Improvements to short-range wireless networks

The invention claimed is: 1. A wireless medical sensor network of devices including at least one duty-cycling medical sensor, at least one other non-medical duty-cycling device and a coordinator device, the at least one duty-cycling medical sensor comprising: sensing means operable to detect values of a life parameter of a patient; transmission and reception means for wireless communication with other devices in the network; and sensor control means operable to control a sleep pattern of the sensor; and the coordinator device comprising transmission and reception means for wireless communication with other devices in the network; wherein a plurality of predefined sleep patterns is provided, the choice of a suitable sleep pattern being determined according to a number of life parameter value thresholds, each threshold defining a boundary between a lower wake-up and a higher wake-up sleep pattern; wherein the sensor transmission means is operable to transmit value information as to the life parameter and the coordinator device transmission means is operable to transmit an indication of a suitable sensor sleep pattern determined centrally by comparing the transmitted value information with the thresholds for the life parameter; and wherein the coordinator device is operable to transmit suitable sleep patterns for each of the duty-cycling devices, a suitable sleep pattern transmitted to at least one non-medical duty-cycling device additionally taking into account at least one external factor not related to that non-medical duty-cycling device, in the form of the number of the medical sensor devices in the network in a predefined emergency state. 2. A network according to claim 1 , wherein one such external factor is based on the value information. 3. A network according to claim 1 , wherein each duty-cycling device has a priority, which determines to what extent, if at all, the coordinator device takes any external factors into account to determine its suitable sleep pattern. 4. A network according to claim 1 , wherein the coordinator device further comprises determining means operable to determine the suitable sleep pattern or wherein the coordinator device reception means is operable to receive the suitable sleep pattern from a central monitoring unit, which is in wired or wireless communication with the coordinator device. 5. A network according to claim 1 , wherein the coordinator device transmission means is operable to transmit the indication in at least one control field of a transmission frame, preferably using a value set in the MAC header, such as in the frame control field to a predetermined value. 6. A network according to claim 1 , wherein the sensor further comprises a battery and wherein the sensor control means is operable to control the sleep pattern taking into account both the indication and a current battery charge. 7. A network according to claim 6 , wherein the sensor control means allows or rejects suitable sleep patterns according to at least one predefined limit of acceptable battery charge, and preferably overrides any rejected suitable sleep pattern with a lower wake-up sleep pattern. 8. A network according to claim 6 , wherein the sensor transmission means is operable to transmit battery charge information relating to the battery charge, preferably in a control field of a transmission frame in the form of a value set in the MAC header, such as the frame control field to a predetermined value. 9. A network according to claim 8 , wherein the coordinator device reception means is operable to receive the battery charge information and wherein the coordinator device comprises response means operable to respond to a predefined value of charge information by taking action with respect to the battery. 10. A network according to claim 1 , wherein the thresholds include a first threshold defining a boundary between a non-medical device and a medical device in a normal situation, a second threshold defining a boundary between a normal and a slightly abnormal situation and a third threshold defining a boundary between a slightly abnormal and an emergency situation. 11. A coordinator device in a wireless medical sensor network of devices including at least one duty-cycling medical sensor, at least one other non-medical duty-cycling device and the coordinator device, the coordinator device comprising: reception means operable to receive value information from the at least one sensor as to the detected values of a life parameter of a patient; determining means operable to determine a suitable sleep pattern for the sensor by comparing the received value information with thresholds for the life parameter; wherein a plurality of predefined sleep patterns is provided, the choice of a suitable sleep pattern being determined according to a number of life parameter value thresholds, each threshold defining a boundary between a lower wake-up and a higher wake-up sleep pattern; and transmission means operable to transmit an indication of the suitable sleep pattern; wherein the coordinator device is operable to transmit suitable sleep patterns for each of the duty-cycling devices, a suitable sleep pattern transmitted to at least one non-medical duty-cycling device additionally taking into account at least one external factor not related to that non-medical duty-cycling device, in the form of the number of the medical sensor devices in the network in a predefined emergency state. 12. A duty-cycling medical sensor in a wireless medical sensor network of devices including at least one duty-cycling medical sensor, at least one other non-medical duty-cycling device and a coordinator device, the sensor comprising: sensing means operable to detect values of a life parameter of a patient; sensor control means operable to control a sleep pattern of the sensor; transmission means operable to transmit value information as to the life parameter; and reception means operable to receive an indication of a suitable sensor sleep pattern determined centrally by comparing the transmitted value information with thresholds for the life parameter; wherein a plurality of predefined sleep patterns is provided, the choice of a suitable sleep pattern being determined according to a number of life parameter value thresholds, each threshold defining a boundary between a lower wake-up and a higher wake-up sleep pattern, with a first threshold defining a boundary between a non-medical device and a medical device in a normal situation, a second threshold defining a boundary between a normal and a slightly abnormal situation and a third threshold defining a boundary between a slightly abnormal and an emergency situation; and the sensor control means control the sleep pattern of the sensor taking the suitable sensor sleep pattern into account. 13. A central monitoring unit, which is in wired or wireless communication with a wireless medical sensor network of devices including at least one duty-cycling medical sensor, at least one other non-medical duty-cycling device and a coordinator device, the central monitoring unit comprising: determining means operable to determine a suitable sleep pattern for the sensor by comparing value information as to at least one life parameter of at least one patient, the value information transmitted by the sensor, with thresholds for the at least one life parameter; and communication means operable to send an indication of the suitable sleep pattern to a device of the network; wherein a plurality of predefined sleep patterns is provided, the choice of a suitable sleep pattern being determined according to a number of life parameter value thres