Devices and methods for managing communication in a V2X communication network

The invention claimed is: 1. A global communication management entity for managing vehicle-to-everything (V2X) communication parameters of a plurality of vehicular user equipments of a V2X communication network, comprising: at least one processor; and a memory configured to store computer readable instructions that, when executed by the at least one processor, cause the global communication management entity to provide execution comprising: determining one or more V2X communication parameters of a vehicular user equipment of the plurality of vehicular user equipments, wherein the one or more V2X communication parameters are associated with a local vehicle-to-vehicle (V2V) congestion control scheme implemented on the vehicular user equipment and/or a V2V communication module of the vehicular user equipment for communicating with the other vehicular user equipments; and providing the one or more V2X communication parameters to the vehicular user equipment, wherein the local V2V congestion control scheme implemented on the vehicular user equipment is operated in an active operation mode or an inactive operation mode, and wherein the at least one processor is configured to adjust an operation mode of the local V2V congestion control scheme implemented on the vehicular user equipment, and wherein the active operation mode is associated with a first set of V2X communication parameters and the inactive operation mode is associated with a second set of V2X communication parameters when a state machine of the local V2V congestion control scheme is deactivated. 2. The global communication management entity of claim 1 , wherein the one or more V2X communication parameters of the vehicular user equipment are determined based on a motion state of the plurality of vehicular user equipments. 3. The global communication management entity of claim 2 , wherein the motion state of the plurality of vehicular user equipments comprises one or more of the following for each of the plurality of vehicular user equipments: a location of the respective vehicular user equipment, a velocity of the respective vehicular user equipment, a motion direction of the respective vehicular user equipment, or a planned route of the respective vehicular user equipment. 4. The global communication management entity of claim 1 , wherein the one or more V2X communication parameters are associated with a V2V communication module in the form of a dedicated short-range communications (DSRC) module and/or in the form of a sidelink communications module. 5. The global communication management entity of claim 4 , wherein the V2X communication parameters further comprise: frequency and multi-channel operation parameters, channel access time parameters, scheduled transmission parameters, V2X communication mode selection parameters, and/or a message generation rate of an application belonging to a traffic class. 6. The global communication management entity of claim 1 , wherein, when the computer readable instructions are executed by the at least one processor, the global communication management entity is further caused to provide execution comprising: managing infrastructure-to-vehicle (I2V) communication parameters of a plurality of roadside units (RSUs) of the V2X communication network, wherein one or more I2V communication parameters of a RSU of the plurality of RSUs are determined on the basis of a motion state of the plurality of vehicular user equipments. 7. The global communication management entity of claim 6 , wherein the one or more I2V communication parameters comprise one or more of the following parameters of the RSU: frequency and multi-channel operation parameters, channel access time parameters, scheduled transmission parameters, I2V communication mode selection parameters, or a message generation rate of an application belonging to a traffic class. 8. The global communication management entity of claim 1 , wherein the state machine of the local V2V congestion control scheme implemented on the vehicular user equipment defines a plurality of states, including an active state, and wherein, when the computer readable instructions are executed by the at least one processor, the global communication management entity is further caused to provide execution comprising: adjusting a state of the local V2V congestion control scheme implemented on the vehicular user equipment in the active operation mode. 9. The global communication management entity of claim 1 , wherein the local V2V congestion control scheme implemented on the vehicular user equipment is a local decentralized congestion control (DCC) scheme, and wherein the one or more V2X communication parameters comprise a transmit power control (TPC), a transmit rate control (TRC), a transmit datarate control (TDC), a DCC sensitivity control (DSC), and/or a transmit access control (TAC). 10. The global communication management entity of claim 1 , wherein the local V2V congestion control scheme implemented on the vehicular user equipment is a local decentralized congestion control (DCC) scheme, the local DCC scheme being a reactive local DCC scheme or an adaptive local DCC scheme. 11. The global communication management entity of claim 1 , wherein the local V2V congestion control scheme implemented on the vehicular user equipment is a local sidelink communication congestion control scheme, the local sidelink communication congestion control scheme being a LTE-Vehicular (LTE-V) congestion control scheme, and wherein the one or more V2X communication parameters comprise a maximum transmission power, a range of the number of retransmissions per transport block, a range of a Physical Sidelink Shared Channel (PSSCH) resource block (RB) number, a modulation and coding scheme (MCS) range, and/or a maximum limit on a channel occupancy ratio. 12. The global communication management entity of claim 1 , wherein the one or more V2X communication parameters comprise a global channel busy ratio (CBR), and/or a global received signal strength indication (RSSI) associated with the V2V communication module and Wherein, when the computer readable instructions are executed by the at least one processor, the global communication management entity is further caused to provide execution comprising providing the global CBR and/or the global RSSI to the vehicular user equipment. 13. The global communication management entity of claim 1 , wherein the vehicular user equipment is configured to determine a local channel busy ratio (CBR) and/or a local received signal strength indication (RSSI) associated with the V2V communication module and to adjust the one or more V2X communication parameters of the vehicular user equipment on the basis of the determined local CBR and/or the determined local RSSI. 14. The global communication management entity of claim 1 , wherein, when the computer readable instructions are executed by the at least one processor, the global communication management entity is further caused to provide execution comprising: receiving from each of the plurality of vehicular user equipments a respective local channel busy ratio (CBR) and/or a respective local received signal strength indication (RSSI) associated with a respective V2V communication module of the respective vehicular user equipment, and determining the one or more V2X communication parameters of the vehicular user equipment on the basis of the local CBRs and/or the local RSSIs associated with the corresponding V2V communication modules of the plurality of vehicular user equipments. 15. A vehicle-to-everything (V2X) communication network comprising a pl