Apparatus and method for mode selection for device-to-device communications

What is claimed is: 1. A method, comprising: obtaining a downlink power control value including determining a maximum downlink transmitting power which device-to-device (D2D) user equipment (UE) may use on at least one cellular shared downlink resource; obtaining an uplink power control value including determining a maximum uplink transmitting power which device-to-device (D2D) user equipment (UE) may use on at least one cellular shared uplink resource; measuring a first link quality for reusing the at least one cellular shared downlink resource based at least in part on the downlink power control value; measuring a second link quality for reusing the at least one cellular shared uplink resource based at least in part on the uplink power control value; and determining a suitable device-to-device (D2D) mode for a first one of the device-to-device (D2D) user equipment (UE) to establish a first device-to-device (D2D) connection based at least in part on the first link quality, the second link quality, the downlink power control value and the uplink power control value; wherein determining the suitable D2D mode comprises selecting from among at least one dedicated mode and at least one shared mode, and each cellular shared downlink resource and each cellular shared uplink resource is a resource that may be shared among at least two D2D UEs and at least one cellular UE. 2. The method of claim 1 , further comprising: obtaining the downlink power control value from at least one of a standard definition and a coupled based station; obtaining the uplink power control value from at least one of a second standard definition and the coupled based station; measuring a cellular downlink quality, a dedicated uplink quality and a dedicated downlink quality; and considering the cellular downlink quality, the dedicated uplink quality, and the dedicated downlink quality for determining the suitable D2D mode, wherein each of the dedicated uplink and the dedicated downlink is allocated in one of a dynamic allocation method, a semi-static allocation method, and a static allocation method. 3. The method of claim 1 , further comprising determining a second suitable D2D mode for a second D2D connection to form a D2D communication cluster with the first D2D connection wherein the second D2D connection is one of a shared uplink, a shared downlink, a dedicated uplink, and a dedicated downlink. 4. The method of claim 3 , wherein determining the suitable D2D mode comprises taking into account multiple-input and multiple-output (MIMO) antenna capabilities of a coupled base station to reduce interferences towards the first D2D UE in the shared downlink. 5. The method of claim 4 , wherein determining the suitable D2D mode further comprises taking into account a MIMO antenna capability available at the first D2D UE to suppress interference towards the coupled BS in shared uplink wherein the reduced interference towards the coupled BS results in an adjustment of operational parameters including a backoff value. 6. The method of claim 1 , further comprising at least one of: communicating to a coupled base station at least one of the measured first link quality, the measured second link quality, and a measured cellular link quality; and receiving a D2D mode assignment from the coupled base station. 7. The method of claim 1 , wherein determining the suitable D2D mode further comprises taking into account one or more of a neighbor uplink cellular UE interference level, a neighbor downlink cellular UE interference level, a neighbor uplink interference level, a neighbor downlink interference level, a base station interference level, a maximum allowed transmitting power, and one or more UE quality of service (QoS) targets. 8. The method of claim 1 , wherein determining the suitable D2D mode comprises selecting one of a reusing shared downlink mode, a reusing shared uplink mode, a dedicated downlink mode, a dedicated uplink mode, and a cellular mode. 9. A method comprising: obtaining a downlink power control value including determining a maximum downlink transmitting power which device-to-device (D2D) user equipment (UE) may use on at least one cellular shared downlink resource; obtaining an uplink power control value including determining a maximum uplink transmitting power which device-to-device (D2D) user equipment (UE) may use on at least one cellular shared uplink resource; based at least partially on the obtained power control values and the determined maximum transmitting powers, collecting a plurality of link quality measures upon receiving one of a device-to-device (D2D) connection request and a D2D connection reevaluation request from a D2D user equipment (UE) and a pairing D2D UE; removing a D2D mode from a D2D mode list if the D2D mode fails to meet a quality criterion based at least in part on the collected plurality of link quality measures; sorting the D2D mode list based at least in part on the plurality of D2D link quality measures; determining a suitable D2D mode based at least in part on the sorted D2D mode list, a network state, and the maximum transmitting powers for at least one of the D2D UE or the pairing D2D UE; creating the D2D mode list for the D2D UE and the pairing D2D UE, based at least in part on available network resources and the network state; scoring each D2D mode of the D2D mode list based at least in part on the collected plurality of link quality measures; checking the network state based at least in part on a number of established D2D connections and a number of maximum allowed connections in the network; and communicating the suitable D2D mode to the D2D UE and the pairing D2D UE; and determining a second suitable D2D mode between the D2D UE and a third D2D UE to form a D2D communication cluster; wherein determining the suitable D2D mode comprises selecting from among at least one dedicated mode and at least one shared mode and each cellular shared downlink resource and each cellular shared downlink resource is a resource that may be shared among at least two D2D UEs and at least one cellular UE. 10. The method of claim 9 , wherein determining the suitable D2D mode further comprises: considering a D2D mode on the sorted D2D mode list with a highest score; and checking whether the D2D mode with the highest score is consistent with the network state. 11. An apparatus, comprising: a first module configured to: obtain a downlink power control value including determining a maximum downlink transmitting power which device-to-device (D2D) user equipment (UE) may use on at least one cellular shared downlink resource, obtain an uplink power control value including determining a maximum uplink transmitting power which device-to-device (D2D) user equipment (UE) may use on at least one cellular shared uplink resource, measure a first link quality based at least in part on the downlink power control value, and measure a second link quality based at least in part on the uplink power control value; and a second module configured to determine a suitable device-to-device (D2D) mode for the D2D UE to establish a D2D connection to a pairing D2D UE based at least in part on a constraint comprising at least one of the first link quality, the second link quality, and a maximum transmitting power for the D2D UE; wherein the apparatus is coupled to a base station (BS) comprising a BS D2D module configured to control interferences to the D2D UE and the pairing D2D UE after the D2D connection is established between the D2D UE and the pairing D2D UE; wherein determining the suitable D2D mode comprises selecting from among at least one dedicated mode and at least one shared mode, and each cell