Method of dynamic allocation of shared resources in a time-frequency plan and associated device

The invention claimed is: 1. A computer-implemented method of dynamic allocation of shared resources in a communication network including a plurality of receivers, the computer-implemented method being executed by a resource allocation device, the method comprising: defining, at a resource allocation device, in a time-frequency plan, a superframe of a given duration ΔT and a given spectral width Δf, including at least one frame, defining, at the resource allocation device, a regular time-frequency grid, of which one square, referred to as a time-frequency unit, constitutes the smallest time and frequency interval allocatable to a user at the at least one receiver of said communication network within said frame, and reserving, at the resource allocation device, on each carrier frequency of a frame, at least one block of a number K, greater than or equal to 1, of time-frequency units which can be dynamically allocated to a user for communication or for synchronization, wherein the number of time-frequency units per frame allocated for synchronization is at least equal to the minimum number N u of time-frequency units per frame required to provide the synchronization of all connected users, this minimum number N u being equal to the rounded value of the ratio of the duration of a superframe to the synchronization period of the user, multiplied by the number of users connected to the communication network, and transmitting, by the resource allocation device, to at least a receiver an information regarding the allocation of at least one time-frequency unit for communication and at least one time-frequency unit for synchronization to the receiver. 2. The dynamic allocation method according to claim 1 , in which a number N B of blocks of K time-frequency units is reserved in a frame for the synchronization of users, this number N B being equal to the whole part in excess of the ratio between said minimum number N u of time-frequency units per frame required to provide the synchronization of all connected users and the number K of time-frequency units per block, the other blocks of K time-frequency units being reserved for the communication of users. 3. The dynamic allocation method according to claim 2 , in which the blocks of K time-frequency units reserved for the synchronization of users are distributed in a regular manner among all of the carrier frequencies of a frame. 4. The dynamic allocation method according to claim 2 , in which, in the blocks of K time-frequency units reserved for the synchronization of users, a number N u of time-frequency units is allocated to synchronization via access reserved for a user, said number N u being equal to the minimum number of time-frequency units per frame necessary to provide the synchronization of all connected users, the remaining time-frequency units within said blocks being allocated to the synchronization of users via random access or to the communication of users. 5. The dynamic allocation method according to claim 1 , in which said blocks reserved for the synchronization of users are positioned at the carrier end. 6. The dynamic allocation method according to claim 1 , in which a block of K time-frequency units reserved for the communication of users is combined to form a communication unit. 7. The dynamic allocation method according to claim 1 , in which a superframe is made up of the concatenation of at least one first frame composed entirely of time-frequency units allocated to the communication of users, and a second frame composed of said blocks of K time-frequency units reserved on each carrier frequency in order to be dynamically allocated to a user for communication or for synchronization. 8. The dynamic allocation method according to claim 1 , in which the configuration of the allocation of the time-frequency units of each frame of a superframe to communication or to synchronization is transmitted to the users periodically, with a period equal to the duration of a superframe. 9. The dynamic allocation method according to claim 1 , in which the number K of time-frequency units per block is equal to 6 and can be broken down into 6 units allocated to the synchronization of users or 3 units allocated to the synchronization of users and 3 units, combined, allocated to the communication of users or to 6 units, combined, allocated to the communication of users. 10. The dynamic allocation method according to claim 1 , in which said method is compatible with the DVB-RCS2 standard. 11. A computer-implemented method of dynamic allocation of shared resources in a communication network including a plurality of receivers, the computer-implemented method being executed by a resource allocation device at a satellite station associated with a return link between the plurality of receivers and the satellite station, the computer-implemented method comprising: defining, at a resource allocation device of the satellite station, in a time-frequency plan, a superframe of a given duration ΔT and a given spectral width Δf, including at least one frame, defining, at the resource allocation device of the satellite station, a regular time-frequency grid, of which one square, referred to as a time-frequency unit, constitutes the smallest time and frequency interval allocatable to a user at the at least one receiver of said communication network within said frame, reserving, at the resource allocation device of the satellite station, on each carrier frequency of a frame, at least one block of a number K, greater than or equal to 1, of time-frequency units which can be dynamically allocated to a user for communication or for synchronization, allocating, at the resource allocation device of the satellite station, to a user, a time-frequency unit reserved for synchronization within a block of a carrier frequency, said allocating including: calculating, for each user connected to said communication network, the ratio between the frequency variation between the carrier frequency of said block and the last carrier frequency on which the user has communicated and the time interval between the last time-frequency unit used by the user for communication and the time-frequency unit reserved for synchronization to be allocated, and allocating said time-frequency unit reserved for synchronization is allocated to the user for whom said ratio is the lowest, and transmitting, by the resource allocation device from the satellite station, to at least a receiver an information regarding the allocation of at least one time-frequency unit for communication and at least one time-frequency unit for synchronization to the receiver. 12. A resource allocation device for dynamic allocation of shared resources for communication and synchronization of a plurality of user terminals in a communication network, the resource allocation device being configured to: define, at the resource allocation device, in a time-frequency plan, a superframe of a given duration ΔT and a given spectral width Δf, including at least one frame, define, at the resource allocation device, a regular time-frequency grid, of which one square, referred to as a time-frequency unit, constitutes the smallest time and frequency interval allocatable to a user at the at least one receiver of said communication network within said frame, and reserve, at the resource allocation device, on each carrier frequency of a frame, at least one block of a number K, greater than or equal to 1, of time-frequency units which can be dynamically allocated to a user for communication or for synchronization, wherein the number of time-frequency units per frame allocated for synchronization is at least equal to the minimum