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    • 4. 发明授权
    • Cross-stratum optimization protocol
    • 跨层优化协议
    • US09184983B2
    • 2015-11-10
    • US13216808
    • 2011-08-24
    • Young LeeYangsong Xia
    • Young LeeYangsong Xia
    • H04J3/16G06F15/173H04L12/24H04L12/26H04L12/715H04L29/08
    • H04L41/0803H04L41/04H04L43/00H04L43/08H04L45/64H04L67/1029H04L69/32
    • An apparatus comprising an application cross-stratum optimization (CSO) gateway (ACG) coupled to an application layer that handles a plurality of servers, a network CSO gateway (NCG) coupled to a network layer that handles a plurality of network nodes and configured to communicate with the ACG using a CSO protocol (CSOP), and a CSO interface established between the ACG and the NCG that enables the exchange of a plurality of CSOP messages to allow joint application-network resource allocation, provisioning, and optimization. Also disclosed is a network apparatus implemented method comprising sending a user profile from a user plane to an application plane, sending an application profile from the application plane to a network plane via a CSO interface between an ACG and a NCG, and sending network capability information from the network plane to the application plane via the CSO interface.
    • 一种装置,包括耦合到处理多个服务器的应用层的应用跨层优化(CSO)网关(ACG),耦合到处理多个网络节点的网络层的网络CSO网关(NCG),并且被配置为 使用CSO协议(CSOP)与ACG进行通信,以及在ACG和NCG之间建立的CSO接口,其能够交换多个CSOP消息以允许联合应用 - 网络资源分配,供应和优化。 还公开了一种网络装置实现的方法,包括从用户平面向应用平面发送用户简档,经由ACG和NCG之间的CSO接口从应用平面向网络平面发送应用简档,以及发送网络能力信息 从网络平面通过CSO接口到应用平面。
    • 5. 发明授权
    • Cloud service control and management architecture expanded to interface the network stratum
    • 云服务控制和管理架构扩展到网络层次接口
    • US08793380B2
    • 2014-07-29
    • US13524988
    • 2012-06-15
    • Young Lee
    • Young Lee
    • G06F15/173
    • H04L67/10H04L67/1002H04L67/28
    • Disclosed is a method comprising: transmitting, by a cloud service control gateway (CSCG) positioned in an application stratum, a resource query to a network control gateway (NCG) positioned in a network stratum, wherein the resource query comprises a source address, a destination address list, and a network resource requirement. Also disclosed is a method comprising: receiving, by a network control gateway (NCG) positioned in a network stratum, a resource query from a cloud service control gateway (CSCG) positioned in an application stratum, wherein the resource query comprises source address, a destination address list, and a network resource requirement. Also disclosed is a method comprising: receiving, by a network control gateway (NCG) positioned in a network stratum, a resource reservation request from a cloud service control gateway (CSCG) positioned in an application stratum, wherein the resource reservation request comprises a destination address list and a first network resource requirement.
    • 公开了一种方法,包括:通过位于应用层中的云服务控制网关(CSCG)向位于网络层中的网络控制网关(NCG)发送资源查询,其中所述资源查询包括源地址, 目的地址列表和网络资源需求。 还公开了一种方法,包括:通过位于网络层中的网络控制网关(NCG)从位于应用层中的云服务控制网关(CSCG)接收资源查询,其中所述资源查询包括源地址, 目的地址列表和网络资源需求。 还公开了一种方法,包括:通过位于网络层中的网络控制网关(NCG)从位于应用层中的云服务控制网关(CSCG)接收资源预留请求,其中所述资源预留请求包括目的地 地址列表和第一个网络资源要求。
    • 7. 发明授权
    • Path computation element method to support routing and wavelength assignment in wavelength switched optical networks
    • 路径计算元素方法支持波长交换光网络中的路由和波长分配
    • US08666246B2
    • 2014-03-04
    • US13272691
    • 2011-10-13
    • Young LeeGreg Bernstein
    • Young LeeGreg Bernstein
    • H04J14/00
    • H04J14/0246H04J14/025H04J14/0257H04J14/0258H04J14/0265H04J14/0267H04J14/0269H04J14/0284H04Q11/0062H04Q2011/0073H04Q2011/0086
    • A network component comprising at least one processor configured to implement a method comprising transmitting a request to compute a routing assignment, a wavelength assignment, or both, wherein the request comprises a lightpath constraint indicator is disclosed. Also disclosed is an apparatus comprising a Path Computation Client (PCC) configured to transmit a request to and receive a reply from a Path Computation Element (PCE), wherein the request comprises a lightpath constraint, and wherein the reply comprises a routing assignment, a wavelength assignment, an error message, a no-path indication, or combinations thereof. Included is a method comprising receiving a request comprising a request parameter (RP) object comprising a lightpath constraint, sending a reply comprising a routing assignment, a wavelength assignment, an error message, a no-path indicator, or combinations thereof, wherein the request is received and the reply is sent using path computation element protocol (PCEP).
    • 一种网络组件,包括至少一个处理器,其被配置为实现包括发送计算路由分配,波长分配或两者的请求的方法,其中所述请求包括光路约束指示符。 还公开了一种装置,包括路径计算客户端(PCC),其被配置为向路径计算元件(PCE)发送请求并从路径计算元件(PCE)接收回复),其中所述请求包括光路约束,并且其中所述回复包括路由分配, 波长分配,错误消息,无路径指示或其组合。 包括的方法包括接收包括包括光路约束的请求参数(RP)对象的请求的请求,发送包括路由分配的响应,波长分配,错误消息,无路径指示符或其组合,其中所述请求 并使用路径计算单元协议(PCEP)发送应答。
    • 8. 发明申请
    • SECTIONAL OPTIMIZED TWIST BEAM
    • US20130313801A1
    • 2013-11-28
    • US13990040
    • 2011-11-28
    • Young Lee
    • Young Lee
    • B60G21/055
    • B60G21/055B60G21/051B60G2206/20B60G2206/202B60G2206/8107B60G2206/8402
    • A twist beam is manufactured from a tube and has a shorter sectional perimeter in the “V” or “U” shape center section and a longer sectional perimeter at the beam ends. The present disclosure therefore proposes to use a tubular member having a predetermined length. The tubular member is deformed at the center section of the tube into a “V” or “U” shape and then expanded at both end portions. This structure is formed using a closed die internal pressure forming process such as hydro-forming or blow molding or the like. The ends of the tubular member may also have a substantially oval or rectangular section. The tubular member of the present disclosure may also be heat treated in the closed die internal forming process to achieve a higher material strength. In this manner, the twist beam of the present disclosure is optimized to used the smallest possible section along its entire length, thus has a substantially lower mass and can be manufactured using less material and therefore at a substantially lower cost.
    • 扭梁由管制造,并且在“V”形或“U”形中心部分具有较短的截面周长,而在梁端部具有较长的截面周长。 因此,本发明提出使用具有预定长度的管状构件。 管状构件在管的中心部分处变形为“V”或“U”形,然后在两个端部处膨胀。 这种结构使用诸如液压成型或吹塑成型等的封闭模具内压成形方法形成。 管状构件的端部也可以具有基本上椭圆形或矩形的部分。 本公开的管状构件也可以在封闭模具内部成形工艺中进行热处理,以获得更高的材料强度。 以这种方式,本公开的扭梁被优化以沿着其整个长度使用尽可能小的部分,因此具有基本上较低的质量,并且可以使用较少的材料制造,因此以显着较低的成本。