Enhanced proximity services discovery with radio access status indicator

The invention claimed is: 1. A method for enhancing proximity services (ProSe) discovery between user devices, the method comprising: sending a discovery signal; receiving a response signal, sent from a second user device, the response signal being sent in response to the discovery signal and comprising a status indicator corresponding to the second user device, wherein the status indicator indicates at least one of (i) the second user device is in an idle mode or a connected mode to a cellular network, (ii) the second user device is inside or outside the coverage area of the cellular network, and (iii) the second user device is a relay mode or a non-relay mode; and assistantly establishing, by using the received status indicator, a link between the first user device and the second user device, wherein assistantly establishing the link further comprises determining, based on the received status indicator, whether to connect the first user to the second user device over (i) a non-cellular technology based direct or locally-routed link, or (ii) a cellular technology based local link. 2. The method of claim 1 , wherein the establishing comprises: determining, based on a first radio resource control (RRC) state indicator corresponding to the first user device and a second RRC state indicator included in the status indicator, whether the first user device and the second user device are in an idle mode with the cellular network; and connecting, in response to determining that either the first user device is in an idle mode with the cellular network or the second device is in an idle mode with the cellular network, the first user device with the second user device over the non-cellular technology based direct or locally-routed link. 3. The method of claim 2 , wherein the non-cellular technology based direct or locally-routed links comprises a WIFI link, a Bluetooth link or a Zigbee link. 4. The method of claim 1 , wherein the establishing comprises: determining, based on a first radio resource control (RRC) state indicator corresponding to the first user device and a second RRC state indicator included in the status indicator, whether the first user device and the second user device are in an idle mode with the cellular network; and connecting, in response to determining that neither the first user device nor the second user device is in an idle mode with the cellular network, the first user device with the second user device over the cellular technology based local link. 5. The method of claim 4 , wherein the cellular technology based local link comprises a GSM link, a WCDMA link, an HSPA link, an LTE link, an LTE-A link, an LTE future evolution or LTE-A based link. 6. The method of claim 1 , wherein the establishing comprises: determining, based on a first radio access network (RAN) status indicator corresponding to the first user device and a second RAN status indicator included in the status indicator, whether the first user device and the second user device are within a cellular network coverage area or outside the cellular network coverage area; determining, based on a first radio resource control (RRC) state indicator corresponding to the first user device and a second RRC state indicator included in the status indicator, whether the first user device and the second user device are in an idle mode with the cellular network; and connecting, in response to determining that the first user device and the second user device are inside the cellular network coverage area and that at least one of the first user device and the second user device is in an idle mode with the cellular network, the first user device with the second user device over the non-cellular technology based direct or locally-routed link. 7. The method of claim 1 , wherein the establishing comprises: determining, based on a first radio access network (RAN) status indicator corresponding to the first user device and a second RAN status indicator included in the status indicator, whether the first user device and the second user device are inside a cellular network coverage area; determining, based on a first radio resource control (RRC) state indicator corresponding to the first user device and a second RRC state indicator included in the status indicator, whether the first user device and the second user device are in an idle mode with the cellular network; and connecting, in response to determining that both the first user device and the second user device are inside the cellular network coverage area and that neither the first user device nor the second user device is in an idle mode with the cellular network, the first user device with the second user device over the cellular technology based local link. 8. The method of claim 1 , wherein the establishing comprises: determining, based on a first radio access network (RAN) status indicator corresponding to the first user device, whether the first user device is outside the cellular network coverage area; determining, based on whether a second RAN status indicator included in the status indicator has a relay indicator or a non-relay indicator, whether the second user device is in a relay mode or a non-relay mode; and establishing, in response to determining that the first user device is outside the cellular network coverage area and the second user device is in a relay mode, the direct connection between the first user device and the second user device. 9. The method of claim 1 , wherein the establishing comprises: determining, based on a first radio access network (RAN) status indicator corresponding to the first user device, whether the first user device is outside the cellular network coverage area; determining, based on whether a second RAN status indicator included in the status indicator has a relay indicator or a non-relay indicator, whether the second user device is in a relay mode or a non-relay mode; and refusing, in response to determining that the first user device is outside the cellular network coverage area and the second user device is in the non-relay mode, the direct connection between the first user device and the second user device. 10. A first apparatus for enhancing proximity services (ProSe) discovery between user devices, the first apparatus comprising: a sending module for sending a discovery signal to a second apparatus; a receiving module for receiving a response signal sent from the second apparatus, the response signal being sent in response to the discovery signal and comprising a status indicator corresponding to the second apparatus, wherein the status indicator indicates at least one of (i) the second user device is in an idle mode or a connected mode to a cellular network, (ii) the second user device is inside or outside the coverage area of the cellular network, and (iii) the second user device is a relay mode or a non-relay mode; and a link establishing module for assistantly establishing a link between the first apparatus and the second apparatus by using the received status indicator, wherein assistantly establishing the link further comprises determining, based on the received status indicator, whether to connect the first user to the second user device over (i) a non-cellular technology based direct or locally-routed link, or (ii) a cellular technology based local link. 11. The first apparatus of claim 10 , wherein the link establishing module comprises: a first determining unit for determining, based on a first radio resource control (RRC) state indicator corresponding to the first apparatus and a second RRC state indicator included in the status indicator, whether the first apparatus and the second apparatus are in an idle m