Method and system for virtual multicast networking
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-015/173
H04L-012/28
H04L-029/06
출원번호
UP-0478945
(2002-05-28)
등록번호
US-7827304
(2010-11-22)
우선권정보
KR-2001-0029308(2001-05-28)
국제출원번호
PCT/KR2002/001003
(2002-05-28)
§371/§102 date
20031126
(20031126)
국제공개번호
WO02/098063
(2002-12-05)
발명자
/ 주소
Park, Hyunje
Kim, Yong-Hwa
출원인 / 주소
Zooinnet
EGC & C., Ltd
National Computerization Agency
대리인 / 주소
Sheridan Ross P.C.
인용정보
피인용 횟수 :
4인용 특허 :
26
초록▼
Method and system for virtual multicast networking, which can provide multicasting application service on non-multicast network that does not support multicast, are provided. A virtual multicast networking system for providing virtual multicast network on network environment where a multicast data s
Method and system for virtual multicast networking, which can provide multicasting application service on non-multicast network that does not support multicast, are provided. A virtual multicast networking system for providing virtual multicast network on network environment where a multicast data source network to which multicast data source server is connected is linked through backbone network to non-multicast network that does not support multicast and to which a client is connected, the virtual multicast networking system includes: virtual multicast router system, included in the non-multicast network, for routing or relaying multicast data through tunnelling to multicast router or the nearest virtual multicast router system; multicast agent system, mounted on the client, for receiving the multicast data through tunnelling to the nearest virtual multicast router system, and transmitting the received multicast data to application program mounted on the client; and multicast management system, included in the multicast data source network, for managing the IP address of the virtual multicast router system and transmitting the IP address information of the virtual multicast router system to the virtual multicast router system or the multicast agent system.
대표청구항▼
The invention claimed is: 1. A virtual multicast networking system including at least one client and a multicast source network having a multicast source server, for providing a virtual multicast network in a network wherein a non-multicast network that does not support a multicast function is conn
The invention claimed is: 1. A virtual multicast networking system including at least one client and a multicast source network having a multicast source server, for providing a virtual multicast network in a network wherein a non-multicast network that does not support a multicast function is connected through a backbone network to the multicast source network, the virtual multicast networking system comprising: a virtual multicast router system included in the non-multicast network, for transmitting or relaying encapsulated multicast data through tunneling with a multicast router or the nearest virtual multicast router system; a multicast agent system loaded on at least one client, for receiving the encapsulated multicast data through dynamic tunneling with the nearest virtual multicast router system, extracting the multicast data transmitted by the multicast source server from the encapsulated multicast data, and transmitting the extracted multicast data to an application program loaded on another client; and a multicast administration system included in the multicast source network, for storing IP addresses of the virtual multicast router system, and transmitting the IP address information of the virtual multicast router system to the virtual multicast router system or the multicast agent system in response to a request from the virtual multicast router system or multicast agent system; wherein the virtual multicast router system includes: a tunneling unit for transmitting a dynamic tunneling request including its IP address to the nearest virtual multicast router system, and setting up a tunnel source address and a tunnel destination address for dynamic tunneling based on the dynamic tunneling request from the nearest virtual multicast router system or the multicast agent system; a multicast relaying unit for managing the membership information of a multicast group, and transmitting the encapsulated multicast data, which are transmitted from the nearest virtual multicast router system through dynamic tunneling, to at least one client or virtual multicast router system included in the membership information of the multicast group; and a multicast routing unit for routing the encapsulated multicast data; wherein the multicast agent system includes: a dynamic tunneling unit for transmitting a multicast group joining request including the IP address of the multicast agent system to the virtual multicast router system; and a multicast data receiving unit for receiving encapsulated multicast data from the virtual multicast router system, removing the header that includes the tunnel source address and the tunnel destination address from the received data, and transmitting the multicast data, which is transmitted from the multicast source server, to an application program of the client; and the multicast data receiving unit transmits the multicast data transmitted from the multicast source server to the application program of the client by setting time to live (TTL) at zero using IP multicast; and wherein the multicast administration system includes: a database for caching and storing in a table the IP address information of all virtual multicast router systems in the network; and a virtual multicast router data administration unit which obtains a round trip time (RTT) between the virtual multicast router data administration unit and each of the virtual multicast router systems in the network by transmitting the data for determining the distance to all the virtual multicast router systems, computes an average RTT and the maximum RTT of all the virtual multicast router systems in the network, and transmits the average RTT and the maximum RTT to all the virtual multicast router systems in the network; and searches the database upon a request for the address information of the nearest virtual multicast router system from the tunneling unit or the dynamic tunneling unit; and when there is information on the nearest virtual multicast router in the database transmits the data on the nearest virtual multicast router to the tunneling unit or the dynamic tunneling unit; when there is no information on the nearest virtual multicast router in the database, transmits to all the virtual multicast router systems in the network a command to send, within a predetermined time period, data for determining the distance to the tunneling unit or the dynamic tunneling unit wherein the predetermined time period is the average RTT subtracted from the maximum RTT value based upon the time of receipt by each of the virtual multicast router systems in the network of the command from the virtual multicast router data administration unit. 2. The system as recited in claim 1, wherein the virtual multicast router data administration unit searches the database, upon the request for the nearest virtual multicast router system data, and if there is no data in the database on the nearest virtual multicast router, transmitting the address information of all virtual multicast router systems stored in the table to the tunneling unit or the dynamic tunneling unit. 3. The system as recited in claim 2, wherein the tunneling unit or the dynamic tunneling unit obtains the address information of the nearest virtual multicast router system by calculating hop counters based on the address information of all virtual multicast router systems transmitted from the virtual multicast router data administration unit, and transmits the obtained address information of the nearest virtual multicast router system to the virtual multicast router data administration unit. 4. The system as recited in claim 1, wherein the tunneling unit or the dynamic tunneling unit obtains the address information of the nearest virtual multicast router system based on the data that has arrived first among other data sent from all the virtual multicast router systems in the network to check out the distance, and transmits the obtained address information of the nearest virtual multicast router system to the virtual multicast router data administration unit. 5. The system as recited in claim 3, wherein the virtual multicast router data administration unit further performs the function of updating the IP address information of the virtual multicast router systems, which are stored in the database in the form of a table, based on the address information of the nearest virtual multicast router system transmitted from the tunneling unit or the dynamic tunneling unit. 6. The system as recited in claim 5, wherein the virtual multicast router system performs tunneling and transmits the encapsulated multicast data based on a type of the network to which the multicast agent system or the nearest virtual multicast router system that receives the encapsulated multicast data transmitted from the virtual multicast router system belongs. 7. The system as recited in claim 6, wherein the virtual multicast router system emulates the Internet group management protocol (IGMP) snooping function of an L2 switch, in the case where the non-multicast network supports a broadcast or unicast function only. 8. The system as recited in claim 1, wherein the backbone network does not support the multicast function, and the multicast source network includes the virtual multicast router system. 9. The system as recited in claim 1, wherein the backbone network supports the multicasting function, wherein the multicast source network includes a multicast router, wherein the tunneling unit has the tunnel source address and the tunnel destination address set up between the virtual multicast router system and the multicast router through static tunneling, and wherein the multicast relaying unit transmits the encapsulated multicast data, which are transmitted from the multicast router system through static tunneling, to at least one client or virtual multicast router system in the membership information of the multicast group through a multicast router on a sub-network of the non-multicast network, to which the virtual multicast router system belongs. 10. A method for performing virtual multicast networking in a network that includes at least one client, a multicast source network having a multicast source server and a non-multicast network that does not support a multicast function, the method comprising the steps of: a) at a virtual multicast router system included in the non-multicast network, transmitting or relaying encapsulated multicast data through tunneling with a multicast router or nearest virtual multicast router system; wherein step a) includes the steps of: a1) at a tunneling unit included in the virtual multicast router system, transmitting a dynamic tunneling request including the IP address of the virtual multicast router system to the nearest virtual multicast router system; a2) at the tunneling unit, setting up the tunnel source address and the tunnel destination address for dynamic tunneling based on the dynamic tunneling request transmitted from the nearest virtual multicast router system or multicast agent system; a3) at a multicast relaying unit included in the virtual multicast router system, managing the membership information of a multicast group, and transmitting the encapsulated multicast data, which are transmitted from the nearest virtual multicast router system through dynamic tunneling, to at least one client or virtual multicast router system in the membership information of the multicast group; and a4) a multicast routing unit included in the virtual multicast router system, routing the encapsulated multicast data; b) at a multicast agent system loaded on at least one client, receiving the encapsulated multicast data through dynamic tunneling with the nearest virtual multicast router system, extracting the multicast data transmitted from a multicast source server from the received encapsulated multicast data, and transmitting the extracted multicast data to an application program loaded on another client; wherein step b) comprises the steps of: b1) at a dynamic tunneling unit included in the multicast agent system, transmitting a multicast group joining request including the IP address of the multicast agent system to the virtual multicast router system; and b2) at a multicast data receiving unit included in the multicast agent system, receiving the encapsulated multicast data from the virtual multicast router system, removing the header that includes the tunnel source address and the tunnel destination address from the received encapsulated multicast data, and transmitting the multicast data, which is transmitted from the multicast source server to the application program of the client by setting time to live (TTL) at zero using IP multicast; c) at a multicast administration system included in a multicast source network, storing IP addresses of the virtual multicast router system, and transmitting the IP address of the virtual multicast router system to the virtual multicast router system or the multicast agent system in response to a request for searching IP addresses of the virtual multicast router from the virtual multicast router system or the multicast agent system; wherein the step c) includes the steps of: c1) caching the IP address information of all virtual multicast router systems in the network and storing the cached data in a database in the form of a table; c2) at the virtual multicast router data administration unit, searching the database and when there is information on the nearest virtual multicast router in the database transmitting the information on the nearest virtual multicast router to the tunneling unit or the dynamic tunneling unit, upon a request for information on the nearest virtual multicast router system from the tunneling unit or the dynamic tunneling unit; c3) at the virtual multicast router data administration unit, obtaining a round trip time (RTT) between the virtual multicast router data administration unit and each of the virtual router systems by transmitting the data for determining the distance to all the virtual multicast router systems, computing an average RTT and the maximum RTT of all the virtual multicast router systems in the network, and transmitting the average RTT and the maximum RTT to all the virtual multicast router systems in the network; c4) at the virtual multicast router data administration unit, searching the database upon the request for information on the nearest virtual multicast router system, and when there is no information on the nearest virtual multicast router in the database, transmitting to all the virtual multicast router systems in the network a command to send data, within a predetermined time period, for determining the distance to the tunneling unit or the dynamic tunneling unit; and wherein the predetermined time period is the average RTT subtracted from the maximum RTT value based upon the time of receipt by each of the virtual multicast router systems of the command from the virtual multicast router data administration unit. 11. The method as recited in claim 10, wherein in step c when there is no information on the nearest virtual multicast router in the database, transmitting the address information of all virtual multicast router systems stored in the table to the tunneling unit or the dynamic tunneling unit. 12. The method as recited in claim 10, wherein the step a2) further includes the steps of: a2-1) at the tunneling unit, obtaining the address information of the nearest virtual multicast router system by calculating hop counters based on the address information of all virtual multicast router systems received by the process of the step c3); and a2-2) at the tunneling unit, transmitting the obtained address information of the nearest virtual multicast router system to the virtual multicast router data administration unit, and wherein the step b1) further includes the steps of: b1-1) at the dynamic tunneling unit, obtaining the address information of the nearest virtual multicast router system by calculating hop counters based on the address information of all virtual multicast router systems received by the process of the step c3); and b1-2) at the dynamic tunneling unit, transmitting the obtained address information of the nearest virtual multicast router system to the virtual multicast router data administration unit. 13. The method as recited in claim 10, wherein the step a2) further includes the steps of: a2-1) at the tunneling unit, obtaining the address information of the nearest virtual multicast router system based on the data that has arrived first among other data transmitted from all the virtual multicast router systems included in the network to determine the distance; and a2-2) at the tunneling unit, transmitting the obtained address information of the nearest virtual multicast router system to the virtual multicast router data administration unit, and wherein the step b1) further includes the steps of: b1-1) at the dynamic tunneling unit, obtaining the address information of the nearest virtual multicast router system based on the data that has arrived first among other data transmitted from all the virtual multicast router systems included in the network to determine the distance; and b1-2) at the dynamic tunneling unit, transmitting the obtained address information of the nearest virtual multicast router system to the virtual multicast router data administration unit. 14. The method as recited in claim 10, wherein the step c) further comprises the step of: c5) at the virtual multicast router data administration unit, updating the IP address information of the virtual multicast router systems, which are stored in the database in the form of a table, based on the address information of the nearest virtual multicast router system transmitted from the tunneling unit or the dynamic tunneling unit. 15. The method as recited in claim 14, wherein in the step a), the tunneling is performed based on a type of the network to which the multicast agent system or the nearest virtual multicast router system that receives the encapsulated multicast data transmitted from the virtual multicast router system belongs, and the encapsulated multicast data are transmitted. 16. The method as recited in claim 15, wherein in the step a), the virtual multicast router system emulates the Internet group management protocol (IGMP) snooping function of an L2 switch, in the case where the non-multicast network supports a broadcast or unicast function. 17. The method as recited in claim 10, wherein a backbone network does not support the multicasting function, and the multicast source network includes the virtual multicast router system. 18. The method as recited in claim 10, wherein a backbone network supports the multicasting function, wherein the multicast source network includes a multicast router, wherein the tunneling unit has tunnel source address and tunnel destination address set up between the virtual multicast router system and the multicast router through static tunneling, and wherein the step a3) includes the step of: a3-1) at the multicast relaying unit, transmitting the encapsulated multicast data, which are transmitted from the multicast router system through static tunneling, to at least one client or virtual multicast router system in the membership information of the multicast group through a multicast router included in a sub-network of the non-multicast network, to which the virtual multicast router system belongs.
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