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
    • 1. 发明申请
    • ASSIGNMENT OF CONTROL OF PERIPHERALS OF A COMPUTING DEVICE
    • 计算机外围设备的分配控制
    • US20110202689A1
    • 2011-08-18
    • US12817766
    • 2010-06-17
    • Michael F. KoenigIra SnyderJack CreaseyJai SrinivasanKanchan Mitra
    • Michael F. KoenigIra SnyderJack CreaseyJai SrinivasanKanchan Mitra
    • G06F3/00
    • G06F3/038G06F9/4411
    • Techniques for enabling software-assisted assignment of control of peripherals (e.g., assigning ownership of or assigning access to the peripherals) by a computing device. In accordance with techniques described herein, assignment of control of peripherals is aided by input from software facilities that instruct a peripheral management facility regarding assignment of peripherals. Software facilities may instruct the peripheral management facility in different ways. In some cases, a software facility may instruct the peripheral management facility how to assign control of a peripheral in a particular way, while in other cases a software facility may instruct the peripheral management facility how to assign control of a group of peripherals. In other cases, a software facility may not instruct a peripheral management facility how to assign control of peripherals, but may identify one or more groups of peripherals for which control should be assigned as a group.
    • 用于通过计算设备实现对外围设备的控制(例如,分配对外围设备的所有权或分配对外围设备的控制)的软件辅助分配的技术。 根据本文所描述的技术,外部设备的控制分配由辅助外部管理设备指导周边设备的软件设施的辅助。 软件设施可以以不同的方式指导外围设备管理工具。 在某些情况下,软件设施可以指示外围设备管理设备如何以特定方式分配外围设备的控制,而在其他情况下,软件设施可以指示外围设备管理设备如何分配一组外围设备的控制。 在其他情况下,软件设施可能不会指示外围设备管理设备如何分配对外围设备的控制,但可以标识一组或多组外围设备,为此控制应分配给一组。
    • 4. 发明授权
    • Resource manager architecture utilizing a policy manager
    • 资源管理器架构利用策略管理器
    • US07316020B2
    • 2008-01-01
    • US11276393
    • 2006-02-27
    • Jayachandran RajaJai SrinivasanMukund SankaranarayanDavid S. BakinSean C. McDowellRobin C. B. Speed
    • Jayachandran RajaJai SrinivasanMukund SankaranarayanDavid S. BakinSean C. McDowellRobin C. B. Speed
    • G06F9/46G06F15/173
    • G06F9/5027G06F2209/5021
    • Resource management architectures implemented in computer systems to manage resources are described. In one embodiment, a general architecture includes a resource manager and multiple resource providers that support one or more resource consumers such as a system component or application. Each provider is associated with a resource and acts as the manager for the resource when interfacing with the resource manager. The resource manager arbitrates access to the resources provided by the resource providers on behalf of the consumers. A policy manager sets various policies that are used by the resource manager to allocate resources. One policy is a priority-based policy that distinguishes among which applications and/or users have priority over others to use the resources. A resource consumer creates an “activity” at the resource manager and builds one or more “configurations” that describe various sets of preferred resources required to perform the activity. Each resource consumer can specify one or more configurations for each activity. If multiple configurations are specified, the resource consumer can rank them according to preference. This allows the resource consumers to be dynamically changed from one configuration to another as operating conditions change.
    • 描述了在计算机系统中实现的管理资源的资源管理架构。 在一个实施例中,一般架构包括资源管理器和支持一个或多个资源消费者(诸如系统组件或应用程序)的多个资源提供者。 当与资源管理器进行接口时,每个提供者都与资源相关联并充当该资源的管理器。 资源管理员代表消费者对资源提供者提供的资源的访问进行仲裁。 策略管理器设置资源管理器使用的各种策略来分配资源。 一个策略是一个基于优先级的策略,区分哪些应用程序和/或用户优先于其他应用程序和/或用户来使用资源。 资源消费者在资源管理器中创建“活动”,并构建一个或多个描述执行活动所需的各种首选资源集的“配置”。 每个资源消费者可以为每个活动指定一个或多个配置。 如果指定了多个配置,资源消费者可以根据偏好对其进行排名。 这允许在操作条件改变时资源消费者从一个配置动态地改变另一个配置。
    • 5. 发明授权
    • Methods and architectures for resource management
    • 资源管理的方法和架构
    • US07111297B1
    • 2006-09-19
    • US09563724
    • 2000-05-02
    • Mukund SankaranarayanJai SrinivasanAndy R. Raffman
    • Mukund SankaranarayanJai SrinivasanAndy R. Raffman
    • G06F9/40
    • G06F9/5038G06F2209/5014G06F2209/5015G06F2209/5021G06F2209/508
    • Resource management architectures implemented in computer systems to manage resources are described. In one embodiment, a general architecture includes a resource manager and multiple resource providers that support one or more resource consumers such as a system component or application. Each provider is associated with a resource and acts as the manager for the resource when interfacing with the resource manager. The resource manager arbitrates access to the resources provided by the resource providers on behalf of the consumers. A policy manager sets various policies that are used by the resource manager to allocate resources. One policy is a priority-based policy that distinguishes among which applications and/or users have priority over others to use the resources. A resource consumer creates an “activity” at the resource manager and builds one or more “configurations” that describe various sets of preferred resources required to perform the activity. Each resource consumer can specify one or more configurations for each activity. If multiple configurations are specified, the resource consumer can rank them according to preference. This allows the resource consumers to be dynamically changed from one configuration to another as operating conditions change.
    • 描述了在计算机系统中实现的管理资源的资源管理架构。 在一个实施例中,一般架构包括资源管理器和支持一个或多个资源消费者(诸如系统组件或应用程序)的多个资源提供者。 当与资源管理器进行接口时,每个提供者都与资源相关联并充当该资源的管理器。 资源管理员代表消费者对资源提供者提供的资源的访问进行仲裁。 策略管理器设置资源管理器使用的各种策略来分配资源。 一个策略是一个基于优先级的策略,区分哪些应用程序和/或用户优先于其他应用程序和/或用户来使用资源。 资源消费者在资源管理器中创建“活动”,并构建一个或多个描述执行活动所需的各种首选资源集的“配置”。 每个资源消费者可以为每个活动指定一个或多个配置。 如果指定了多个配置,资源消费者可以根据喜好对其进行排名。 这允许在操作条件改变时资源消费者从一个配置动态地改变另一个配置。
    • 6. 发明申请
    • Resource Manager Architecture Utilizing a Policy Manager
    • 资源管理器架构利用策略管理器
    • US20060136988A1
    • 2006-06-22
    • US11276393
    • 2006-02-27
    • Jayachandran RajaJai SrinivasanMukund SankaranarayanDavid BakinSean McDowellRobin Speed
    • Jayachandran RajaJai SrinivasanMukund SankaranarayanDavid BakinSean McDowellRobin Speed
    • H04L9/00
    • G06F9/5027G06F2209/5021
    • Resource management architectures implemented in computer systems to manage resources are described. In one embodiment, a general architecture includes a resource manager and multiple resource providers that support one or more resource consumers such as a system component or application. Each provider is associated with a resource and acts as the manager for the resource when interfacing with the resource manager. The resource manager arbitrates access to the resources provided by the resource providers on behalf of the consumers. A policy manager sets various policies that are used by the resource manager to allocate resources. One policy is a priority-based policy that distinguishes among which applications and/or users have priority over others to use the resources. A resource consumer creates an “activity” at the resource manager and builds one or more “configurations” that describe various sets of preferred resources required to perform the activity. Each resource consumer can specify one or more configurations for each activity. If multiple configurations are specified, the resource consumer can rank them according to preference. This allows the resource consumers to be dynamically changed from one configuration to another as operating conditions change.
    • 描述了在计算机系统中实现的管理资源的资源管理架构。 在一个实施例中,一般架构包括资源管理器和支持一个或多个资源消费者(诸如系统组件或应用程序)的多个资源提供者。 当与资源管理器进行接口时,每个提供者都与资源相关联并充当该资源的管理器。 资源管理员代表消费者对资源提供者提供的资源的访问进行仲裁。 策略管理器设置资源管理器使用的各种策略来分配资源。 一个策略是一个基于优先级的策略,区分哪些应用程序和/或用户优先于其他应用程序和/或用户来使用资源。 资源消费者在资源管理器中创建“活动”,并构建一个或多个描述执行活动所需的各种首选资源集的“配置”。 每个资源消费者可以为每个活动指定一个或多个配置。 如果指定了多个配置,资源消费者可以根据喜好对其进行排名。 这允许在操作条件改变时资源消费者从一个配置动态地改变另一个配置。
    • 8. 发明申请
    • Techniques for limiting network access
    • 限制网络接入的技术
    • US20050138179A1
    • 2005-06-23
    • US10741706
    • 2003-12-19
    • Mark EncarnacionJason FlaksJai Srinivasan
    • Mark EncarnacionJason FlaksJai Srinivasan
    • G06F15/16H04L29/06H04L29/08
    • H04L67/16H04L63/10H04L67/02H04L67/12H04L69/16H04L69/163H04L69/329
    • A network architecture in a Universal Plug and Play (UPnP) network includes a resource sharing service to govern the distribution of resource information from a server to a recipient entity (such as rendering device or a control point). The network architecture includes one or more of the following provisions: (a) setting the server to operate in a predetermined private address range or an Auto IP range; (b) operating one or more parts of the network architecture on the same subnet; (c) setting a time to live (TTL) parameter associated with messages transmitted by the server to a predetermined number; (d) setting a number of permitted recipient entities to a predetermined number; (e) setting a number of permitted concurrent content distribution sessions to a predetermined session number; (f) granting access to a recipient entity on condition that the recipient entity has generated a message that conforms to the UPnP protocol; and (g) retiring a URL used to identify a location of a resource provided by the server after a predetermined amount of time.
    • 通用即插即用(UPnP)网络中的网络架构包括资源共享服务,以管理资源信息从服务器到接收者实体(如渲染设备或控制点)的分布。 网络架构包括一个或多个以下规定:(a)将服务器设置为在预定的专用地址范围或自动IP范围内运行; (b)在同一子网上操作网络架构的一个或多个部分; (c)将与所述服务器发送的消息相关联的生存时间(TTL)参数设置为预定数量; (d)将允许的接收者实体的数量设置为预定数量; (e)将允许的并发内容分发会话的数目设置为预定的会话号码; (f)允许接受方实体的访问,条件是接收方实体已生成符合UPnP协议的消息; 和(g)在预定的时间量之后,退出用于标识由服务器提供的资源的位置的URL。