Collision mitigation in low-power, frequency-hopping, wide-area network

The invention claimed is: 1. A wireless communication network comprising a plurality of radio transmitting devices and at least one receiving gateway, the transmitting devices, being arranged to modulate a carrier and, processing modulated signals into a spread spectrum radio signal by switching a frequency of the carrier among several hopping frequencies in the frequency band, according to a sequence, and transmitting the radio signals through a radio interface, the receiving gateway being arranged for receiving radio signals from said radio transmitting devices, for predicting whether received modulated radio signals will collide in frequency in a collision time interval, and for blanking or weighting the radio signals in the collision time interval. 2. The wireless communication network of claim 1 , wherein the receiving gateway maintains an interference map forecasting received signal level as a function of time and frequency, wherein the receiving gateway is arranged to detect the radio signal, measure a signal level of the radio signal, determine its hopping sequence, and fill bins of the interference map corresponding to expected times and frequencies of future packets with the signal level. 3. The wireless communication network of claim 2 , wherein the receiving gateway is arranged to measure the signal level of a plurality of packets in a hopping sequence that are free from interference, and to adapt the interference map based on a measured instantaneous signal level. 4. The wireless communication network of claim 2 , wherein the receiving gateway is arranged to determine interference originating from other sources by comparing the radio signals received with the interference map. 5. The wireless communication network of claim 1 , comprising a plurality of receiving gateways, operatively arranged for receiving in collaboration a same radio signal from a transmitting node. 6. The wireless communication network of claim 1 , wherein the radio interface in the transmitting devices operates in a predetermined frequency band comprising a plurality of contiguous or separated transmission sub-bands, the transmitting devices comprising a local frequency reference, and being operatively arranged for: obtaining a synchronization status indicative of a frequency error of the local frequency reference, adapting a width of the sub-bands in dependence of the synchronization status. 7. The wireless communication network of claim 6 , wherein a width of the transmission sub-band is adapted as a function of the frequency error such that, the higher the frequency error indicated by the synchronization status, the narrower an adapted width is. 8. The wireless communication network of claim 6 , wherein the synchronization status is obtained based on one or more of: nominal error of the local frequency reference; drift of the local frequency reference; time elapsed since a downlink and/or a correction of the local frequency reference. 9. The wireless communication network of claim 7 , wherein the receiving gateway is operatively arranged for demodulating signal in received sub-bands that are larger than the adapted width of the transmission sub-bands. 10. The wireless communication network of claim 1 , wherein the hopping frequencies belong to several sub-bands. 11. The wireless communication network of claim 1 , wherein transmitters transmit an element of information on a first hopping frequency of a sequence.