IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0915364
(2006-05-12)
|
등록번호 |
US-8417831
(2013-04-09)
|
우선권정보 |
CN-2005 1 0072984 (2005-05-25) |
국제출원번호 |
PCT/EP2006/062268
(2006-05-12)
|
§371/§102 date |
20071123
(20071123)
|
국제공개번호 |
WO2006/125726
(2006-11-30)
|
발명자
/ 주소 |
- Ge, Yi
- Liang, Zhiyong
- Lin, Yonghua
- Wang, Yan Qi
|
출원인 / 주소 |
- International Business Machines Corporation
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
12 |
초록
▼
A network system adopting a first IP protocol is provided. The network system includes an address allocating server and a communication terminal supporting both the first IP protocol and a second IP protocol, wherein the address allocating server dynamically allocates an address of the second IP pro
A network system adopting a first IP protocol is provided. The network system includes an address allocating server and a communication terminal supporting both the first IP protocol and a second IP protocol, wherein the address allocating server dynamically allocates an address of the second IP protocol to the communication terminal. The communication terminal includes a dynamic address manager for acquiring the dynamically allocated address of the second IP protocol of the communication terminal from the address allocating server and a second IP protocol address of the destination of a second IP protocol packet from a second IP protocol application, and an address adapter for encapsulating the second IP protocol packet from the second IP protocol application into a first IP protocol packet, wherein the second IP protocol address of the communication terminal in the header of the second IP protocol packet and the second IP protocol address of the destination are encapsulated into the first IP protocol packet.
대표청구항
▼
1. A network system adopting a first IP protocol, the network system comprising: an address allocating server and a communication terminal supporting both the first IP protocol and a second IP protocol different from the first IP protocol, the address allocating server dynamically allocating an addr
1. A network system adopting a first IP protocol, the network system comprising: an address allocating server and a communication terminal supporting both the first IP protocol and a second IP protocol different from the first IP protocol, the address allocating server dynamically allocating an address of the second IP protocol to the communication terminal, characterized in that: said communication terminal comprises:a dynamic address manager for acquiring said dynamically allocated address of the second IP protocol of said communication terminal from the address allocating server such that the address of the second IP protocol is temporarily acquired and then released after a specified time interval and acquiring a second IP protocol address of a destination of a second IP protocol packet from a second IP protocol application, and an address adapter for encapsulating the second IP protocol packet from the second IP protocol application into a first IP protocol packet, wherein the second IP protocol address of said communication terminal, included in a header of the second IP protocol packet, and the second IP protocol address of the destination are encapsulated into said first IP protocol packet;wherein said address adapter further comprises: an address-mapping table for storing a correspondence between the first IP protocol address and the second IP protocol address; an address-mapping table manager for managing the address-mapping table;a packet translator for transforming the first IP protocol packet into the second IP protocol packet or transforming the second IP protocol packet into the first IP protocol packet, according to the correspondence stored in the address-mapping table;wherein said first IP protocol packet is either an IPv4 packet or an IPv6 packet, said second IP protocol packet is an IPv6 packet when said first IP protocol packet is an IPv4 packet and said second IP protocol packet is an IPv4 packet when said first IP protocol packet is an IPv6 packet. 2. The network system according to claim 1, characterized in that: said dynamic address manager is operable to release said dynamically allocated second IP protocol address, in response to a notification of the ending of said second IP protocol application, and said address allocating server is operable to mark said released second IP protocol address as available. 3. The network system according to claim 1, characterized in that: idle fields in the IPv6 packet are deleted while encapsulating the IPv6 packet into the IPv4 packet, and idle fields in the IPv4 packet are deleted while encapsulating the IPv4 packet into the IPv6 packet. 4. The network system according to claim 1 characterized in that: when the communication terminal is a destination, the address adapter transforms the received encapsulated first IP protocol packet into the second IP protocol packet. 5. A method of managing a network system adopting a first IP protocol, the network system comprising a communication terminal supporting both the first IP protocol and a second IP protocol different from the first IP protocol, the method comprising: in said communication terminal, acquiring a dynamically allocated address of the second IP protocol of said communication terminal from an address allocating server such that the address of the second IP protocol is temporarily acquired and then released after a specified time interval and acquiring a second IP protocol address of a destination of a second IP protocol packet from a second IP protocol application;in said communication terminal, encapsulating the second IP protocol packet from the second IP protocol application into a first IP protocol packet, wherein the second IP protocol address of said communication terminal, included in the header of the second IP protocol packet, and the second IP protocol address of the destination are encapsulated into said first IP protocol packet, and in said communication terminal, sending out said first IP protocol packet;storing a correspondence between the first IP protocol address and the second IP protocol address in each communication terminal; transforming the first IP protocol packet into the second IP protocol packet or transforming the second IP protocol packet into the first IP protocol packet, according to the correspondence stored in the address-mapping table;wherein said first IP protocol packet is either an IPv4 packet or an IPv6 packet, said second IP protocol packet is an IPv6 packet when said first IP protocol packet is an IPv4 packet and said second IP protocol packet is an IPv4 packet when said first IP protocol packet is an IPv6 packet. 6. The method according to claim 5 further comprising: releasing said dynamically allocated second IP protocol address, in response to a notification of the ending of said second IP protocol application. 7. The method according to claim 5 characterized in that: idle fields in the IPv6 packet are deleted while encapsulating the IPv6 packet into the IPv4 packet, and idle fields in the IPv4 packet are deleted while encapsulating the IPv4 packet into the IPv6 packet. 8. The method according to claim 5 characterized in that: when the communication terminal is a destination, a received encapsulated first IP protocol packet is transformed into the second IP protocol packet. 9. A communication terminal supporting both a first IP protocol and a second IP protocol different from the first IP protocol, the communication terminal coupled to an address allocating server for dynamically allocating an address of the second IP protocol thereto, said communication terminal comprises: a dynamic address manager for acquiring said dynamically allocated address of the second IP protocol of said communication terminal from the address allocating server such that the address of the second IP protocol is temporarily acquired and then released after a specified time interval and acquiring a second IP protocol address of the destination of a second IP protocol packet from a second IP protocol application,an address adapter for encapsulating the second IP protocol packet from the second IP protocol application into a first IP protocol packet, wherein the second IP protocol address of said communication terminal, included in the header of the second IP protocol packet, and the second IP protocol address of the destination are encapsulated into said first IP protocol packet, and said communication terminal is configured to send said first IP protocol packet,an address-mapping table for storing a correspondence between the first IP protocol address and the second IP protocol address; an address-mapping table manager for managing the address-mapping table, anda packet translator for transforming the first IP protocol packet into the second IP protocol packet or transforming the second IP protocol packet into the first IP protocol packet according to the correspondence stored in the address-mapping table;wherein said first IP protocol packet is either an IPv4 packet or an IPv6 packet, said second IP protocol packet is an IPv6 packet when said first IP protocol packet is an IPv4 packet and said second IP protocol packet is an IPv4 packet when said first IP protocol packet is an IPv6 packet. 10. The communication terminal according to claim 9, characterized in that: in response to a notification of the ending of said second IP protocol application, said dynamic address manager releases said dynamically allocated second IP protocol address and informs said address allocating server of the release. 11. The communication terminal according to claim 9, characterized in that: idle fields in the IPv6 packet are deleted while encapsulating the IPv6 packet into the IPv4 packet, and idle fields in the IPv4 packet are deleted while encapsulating the IPv4 packet into the IPv6 packet. 12. The communication terminal according to claim 9, characterized in that: when the communication terminal is a destination, the address adapter transforms a received encapsulated first IP protocol packet into the second IP protocol packet. 13. A method of sending packets by a communication terminal supporting both a first IP protocol and a second IP protocol different from the first IP protocol, the communication terminal connected to an address allocating server for dynamically allocating an address of the second IP protocol thereto, the method comprising: acquiring a dynamically allocated address of the second IP protocol of said communication terminal from the address allocating server such that the address of the second IP protocol is temporarily acquired and then released after a specified time interval and acquiring a second IP protocol address of the destination of a second IP protocol packet from a second IP protocol application, and in said communication terminal, encapsulating the second IP protocol packet from the second IP protocol application into a first IP protocol packet, wherein the second IP protocol address of said communication terminal, included in the header of the second IP protocol packet, and the second IP protocol address of the destination are encapsulated into said first IP protocol packet, and in said communication terminal, sending said first IP protocol packet;storing a correspondence between the first IP protocol address and the second IP protocol address in each communication terminal; transforming the first IP protocol packet into the second IP protocol packet or transforming the second IP protocol packet into the first IP protocol packet according to the correspondence stored in the address-mapping table;wherein said first IP protocol packet is either an IPv4 packet or an IPv6 packet, said second IP protocol packet is an IPv6 packet when said first IP protocol packet is an IPv4 packet and said second IP protocol packet is an IPv4 packet when said first IP protocol packet is an IPv6 packet. 14. The method according to claim 13, characterized by: releasing said dynamically allocated second IP protocol address, in response to a notification of the ending of said second IP protocol application. 15. The method according to claim 13, characterized in that: idle fields in the IPv6 packet are deleted while encapsulating the IPv6 packet into the IPv4 packet, and idle fields in the IPv4 packet are deleted while encapsulating the IPv4 packet into the IPv6 packet. 16. The method according to claim 13, characterized in that: when the communication terminal is a destination, a received encapsulated first IP protocol packet is transformed into the second IP protocol packet. 17. The network system according to claim 1, wherein said first protocol packet includes a flag to identify whether the first protocol packet has encapsulated the header of the second IP protocol packet.
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