Method and apparatus for seamless mobility techniques in content-centric network

What is claimed is: 1. A networking system for a content-centric-network (CCN)/named-data networking (NDN) comprising: a first point of attachment (PoA) configured to: communicate with a corresponding node (CN) in a communications session with a mobile node (MN); receive interest packets from the MN for content stored at the CN, the interest packets comprising prefixes indicating path segments between the MN and the CN via the first PoA; maintain a forwarding state for the CN, wherein the forwarding state indicates pending interests for content based on the prefixes from the received interest packets; cache the pending interests upon receiving control information indicating a handoff for the CN; and forward the cached pending interests toward the CN via a second PoA by updating the prefixes to indicate the second PoA upon receiving an indication that the CN is attached to the second PoA. 2. The networking system of claim 1 , wherein the first PoA communicates with the MN at a NDN protocol layer. 3. The networking system of claim 1 , wherein the first PoA is a base station for a cellular network. 4. The networking system of claim 1 , wherein the first PoA is further configured to: receive data responses to the pending interests from the CN; and forward the data responses to the MN, wherein the interest packets and data responses are forwarded between the MN and the CN via the first PoA before the handoff and via the second PoA after the handoff based on modification of associated prefixes. 5. The networking system of claim 1 , wherein the interest packets and data responses are exchanged via the first PoA and the second PoA for applications that have higher user quality of experience (QoE) requirements, and wherein the interest packets and data responses for other applications that have lower user QoE requirements are exchanged using default network forwarding and re-expression of the pending interests when the CN is mobile. 6. The networking system of claim 1 , wherein the first PoA comprises a first proxy agent (PA) configured to communicate with a mobility agent (MA) at the CN and a second PA at the second PoA, wherein the control information indicating the handoff is received from a mobility control agent at the MA, and wherein the interest packets and the data responses are exchanged with a mobility forwarding agent at the MA. 7. The networking system of claim 6 , wherein the first PoA communicates with the mobility forwarding agent to support communications with a NDN protocol layer based on Physical (PHY)/Media Access Control (MAC) connectivity layer communications for communicating events indicating various stages of the handoff for the CN. 8. The networking system of claim 7 , wherein the first PoA further communicates with the mobility forwarding agent to support communicating the interest packets and the data responses to an application operating on the CN via the NDN protocol layer. 9. The networking system of claim 1 , wherein the first PoA is further configured to refresh at least some of the pending interests upon receiving control information indicating the handoff for the CN, wherein the pending interests are refreshed to prevent interest expiration during an estimated handoff duration associated with the handoff. 10. A networking system for a content-centric-network (CCN)/named-data networking (NDN) comprising: a first rendezvous point (RP) node coupled to the CCN/NDN and configured to: communicate with a mobile node (MN) via a first point of attachment (PoA); receive interest packets from the MN for content stored at a corresponding node (CN), the interest packets comprising prefixes indicating path segments between the MN and the CN via the first PoA; maintain forwarding state information for the MN, the forwarding state information indicating pending interests for content based on the prefixes from the received interest packets; cache responses to the pending interests upon receiving control information indicating a handoff for the MN; and forward the cached responses to the pending interests toward the MN via a second PoA by updating forwarding state information prefixes to indicate the second PoA upon receiving information indicating that the MN is attached to the second PoA. 11. The networking system of claim 10 , wherein the first RP node is further configured to communicate with a network controller to support mapping a location of the MN to the first RP and to a current PoA associated with the MN. 12. The networking system of claim 11 , wherein the MN's location is mapped to the first RP node and the current PoA in a Forward Information Base (FIB) by employing an MN identifier (ID). 13. The networking system of claim 10 , wherein the first RP node is further configured to: forward interests to the CN via a second RP node and a third PoA based on the prefixes from the received interest packets; and receive responses from the CN via the second RP node and the third POA, wherein the pending interests are interests sent toward the CN for which no corresponding response has been received at a specified time. 14. The networking system of claim 10 , wherein the cached responses are forwarded to the second PoA and the MN via a third RP node, and wherein the information indicating that the MN is attached to the second PoA is received from the third RP node. 15. The networking system of claim 14 , wherein the third RP node is selected from a plurality of content routers or access gateways by the second PoA after the handoff. 16. The networking system of claim 14 , wherein at least some of the first RP node, the second RP node, and the third RP node are selected from a plurality of content routers or access gateways using a plurality of global network objectives to minimize delays and losses in the interests and responses between the MN and the CN. 17. The networking system of claim 14 , wherein at least some of the first RP node, the second RP node, and the third RP node are selected from a plurality of content routers or access gateways using a plurality of local optimization objectives including geographical locations of the first PoA, the second PoA, and the third PoA. 18. The networking system of claim 10 , wherein the first RP node is further configured to refresh at least some of the pending interests upon receiving control information indicating the handoff for the MN, wherein the pending interests are refreshed to prevent interest expiration during an estimated handoff duration associated with the handoff. 19. A network node of a content-centric-network (CCN)/named-data networking (NDN) network, the network node comprising: a proxy agent (PA) configured to communicate with a mobility agent (MA) at a mobile node (MN), the PA comprising: a proxy control agent configured to manage the MN, storing a forwarding state for the MN, and implement a logic to enable mobility for the MN within the CCN/NDN, and a proxy forwarding agent configured to participate in processing of a plurality of interests and data responses exchanged between the MN and the CCN/NDN, wherein the forwarding state indicates pending interests for which no corresponding data response has been received prior to a handoff; wherein the PA is further configured to: receive interests from the MN for content stored at a corresponding node (CN), the interests comprising prefixes indicating path segments between the MN and the CN via the PA; store the prefixes with the pending interests in the forwarding state; cache data responses