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A hierarchical cellular network system having a core and comprising a plurality of nodes, wherein at least one node comprises a relay; and wherein at least one relay includes: a tunneling sub-system; a backhauling link subsystem interfacing between the tunneling subsystem and a node which is closer

A hierarchical cellular network system having a core and comprising a plurality of nodes, wherein at least one node comprises a relay; and wherein at least one relay includes: a tunneling sub-system; a backhauling link subsystem interfacing between the tunneling subsystem and a node which is closer to the core than the relay; and a base station subsystem, interfacing between the tunneling subsystem and a mobile station or a node which is further from the core than the relay, wherein the tunneling subsystem is operative to perform the following, on data arriving from a base station subsystem belonging to another node from among the plurality of nodes: collecting the data; and encapsulating the results to be sent in an individual session into packets and sending the packets to the Backhauling Link Subsystem.

대표청구항 ▼

1. Apparatus for use in conjunction with a hierarchical cellular network system having a core and a plurality of nodes, the apparatus comprising: a mobile relay having functionalities including both base station functionality and mobile communicator functionality and operative to serve mobile commun

1. Apparatus for use in conjunction with a hierarchical cellular network system having a core and a plurality of nodes, the apparatus comprising: a mobile relay having functionalities including both base station functionality and mobile communicator functionality and operative to serve mobile communicators, including at least one relay other than said mobile relay, andto be served by the at least one relay other than said mobile relay; andwherein the at least one relay other than said mobile relay includes: a tunneling subsystem; anda backhauling link subsystem interfacing between the tunneling subsystem and a closer node from among said nodes which is closer to the core than said mobile relay;the base station functionality interfacing between the tunneling subsystem and a mobile station or a further node from among said nodes which is further from the core than said mobile relay,wherein the tunneling subsystem is operative to perform the following, on data arriving from the base station functionality: collecting said data including analyzing to identify, within said data, results to be sent; andencapsulating the results to be sent into packets and sending said packets to said Backhauling Link Subsystem,wherein the core comprises an S1 tunneling server and wherein a first block in an Inbound flow comprises a mobile base station filter operative to sort incoming user-plane packets of an SI-U interface and wherein the filter, by using a known list of mobile base stations, is operative to detect the mobile base stations' packets, to filter said packets from the SI-U stream and to send the stream without the mobile base stations' packets directly to a Core segment defined by the core, wherein the filter is operative to send the stream without the mobile base stations' packets directly to a Core segment defined by the core using a standard Inbound SI-U interface and to send the stream of only mobile base stations packets to the Tunneling Subsystem using an SI-U protocol interface. 2. The apparatus according to claim 1, wherein said tunneling subsystem is also operative for: sorting the results, at least by user ID; andqueuing the results as sorted by said sorting. 3. The apparatus according to claim 2, wherein said tunneling subsystem is also operative for: sorting the results, at least by data type (control/user); andqueuing the results as thus sorted. 4. The apparatus according to claim 3, wherein said queuing employs rules based on user priority. 5. The apparatus according to claim 4, wherein said queuing employs rules based on service type. 6. The apparatus according to claim 3, wherein said tunneling subsystem is also operative for: partitioning the results as queued by said queuing including deciding which of the results are to be transmitted in each of a sequence of upcoming communication sessions. 7. The apparatus according to claim 1, wherein the core comprises an S1 tunneling server. 8. The apparatus according to claim 7, wherein the SI Tunneling Server is located between a base station and a Core Segment defined by the core and interfaces the base station using a standard S1 interface. 9. The apparatus according to claim 7, wherein a first block in an Inbound flow may be a mobile base station filter which sorts incoming user-plane packets of an SI-U interface. 10. The apparatus according to claim 1, wherein a Tunneling Application Server is provided for integrating Tunneling management at the Core Segment. 11. The apparatus according to claim 1, wherein both a Tunneling Application Server, for integrating Tunneling management at the Core Segment is provided, and wherein each encapsulated transmission is sent, depending on at least one of: user priority, required latency, user type, service type, to the Tunneling Application Server, to the S1 Tunneling Server, or to both. 12. The apparatus according to claim 11, wherein at least one encapsulated transmission is sent to the Tunneling Application Server, to the S1 Tunneling Server, or to both, depending at least in part on user priority. 13. The apparatus according to claim 11, wherein at least one encapsulated transmission is sent to the Tunneling Application Server, to the S1 Tunneling Server, or to both, depending at least in part on required latency. 14. The apparatus according to claim 11, wherein at least one encapsulated transmission is sent to the Tunneling Application Server, to the S1 Tunneling Server, or to both, depending at least in part on user type. 15. The apparatus according to claim 11, wherein at least one encapsulated transmission is sent to the Tunneling Application Server, to the S1 Tunneling Server, or to both, depending at least in part on service type. 16. A system for use with a hierarchical cellular network having a core and comprising a plurality of nodes, the system comprising: at least one node which comprises a mobile relay having both base station and mobile communicator functionalities and operativeto serve mobile communicators, including at least one relay other than said mobile relay,and to be served by at least one relay other than said mobile relay; anda Virtual Radio Access Network Manager which resides in a tunneling application server residing in the core,and which is operative to reflect each mobile base station back to a core segment defined by the core as a real base station,wherein at least said mobile relay includes: a tunneling subsystem; anda backhauling link subsystem interfacing between the tunneling subsystem and a closer node from among said plurality of nodes which is closer to the core than said mobile relay;base station functionality interfacing between the tunneling subsystem and a mobile station or a further node from among said plurality of nodes which is further from the core than said mobile relay,the tunneling subsystem is operative to perform the following, on data arriving from the base station functionality: collecting said data including analyzing to identify, within said data, results to be sent; andencapsulating the results to be sent into packets and sending said packets to backhauling link subsystem,the tunneling subsystem is operative to process incoming mobile base station only packets stream for every sole mobile base station detected, in a recursive manner in order to decapsulate tunnel-inside-tunnel cases, andafter mobile base stations' packets have been unfolded, to generate unfolded data, the tunneling subsystem is operative to transfer said unfolded data to the Virtual Radio Access Network Manager that reflects each of the mobile base stations to a core segment. 17. The system according to claim 16, wherein the Virtual Radio Access Network Manager is operative to reflect each mobile base station back to the Core Segment defined by the core as a real base station using a standard RAN-to-Core interface. 18. The system according to claim 16, wherein the Virtual Radio Access Network Manager reflects each of the mobile base stations to a Core segment which is defined by the core as a virtual base station. 19. The system according to claim 16, wherein the Virtual Radio Access Network Manager is operative, using data arriving at the Virtual Radio Access Network Manager from all mobile base stations, to build a topology of all mobile base station subnetworks including a list of all users attached to the Virtual Radio Access Network Manager. 20. The system according to claim 16, wherein the Virtual Radio Access Network Manager is also operative to function as a proxy of the MeNBs interfacing the core by “reflecting” each of the mobile base stations to a Core segment defined by the core as a “virtual” base station using a standard S1 interface such that a multi-S1 interface is created. 21. The system according to claim 16, wherein the Virtual Radio Access Network Manager is operative to function as a proxy of MeNBs interfacing the core by reflecting each of the mobile base stations using a standard S1 interface thereby to create a multi-Si interface. 22. The system according to claim 16, wherein the Virtual Radio Access Network Manager is also operative to pass packets and attached instructions, at least said attached instructions resulting from analysis of a mobile base stations' topology tree, via a dedicated interface to a Tunneling Subsystem, and to store the mobile base stations' topology tree. 23. A method for use in conjunction with a hierarchical cellular network system having a core and a plurality of nodes, the method comprising: providing a mobile relay with functionalities including both base station functionality and mobile communicator functionality, the mobile relay being operative to serve mobile communicators, including at least one relay other than said mobile relay, andto be served by the at least one relay other than said mobile relay; andwherein the at least one relay other than said mobile relay includes: a tunneling subsystem; anda backhauling link subsystem interfacing between the tunneling subsystem and a closer node from among said nodes which is closer to the core than said mobile relay;the base station functionality interfacing between the tunneling subsystem and a mobile station or a further node from among said nodes which is further from the core than said mobile relay,wherein the tunneling subsystem is operative to perform the following, on data arriving from the base station functionality: collecting said data including analyzing to identify, within said data, results to be sent; andencapsulating the results to be sent into packets and sending said packets to said Backhauling Link Subsystem,wherein the core comprises an S1 tunneling server and wherein a first block in an Inbound flow which comprises a mobile base station filter is operative to sort incoming user-plane packets of an S1-U interface and wherein the filter, by using a known list of mobile base stations, is operative to detect the mobile base stations' packets, to filter said packets from the S1-U stream and to send the stream without the mobile base stations' packets directly to a Core segment defined by the core, and wherein the filter is operative to send the stream without the mobile base stations' packets directly to a Core segment defined by the core using a standard Inbound S1-U interface and to send the stream of only mobile base stations packets to the Tunneling Subsystem using an S1-U protocol interface.