Ratio resource sharing and contention scheme for device-to-device communication in white space spectrum bands

What is claimed is: 1. A method for resource sharing between user terminals in device-to-device communications, comprising: obtaining, at a user terminal, frequency and timing synchronization with adjacent user terminals, through at least one of downlink and uplink synchronization with a base station operating in licensed bands; receiving, at the user terminal, a primary or secondary synchronization signal from the base station to synchronize frequency and timing with the adjacent user terminals; establishing a device-to-device communication in a white space band; partitioning a radio spectrum for device-to-device communication into a radio resource grid including a plurality of resource block sets, the radio spectrum being the white space band; and dividing each resource block set of the plurality of resource block sets in a part of the radio spectrum that is available into a device-to-device common control channel and a device-to-device data channel, wherein the method further includes: setting a virtual central frequency as a reference for the partitioning of the radio spectrum for device-to-device communication into the radio resource grid; configuring a size of the resource block sets by the base station, the resource block sets comprising plurality of resource blocks, a resource block set being a partitioning unit of a two-dimensional radio resource grid of time and frequency corresponding to the radio resource grid; and partitioning the radio resource grid between used, free and unusable radio resources of at least one communication system. 2. The method according to claim 1 , further comprising: causing the user terminal and at least one other user terminal to compete for free radio resources using the device-to-device common control channel of at least one resource block set of the plurality of resource block sets. 3. The method according to claim 2 , wherein in a single resource competition between the user terminal and the at least one other user terminal, data is sent in the following order: a transmission requirement message, a response message, data control information, the data, and acknowledgement information. 4. The method according to claim 1 , further comprising: sensing usage of spectrum by the user terminal when the user terminal is idle; providing the sensed usage of the spectrum to other user terminals to enable sharing of radio resources distributed locally between different device-to-device communication links; and feeding back the sensed usage of the spectrum to the base station for reconfiguring the size of the resource block sets. 5. The method according to claim 4 , further comprising: in case of sensing congestion in a used frequency band, shifting the used frequency band without negotiating with other user terminals so that at least one resource block set of the plurality of resource block sets overlaps between shifted and un-shifted frequency bands; and in case of sensing congestion in the used frequency band and a free frequency band is non-overlapping with the used frequency band, transferring the used frequency band to the free frequency band through a new resource competition procedure. 6. A user terminal that shares resources with other user terminals in device-to-device communications, comprising: circuitry including a processor connected to a memory and configured to: obtain frequency and timing synchronization with adjacent user terminals, through at least one of downlink and uplink synchronization with a base station operating in licensed bands; receive a primary or secondary synchronization signal from the base station to synchronize frequency and timing with the adjacent user terminals; establish a device-to-device communication in a white space band, wherein a radio spectrum for device-to-device communication is partitioned into a radio resource grid including a plurality of resource block sets, the radio spectrum being the white space band; and each resource block set of the plurality of resource block sets in a part of the radio spectrum that is available is partitioned into a device-to-device common control channel and a device-to-device data channel, wherein a virtual central frequency is set as a reference for the partitioning of the radio spectrum for device-to-device communication into the radio resource grid; a size of the resource block sets is set by the base station, the resource block sets comprising plurality of resource blocks, a resource block set being a partitioning unit of a two-dimensional radio resource grid regarding time and frequency corresponding to the radio resource grid; and the radio resource grid is partitioned between used, free and unusable radio resources of at least one communication system. 7. The user terminal according to claim 6 , wherein the set size of the resource block sets is based on interferences by other communication systems or external sources, and available frequency bands. 8. The user terminal according to claim 6 , wherein the circuitry is further configured to: cause the user terminal to compete with at least one other user terminal for free radio resources using the device-to-device common control channel of at least one resource block set of the plurality of resource block sets; and cause the user terminal to transmit a transmission when a clear-to-send information is correctly received by the user terminal. 9. The user terminal according to claim 6 , wherein the circuitry is further configured to: sense a usage of spectrum when the user terminal is idle; provide the sensed usage of the spectrum to other user terminals to enable sharing of radio resources distributed locally between different device-to-device communication links; and feed back the sensed usage of the spectrum to the base station for reconfiguring the size of the resource block sets. 10. The user terminal according to claim 9 , wherein in case of sensing congestion in a used frequency, the circuitry is further configured to shift the used frequency band without negotiating with other user terminals so that at least one resource block set of the plurality of resource block sets overlaps between shifted and un-shifted frequency bands. 11. The user terminal according to claim 9 , wherein in case of sensing congestion in a used frequency band and a free frequency band is non-overlapping with the used frequency band, the circuitry is further configured to transfer the used frequency band to the free frequency band through a new resource competition procedure. 12. The user terminal according to claim 6 , wherein the part of the radio spectrum that is available comprises Television White Spaces and Industrial, Scientific and Medical (ISM) frequency bands. 13. The user terminal according to claim 6 , wherein the device-to-device common control channel of the resource block sets comprises a ready-to-send sub-channel, a clear-to-send sub-channel, a data control information sub-channel and an acknowledgement information sub-channel. 14. The user terminal according to claim 13 , wherein the ready-to-send sub-channel comprises a transmission requirement message from the user terminal to a receiving user terminal, comprising identification (ID) data for both terminals; the clear-to-send sub-channel comprises a response message from the receiving user terminal to the user terminal on at least one resource block set, sent when no transmission requirement message conflict exists in the receiving user terminal and corresponding resource block sets are applicable for use; the data control information sub-channel comprises at least one of data format and buffe