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公开(公告)号:US20060009197A1
公开(公告)日:2006-01-12
申请号:US11168930
申请日:2005-06-29
IPC分类号: H04M1/66
CPC分类号: H04L65/1073 , H04L65/1006 , H04L65/1069 , H04W12/00514 , H04W12/06 , H04W76/12
摘要: The steps and the data amount are reduced by using a PPP non-standard message to shorten a time needed for call setting, and even when a terminal or PDSN is not adapted to the non-standard message, a call setting procedure can be continued according to a PPP standard procedure. The procedure contains the steps of: establishing a wireless link between MS and PDSN, transmitting PPP standard LCP Cfg-Request from PDSN to MS, transmitting PPP non-standard AltPPP Cfg-Request from PDSN to MS, responding to AltPPP Cfg-Request and returning non-standard AltPPP Cfg-Response if MS is adapted to the non-standard message while responding to LCP Cfg-Request and returning standard LCP Cfg-Response if MS is not adapted to the non-standard message, and authenticating MS on the basis of the standard or non-standard Cfg-Response by PDSN.
摘要翻译: 通过使用PPP非标准消息缩短呼叫设置所需的时间,减少步骤和数据量,即使终端或PDSN不适合于非标准消息,也可以按照 到PPP标准程序。 该过程包括以下步骤:在MS和PDSN之间建立无线链路,从PDSN向MS发送PPP标准LCP Cfg请求,从PDSN向MS发送PPP非标准AltPPP Cfg请求,响应AltPPP Cfg请求并返回 如果MS适应于非标准消息而在响应LCP Cfg请求时返回非标准AltPPP Cfg响应,并且如果MS不适应于非标准消息则返回标准LCP Cfg响应,并且基于 PDSN的标准或非标准Cfg-Response。
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2.
公开(公告)号:US08565186B2
公开(公告)日:2013-10-22
申请号:US11898000
申请日:2007-08-31
申请人: Ashutosh Dutta , Abhrajit Ghosh , John Lee , Subir Das , Joe Lin , Kyriakos Manousakis , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
发明人: Ashutosh Dutta , Abhrajit Ghosh , John Lee , Subir Das , Joe Lin , Kyriakos Manousakis , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
IPC分类号: H04W4/00
CPC分类号: H04W8/082 , H04L65/1006 , H04L65/1073 , H04W8/06 , H04W80/04 , H04W80/10
摘要: The present invention advantageously provides several systems and methods for solving the trombone routing issues within an IMS/MMD network. These approaches avoid trombone routing, speed up handoff, and increase the efficiency of signaling and overall performance of an IMS/MMD network. These solutions can broadly be divided into the following categories. Piggy-backing SIP registration over MIP (Split at FA); Selective Reverse Tunneling and Tunneling between FA and P-CSCF; the SIP-based mobility protocol; use of CoA during SIP registration and call up in MIPv6; Piggy-backing SIP registration when HA and S-CSCF Co-exist; Using Dynamic Home Agents in MIPv4 FA-CoA; and the Interceptor-Caching Approach.
摘要翻译: 本发明有利地提供了用于解决IMS / MMD网络内的长号路由问题的几种系统和方法。 这些方法避免了长号线路路由,加速切换,并提高了IMS / MMD网络的信令效率和整体性能。 这些解决方案可以大致分为以下几类。 通过MIP支持SIP注册(在FA中分拆); FA和P-CSCF之间的选择性反向隧道和隧道; 基于SIP的移动协议; SIP注册期间使用CoA并在MIPv6中调用; 当HA和S-CSCF共存时,捎带SIP注册; 在MIPv4 FA-CoA中使用动态归属代理; 和拦截器缓存方法。
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公开(公告)号:US20080069050A1
公开(公告)日:2008-03-20
申请号:US11900450
申请日:2007-09-11
申请人: Ashutosh Dutta , Adhrajit Ghosh , Subir Das , Dana Chee , Kyriakos Manousakis , Funchun Lin , Shih-wei Li , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
发明人: Ashutosh Dutta , Adhrajit Ghosh , Subir Das , Dana Chee , Kyriakos Manousakis , Funchun Lin , Shih-wei Li , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
IPC分类号: H04Q7/00
CPC分类号: H04W36/0038 , H04L65/1016 , H04L65/1083 , H04W12/06 , H04W36/0016 , H04W80/10
摘要: A mechanism by which handoff delay can be minimized while not compromising the IMS/MMD security and also protecting the media if required by certain applications is presented. One proactive method includes proactive authentication. Another proactive method includes proactive security association, such as transferring SA keys from old proxy to new proxy, or transferring keys through serving signal entities. Reactive methods include transferring SA keys from old proxy to new proxy, using either push or pull technology. Other reactive methods include transferring keys through serving signal entities using either push or pull technology.
摘要翻译: 呈现切换延迟最小化的机制,同时不影响IMS / MMD安全性,并且在某些应用需要时还可以保护媒体。 一种主动的方法包括主动认证。 另一个主动方法包括主动安全关联,例如将SA密钥从旧代理传输到新代理,或通过服务信号实体传送密钥。 反向方法包括使用推或拉技术将SA密钥从旧代理传输到新代理。 其他无效的方法包括使用推或拉技术来传送服务信号实体的密钥。
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公开(公告)号:US20120082136A1
公开(公告)日:2012-04-05
申请号:US13323317
申请日:2011-12-12
申请人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Dana Chee , Kyriakos Manousakis , Funchun Joseph Lin , Shih-wei Li , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
发明人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Dana Chee , Kyriakos Manousakis , Funchun Joseph Lin , Shih-wei Li , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
IPC分类号: H04W36/34
CPC分类号: H04W36/0038 , H04L65/1016 , H04L65/1083 , H04W12/06 , H04W36/0016 , H04W80/10
摘要: A mechanism by which handoff delay can be minimized while not compromising the IMS/MMD security and also protecting the media if required by certain applications is presented. One proactive method includes proactive authentication. Another proactive method includes proactive security association, such as transferring SA keys from old proxy to new proxy, or transferring keys through serving signal entities. Reactive methods include transferring SA keys from old proxy to new proxy, using either push or pull technology. Other reactive methods include transferring keys through serving signal entities using either push or pull technology.
摘要翻译: 呈现切换延迟最小化的机制,同时不影响IMS / MMD安全性,并且在某些应用需要时还可以保护媒体。 一种主动的方法包括主动认证。 另一个主动方法包括主动安全关联,例如将SA密钥从旧代理传输到新代理,或通过服务信号实体传送密钥。 反向方法包括使用推或拉技术将SA密钥从旧代理传输到新代理。 其他无效的方法包括使用推或拉技术来传送服务信号实体的密钥。
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公开(公告)号:US08971291B2
公开(公告)日:2015-03-03
申请号:US13323317
申请日:2011-12-12
申请人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Dana Chee , Kyriakos Manousakis , Funchun Joseph Lin , Shih-wei Li , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
发明人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Dana Chee , Kyriakos Manousakis , Funchun Joseph Lin , Shih-wei Li , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
IPC分类号: H04W4/00
CPC分类号: H04W36/0038 , H04L65/1016 , H04L65/1083 , H04W12/06 , H04W36/0016 , H04W80/10
摘要: A mechanism by which handoff delay can be minimized while not compromising the IMS/MMD security and also protecting the media if required by certain applications is presented. One proactive method includes proactive authentication. Another proactive method includes proactive security association, such as transferring SA keys from old proxy to new proxy, or transferring keys through serving signal entities. Reactive methods include transferring SA keys from old proxy to new proxy, using either push or pull technology. Other reactive methods include transferring keys through serving signal entities using either push or pull technology.
摘要翻译: 呈现切换延迟最小化的机制,同时不影响IMS / MMD安全性,并且在某些应用需要时还可以保护媒体。 一种主动的方法包括主动认证。 另一个主动方法包括主动安全关联,例如将SA密钥从旧代理传输到新代理,或通过服务信号实体传送密钥。 反向方法包括使用推或拉技术将SA密钥从旧代理传输到新代理。 其他无效的方法包括使用推或拉技术来传送服务信号实体的密钥。
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6.
公开(公告)号:US20080070573A1
公开(公告)日:2008-03-20
申请号:US11898000
申请日:2007-08-31
申请人: Ashutosh Dutta , Abhrajit Ghosh , John Lee , Subir Das , Joe Lin , Kyriakos Manousakis , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
发明人: Ashutosh Dutta , Abhrajit Ghosh , John Lee , Subir Das , Joe Lin , Kyriakos Manousakis , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
IPC分类号: H04Q7/20
CPC分类号: H04W8/082 , H04L65/1006 , H04L65/1073 , H04W8/06 , H04W80/04 , H04W80/10
摘要: The present invention advantageously provides several systems and methods for solving the trombone routing issues within an IMS/MMD network. These approaches avoid trombone routing, speed up handoff, and increase the efficiency of signaling and overall performance of an IMS/MMD network. These solutions can broadly be divided into the following categories. Piggy-backing SIP registration over MIP (Split at FA); Selective Reverse Tunneling and Tunneling between FA and P-CSCF; the SIP-based mobility protocol; use of CoA during SIP registration and call up in MIPv6; Piggy-backing SIP registration when HA and S-CSCF Co-exist; Using Dynamic Home Agents in MIPv4 FA-CoA; and the Interceptor-Caching Approach.
摘要翻译: 本发明有利地提供了用于解决IMS / MMD网络内的长号路由问题的几种系统和方法。 这些方法避免了长号线路路由,加速切换,并提高了IMS / MMD网络的信令效率和整体性能。 这些解决方案可以大致分为以下几类。 通过MIP支持SIP注册(在FA中分拆); FA和P-CSCF之间的选择性反向隧道和隧道; 基于SIP的移动协议; SIP注册期间使用CoA并在MIPv6中调用; 当HA和S-CSCF共存时,捎带SIP注册; 在MIPv4 FA-CoA中使用动态归属代理; 和拦截器缓存方法。
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公开(公告)号:US09025771B2
公开(公告)日:2015-05-05
申请号:US11900619
申请日:2007-09-11
申请人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Fuchun Joesph Lin , Kyriakos Manousakis , Dana Chee , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
发明人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Fuchun Joesph Lin , Kyriakos Manousakis , Dana Chee , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
CPC分类号: H04W36/0038 , H04L63/0272 , H04L63/164 , H04L65/1016 , H04W12/02 , H04W12/04
摘要: A mechanism by which handoff delay can be minimized while not compromising the IMS/MMD security and also protecting the media if required by certain applications is presented. Methods for mitigating delay during SA re-association and mitigating the IPSec tunnel overhead for signaling and media at the Mobile Node are given. In one embodiment, SA keys can be transferred from the old P-CSCF to new P-CSCF, enabling the establishment of SAs before Mobile Node physically moves to the new subnet in a network. Proactive handover is used. In another embodiment, SA keys are transferred from S-CSCF to new P-CSCF. In this case, the SA keys are transferred to the new P-CSCF by S-CSCF through a context transfer mechanism well in advance so that SAs may be established before Mobile Node physically moves to new subnet. In another embodiment, methods for mitigating IPSec tunnel overhead are presented.
摘要翻译: 呈现切换延迟最小化的机制,同时不影响IMS / MMD安全性,并且在某些应用需要时还可以保护媒体。 给出了在SA重新关联过程中减轻延迟并减轻移动节点上用于信令和媒体的IPSec隧道开销的方法。 在一个实施例中,SA密钥可以从旧的P-CSCF传送到新的P-CSCF,使得能够在移动节点物理移动到网络中的新子网之前建立SA。 使用主动切换。 在另一实施例中,SA密钥从S-CSCF传送到新的P-CSCF。 在这种情况下,SA密钥由S-CSCF通过上下文传送机制预先传送到新的P-CSCF,以便SA可以在移动节点物理移动到新的子网之前被建立。 在另一个实施例中,提出了用于减轻IPSec隧道开销的方法。
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公开(公告)号:US08098627B2
公开(公告)日:2012-01-17
申请号:US11900450
申请日:2007-09-11
申请人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Dana Chee , Kyriakos Manousakis , Funchun Joseph Lin , Shih-wei Li , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
发明人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Dana Chee , Kyriakos Manousakis , Funchun Joseph Lin , Shih-wei Li , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
IPC分类号: H04W4/00
CPC分类号: H04W36/0038 , H04L65/1016 , H04L65/1083 , H04W12/06 , H04W36/0016 , H04W80/10
摘要: A mechanism by which handoff delay can be minimized while not compromising the IMS/MMD security and also protecting the media if required by certain applications is presented. One proactive method includes proactive authentication. Another proactive method includes proactive security association, such as transferring SA keys from old proxy to new proxy, or transferring keys through serving signal entities. Reactive methods include transferring SA keys from old proxy to new proxy, using either push or pull technology. Other reactive methods include transferring keys through serving signal entities using either push or pull technology.
摘要翻译: 呈现切换延迟最小化的机制,同时不影响IMS / MMD安全性,并且在某些应用需要时还可以保护媒体。 一种主动的方法包括主动认证。 另一个主动方法包括主动安全关联,例如将SA密钥从旧代理传输到新代理,或通过服务信号实体传送密钥。 反向方法包括使用推或拉技术将SA密钥从旧代理传输到新代理。 其他无效的方法包括使用推或拉技术来传送服务信号实体的密钥。
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公开(公告)号:US20080072310A1
公开(公告)日:2008-03-20
申请号:US11900619
申请日:2007-09-11
申请人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Joesph Lin , Kyriakos Manousakis , Dana Chee , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
发明人: Ashutosh Dutta , Abhrajit Ghosh , Subir Das , Joesph Lin , Kyriakos Manousakis , Dana Chee , Tsunehiko Chiba , Hidetoshi Yokota , Akira Idoue
IPC分类号: H04L9/00
CPC分类号: H04W36/0038 , H04L63/0272 , H04L63/164 , H04L65/1016 , H04W12/02 , H04W12/04
摘要: A mechanism by which handoff delay can be minimized while not compromising the IMS/MMD security and also protecting the media if required by certain applications is presented. Methods for mitigating delay during SA re-association and mitigating the IPSec tunnel overhead for signaling and media at the Mobile Node are given. In one embodiment, SA keys can be transferred from the old P-CSCF to new P-CSCF, enabling the establishment of SAs before Mobile Node physically moves to the new subnet in a network. Proactive handover is used. In another embodiment, SA keys are transferred from S-CSCF to new P-CSCF. In this case, the SA keys are transferred to the new P-CSCF by S-CSCF through a context transfer mechanism well in advance so that SAs may be established before Mobile Node physically moves to new subnet. In another embodiment, methods for mitigating IPSec tunnel overhead are presented.
摘要翻译: 呈现切换延迟最小化的机制,同时不影响IMS / MMD安全性,并且在某些应用需要时还可以保护媒体。 给出了在SA重新关联过程中减轻延迟并减轻移动节点上用于信令和媒体的IPSec隧道开销的方法。 在一个实施例中,SA密钥可以从旧的P-CSCF传送到新的P-CSCF,使得能够在移动节点物理移动到网络中的新子网之前建立SA。 使用主动切换。 在另一实施例中,SA密钥从S-CSCF传送到新的P-CSCF。 在这种情况下,SA密钥由S-CSCF通过上下文传送机制预先传送到新的P-CSCF,以便SA可以在移动节点物理移动到新的子网之前被建立。 在另一个实施例中,提出了用于减轻IPSec隧道开销的方法。
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公开(公告)号:US20120239727A1
公开(公告)日:2012-09-20
申请号:US13049194
申请日:2011-03-16
申请人: Ashutosh Dutta , Christian Makaya , Dana Chee , Fuchun Joseph Lin , Satoshi Komorita , Tsunehiko Chiba , Hidetoshi Yokota , Benjamin Falchuk , Manabu Ito
发明人: Ashutosh Dutta , Christian Makaya , Dana Chee , Fuchun Joseph Lin , Satoshi Komorita , Tsunehiko Chiba , Hidetoshi Yokota , Benjamin Falchuk , Manabu Ito
IPC分类号: G06F15/16
CPC分类号: G06F9/5055
摘要: An overlay service network and method for delivering a multimedia service. The overlay service network comprises a user interface for subscribers to request an available service as a requested service, a register server for registering and storing a database of available services, a plurality of service nodes for executing at least one available service and a controller for receiving a request for an available service, searching the register server for the requested service, selecting one or more of the plurality of service nodes to execute the requested service and establishing a chaining sequence between a node requesting the service, the one or more selected execution nodes and a destination node to execute the requested service.
摘要翻译: 一种用于传送多媒体服务的覆盖服务网络和方法。 覆盖服务网络包括用户订户请求可用服务作为所请求的服务的用户界面,用于注册和存储可用服务的数据库的注册服务器,用于执行至少一个可用服务的多个服务节点和用于接收的控制器 对可用服务的请求,向所述注册服务器搜索所请求的服务,选择所述多个服务节点中的一个或多个以执行所请求的服务并且在请求所述服务的节点之间建立链接序列,所述一个或多个所选执行节点 以及执行所请求的服务的目的地节点。
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