会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明授权
    • Digital rack interface pod system and method
    • 数字机架接口盒系统及方法
    • US09129069B2
    • 2015-09-08
    • US13877515
    • 2011-09-29
    • Lawrence LoKarl MillsAdam W. LewMehmood Nurmohamed
    • Lawrence LoKarl MillsAdam W. LewMehmood Nurmohamed
    • G06F3/00G06F15/16G06F13/40G06F3/023
    • G06F13/4068G06F3/023
    • A digital rack interface pod (DRIP) that is able to establish a communications link between a remote access appliance and a server having a USB port and a video port, to facilitate a keyboard/video/mouse (KVM) session between the server and the appliance. The DRIP is also able to establish a communications link between the appliance and an Ethernet port of the server that is associated with a service processor (SP) of the server. In this manner the DRIP is able to route data from the SP of the server to the appliance as well as communications from the appliance to the SP Ethernet port of the server. The DRIP is able to intelligently determine which packets of information received from the appliance are intended for the SP Ethernet port of the server and routes those packets to the SP Ethernet port of the server. The DRIP also automatically monitors and dynamically reassigns its two Ethernet ports as needed so that whichever one of its two Ethernet ports it discovers a connection with the appliance on will be the port that it continues using to communicate with the appliance.
    • 能够在远程访问设备和具有USB端口和视频端口的服务器之间建立通信链路的数字机架接口盒(DRIP),以便于服务器和服务器之间的键盘/视频/鼠标(KVM)会话 器具。 DRIP还能够在设备与服务器的与服务器的服务处理器(SP)相关联的以太网端口之间建立通信链路。 以这种方式,DRIP能够将数据从服务器的SP传送到设备,以及从设备到服务器的SP以太网端口的通信。 DRIP能够智能地确定从设备接收的哪些信息包是用于服务器的SP以太网端口,并将这些数据包路由到服务器的SP以太网端口。 DRIP还根据需要自动监控并动态重新分配其两个以太网端口,以便其发现与设备连接的两个以太网端口中的任一个将是其继续用于与设备通信的端口。
    • 7. 发明申请
    • DIGITAL RACK INTERFACE POD SYSTEM AND METHOD
    • 数字机架接口系统及方法
    • US20130215884A1
    • 2013-08-22
    • US13877515
    • 2011-09-29
    • Lawrence LoKarl MillsAdam W. LewMehmood Nurmohamed
    • Lawrence LoKarl MillsAdam W. LewMehmood Nurmohamed
    • G06F13/40
    • G06F13/4068G06F3/023
    • A digital rack interface pod (DRIP) that is able to establish a communications link between a remote access appliance and a server having a USB port and a video port, to facilitate a keyboard/video/mouse (KVM) session between the server and the appliance. The DRIP is also able to establish a communications link between the appliance and an Ethernet port of the server that is associated with a service processor (SP) of the server. In this manner the DRIP is able to route data from the SP of the server to the appliance as well as communications from the appliance to the SP Ethernet port of the server. The DRIP is able to intelligently determine which packets of information received from the appliance are intended for the SP Ethernet port of the server and routes those packets to the SP Ethernet port of the server. The DRIP also automatically monitors and dynamically reassigns its two Ethernet ports as needed so that whichever one of its two Ethernet ports it discovers a connection with the appliance on will be the port that it continues using to communicate with the appliance.
    • 能够在远程访问设备和具有USB端口和视频端口的服务器之间建立通信链路的数字机架接口盒(DRIP),以便于服务器和服务器之间的键盘/视频/鼠标(KVM)会话 器具。 DRIP还能够在设备与服务器的与服务器的服务处理器(SP)相关联的以太网端口之间建立通信链路。 以这种方式,DRIP能够将数据从服务器的SP传送到设备,以及从设备到服务器的SP以太网端口的通信。 DRIP能够智能地确定从设备接收的哪些信息包是用于服务器的SP以太网端口,并将这些数据包路由到服务器的SP以太网端口。 DRIP还根据需要自动监控并动态重新分配其两个以太网端口,以便其发现与设备连接的两个以太网端口中的任一个将是其继续用于与设备通信的端口。
    • 10. 发明申请
    • System and Method for Regulating Bandwidth in a Multicast Video Transmission System
    • 用于调节多播视频传输系统中带宽的系统和方法
    • US20090241148A1
    • 2009-09-24
    • US12254811
    • 2008-10-20
    • Lawrence Lo
    • Lawrence Lo
    • H04N7/18H04N7/16H04L12/26
    • H04N21/64322H04L12/2807H04L12/2838H04L29/12226H04L29/12283H04L61/2015H04L61/2061H04L2012/2849H04N21/4108H04N21/4122H04N21/43615H04N21/43632H04N21/43637H04N21/6405
    • A video transmitter can adaptively alter its transmission rate to plural receivers which receive video via multicast transmission. While the transmitter is initially in the “no tuning state,” the need for a video tune-up state change can be determined by calculating if the current generated A/V retry transmission rate is greater than the video tune-up start threshold and if it was triggered more than the video tune-up interval ago. If so, then the state can be set to “tuning up” and the retransmission rate can be increased by the video tune-up step, as shown in FIG. 7. However, if the state is set to “tuning up” and it is determined that the current generated A/V retry transmission rate is greater than the video tune-up stop threshold, then “tuning-up” is no longer required, and the state is set such that “tuning up” is no longer true such that the state returns to the “no tuning” state. Likewise, the need for a video tune-down state change can be determined by calculating if the current generated A/V retry transmission rate is greater than the video tune-down start threshold and if it was triggered more than the video tune-down interval ago. If so, then the state can be set to “tuning down” and the retransmission rate can be increased by the video tune-down step. However, if the state is set to “tuning down” and it is determined that the current generated A/V retry transmission rate is less than the video tune-down stop threshold, then “tuning-down” is no longer required, and the state is set such that “tuning down” is no longer true and the state returns to the “no tuning” state.
    • 视频发射机可以将其传输速率自适应地改变为通过多播传输接收视频的多个接收机。 当发射机最初处于“无调谐状态”时,可以通过计算当前产生的A / V重试传输速率是否大于视频调谐开始阈值来确定对视频调谐状态改变的需要,并且如果 它比以前的视频调整触发更多。 如果是这样,则可以将状态设置为“调谐”,并且可以通过视频调整步骤增加重传速率,如图5所示。 然而,如果状态被设置为“调高”,并且确定当前产生的A / V重试传输速率大于视频调节停止阈值,则不再需要“调谐” 并且状态被设置为使得“调谐”不再为真,使得状态返回到“无调谐”状态。 类似地,可以通过计算当前产生的A / V重试传输速率是否大于视频调谐开始阈值并且如果触发多于视频调谐间隔,则可以确定对视频调谐状态改变的需要 前。 如果是这样,则可以将状态设置为“调谐”,并且可以通过视频调节步骤来增加重传速率。 然而,如果状态被设置为“调谐”,并且确定当前产生的A / V重试传输速率小于视频调频停止阈值,则不再需要“调谐”,并且 状态被设置为使得“调谐”不再为真,并且状态返回到“无调谐”状态。