, wherein the wireless temperature-sensing unit is not associated with the one or more Wi-Fi access points; and a radio receiver configured to receive and decode command data transmitted by the non-Wi-Fi radio transmitter using the non-Wi-Fi radio protocol. 43 . The temperature monitoring system of claim 42 , wherein the radio messages comprising temperature information, transmitted by the radio transmitter of the wireless temperature-sensing unit, are multicast radio messages. 44 . The temperature monitoring system of claim 42 , wherein the radio transmitter of the wireless temperature-sensing unit is configured to transmit the radio messages comprising temperature information at a first data rate, and wherein the radio receiver of the wireless temperature-sensing unit is configured to receive the command data at a second data rate, wherein the second data rate is lower than the first data rate. 45 . The temperature monitoring system of claim 44 , wherein the second data rate is less than half the first data rate. 46 . The temperature monitoring system of claim 42 , wherein the Wi-Fi access points are connected to one another by a wired network. 47 . The temperature monitoring system of claim 46 , wherein the non-Wi-Fi radio transmitter is also connected to the wired network. 48 . The temperature monitoring system of claim 42 , wherein a maximum data rate supported by the non-Wi-Fi radio protocol is less than a minimum data rate supported by a Wi-Fi protocol used by the Wi-Fi access points. 49 . The temperature monitoring system of claim 42 , wherein an effective transmission range of the non-Wi-Fi radio transmitter is greater than effective transmission ranges of the Wi-Fi access points when each Wi-Fi access point is communicating with a device associated with the Wi-Fi access point. 50 . The temperature monitoring system of claim 42 , comprising a plurality of non-Wi-Fi radio transmitters each configured to send radio data using the non-Wi-Fi radio protocol, and arranged to form a network of non-Wi-Fi access points for devices communicating using the non-Wi-Fi radio protocol. 51 . The temperature monitoring system of claim 42 , comprising a server configured to receive and process the temperature information forwarded from the wireless temperature-sensing unit by one of the Wi-Fi access points. 52 . The temperature monitoring system of claim 51 , wherein the server is further configured to control the non-Wi-Fi radio transmitter to transmit the command data to the wireless temperature-sensing unit. 53 . The temperature monitoring system of claim 42 , wherein the wireless temperature-sensing unit is configured to execute a function in response to receiving the command data transmitted by the non-Wi-Fi radio transmitter. 54 . The temperature monitoring system of claim 42 , wherein the wireless temperature-sensing unit is configured to have a sleep mode and a wake mode, whereby at least some circuitry in the radio receiver or in the radio transmitter or in a processor of the wireless temperature-sensing unit is inactive in the sleep mode, so as to reduce a power consumption of the wireless temperature-sensing unit, and is further configured to switch from sleep mode to wake mode on receiving a wake signal from the non-Wi-Fi radio transmitter. 55 . The temperature monitoring system of claim 42 , wherein the wireless temperature-sensing unit is configured to be carried by or attached to a movable object. 56 . The temperature monitoring system of claim 42 , wherein the wireless temperature-sensing unit is further configured to transmit information relating to a position of the wireless temperature-sensing unit, or information from which a position of the wireless temperature-sensing unit can be derived, in a radio message for reception by one or more of the Wi-Fi access points. 57 . The temperature monitoring system of claim 56 , wherein said position information is derived from a signal received by the wireless temperature-sensing unit from the non-Wi-Fi radio transmitter. 58 . The temperature monitoring system of claim 42 , wherein the wireless temperature-sensing unit comprises a power amplifier and an antenna and is configured to use the antenna and the power amplifier for transmitting radio messages for reception by one or more of the Wi-Fi access points and for receiving data from the non-Wi-Fi radio transmitter. 59 . The temperature monitoring system of claim 42 , comprising a plurality of wireless temperature-sensing units each comprising a radio transmitter configured to transmit radio messages comprising temperature information for reception by a respective one or more of the Wi-Fi access points, and further comprising a radio receiver configured to receive and decode command data transmitted by the non-Wi-Fi radio transmitter using the non-Wi-Fi radio protocol. 60 . A wireless temperature-sensing unit comprising: a temperature sensor; a radio transmitter configured to transmit radio messages comprising temperature information derived from the temperature sensor for reception by one or more Wi-Fi access points, wherein the wireless temperature-sensing unit is not associated with the one or more Wi-Fi access points; and a radio receiver configured to receive and decode command data transmitted by a non-Wi-Fi radio transmitter using a non-Wi-Fi radio protocol. 61 . A method of sensing temperature using a wireless temperature-sensing unit, the method comprising: receiving and decoding a command from a non-Wi-Fi radio transmitter, using a non-Wi-Fi radio protocol, at a radio receiver of the wireless temperature-sensing unit; sensing a temperature using a temperature sensor of the wireless temperature-sensing unit; and transmitting a radio message comprising temperature information derived from the temperature sensor for reception by one or more Wi-Fi access points from a radio transmitter of the wireless temperature-sensing unit, wherein the wireless temperature-sensing unit is not associated with the one or more Wi-Fi access points.