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    • 1. 发明授权
    • System and method for burstiness-aware scheduling and capacity assessment on a network of electronic devices
    • 在电子设备网络上进行突发意识调度和容量评估的系统和方法
    • US08705090B2
    • 2014-04-22
    • US12760920
    • 2010-04-15
    • Shanmuganathan GnanasambandamNaveen SharmaRamesh Nagarajan
    • Shanmuganathan GnanasambandamNaveen SharmaRamesh Nagarajan
    • G06F3/12
    • G06F3/126G06F3/1211G06F3/1229G06F3/1285G06F11/349G06F11/3495G06F2206/1508
    • A system and method for establishing a burstiness metric is presented including at least one processor and a computer-readable storage medium in communication with the at least one processor, wherein the computer-readable storage medium comprises one or more programming instructions for performing the steps of: receiving information related to a plurality of tasks performed by a plurality of electronic devices based on input received from one or more users; analyzing the received information; employing an availability model to the information analyzed; and generating a schedule based on the information analyzed and the availability model by redistributing at least one task of the plurality of tasks between the plurality of electronic devices in accordance with electronic device availability and computational loads. Also, an assessment is made based on the information analyzed to determine a proportion of the plurality of tasks to be supported to achieve a required quality of service.
    • 提出了一种用于建立突发度量的系统和方法,包括与所述至少一个处理器通信的至少一个处理器和计算机可读存储介质,其中所述计算机可读存储介质包括用于执行以下步骤的一个或多个编程指令: 基于从一个或多个用户接收的输入,接收由多个电子设备执行的与多个任务有关的信息; 分析收到的信息; 对所分析的信息采用可用性模型; 以及根据所分析的信息和根据电子设备可用性和计算负载在多个电子设备之间重新分配多个任务中的至少一个任务来生成调度表。 此外,基于分析的信息进行评估,以确定要支持的多个任务的比例以实现所需的服务质量。
    • 5. 发明申请
    • SYSTEM AND METHOD FOR BURSTINESS-AWARE SCHEDULING AND CAPACITY ASSESSMENT ON A NETWORK OF ELECTRONIC DEVICES
    • 电子设备网络中的BURSTINESS-AWARE SCHEDULING和容量评估系统与方法
    • US20110255125A1
    • 2011-10-20
    • US12760920
    • 2010-04-15
    • Shanmuganathan GnanasambandamNaveen SharmaRamesh Nagarajan
    • Shanmuganathan GnanasambandamNaveen SharmaRamesh Nagarajan
    • G06F15/00
    • G06F3/126G06F3/1211G06F3/1229G06F3/1285G06F11/349G06F11/3495G06F2206/1508
    • A system and method for establishing a burstiness metric is presented including at least one processor and a computer-readable storage medium in communication with the at least one processor, wherein the computer-readable storage medium comprises one or more programming instructions for performing the steps of: receiving information related to a plurality of tasks performed by a plurality of electronic devices based on input received from one or more users; analyzing the received information; employing an availability model to the information analyzed; and generating a schedule based on the information analyzed and the availability model by redistributing at least one task of the plurality of tasks between the plurality of electronic devices in accordance with electronic device availability and computational loads. Also, an assessment is made based on the information analyzed to determine a proportion of the plurality of tasks to be supported to achieve a required quality of service.
    • 提出了一种用于建立突发度量的系统和方法,包括与所述至少一个处理器通信的至少一个处理器和计算机可读存储介质,其中所述计算机可读存储介质包括用于执行以下步骤的一个或多个编程指令: 基于从一个或多个用户接收的输入,接收由多个电子设备执行的与多个任务有关的信息; 分析收到的信息; 对所分析的信息采用可用性模型; 以及根据所分析的信息和根据电子设备可用性和计算负载在多个电子设备之间重新分配多个任务中的至少一个任务来生成调度表。 此外,基于分析的信息进行评估,以确定要支持的多个任务的比例以实现所需的服务质量。
    • 6. 发明授权
    • Serverless distributed monitoring and anomaly detection for a service oriented architecture
    • 面向服务的架构的无服务器分布式监控和异常检测
    • US07792992B2
    • 2010-09-07
    • US12129195
    • 2008-05-29
    • Shanmuganathan GnanasambandamNaveen Sharma
    • Shanmuganathan GnanasambandamNaveen Sharma
    • G06F15/173
    • H04L67/104H04L67/1093H04L69/26H04L69/40
    • A system and method for serverless distributed monitoring anomaly detection for a service oriented architecture is provided. The method includes selecting a number of nodes, e.g. super peers, to form an overlay network which is configured to facilitate bidirectional information flow creating a peer-to-peer monitoring framework through replication chains. The method continues with mapping the overlay network to data by assigning each of the selected nodes to a data region related to its surroundings. The method continues with distributing the data regions among the nodes via the aforementioned replication chain, where each replication chain is sensitive to the type of application that requests data duplication in monitoring the data by collecting information from each of those nodes that correspond to an assigned or distributed data region. This method may also include taking corrective action if the node detects an anomaly.
    • 提供了一种面向服务架构的无服务器分布式监控异常检测系统和方法。 该方法包括选择多个节点,例如, 超级对等体,以形成覆盖网络,其配置为促进通过复制链创建对等监视框架的双向信息流。 该方法通过将每个所选择的节点分配给与其周围环境相关的数据区域来继续将覆盖网络映射到数据。 该方法继续通过上述复制链在节点之间分布数据区域,其中每个复制链对通过从对应于所分配的或者被分配的每个节点的每个节点收集信息来请求数据复制的应用的类型敏感, 分布式数据区域。 该方法还可以包括如果节点检测到异常则采取纠正措施。
    • 9. 发明授权
    • System and method for automated handling of document processing workload
    • 自动处理文件处理工作量的系统和方法
    • US08493598B2
    • 2013-07-23
    • US12876623
    • 2010-09-07
    • Shanmuganathan GnanasambandamNaveen SharmaSriram Kailasam
    • Shanmuganathan GnanasambandamNaveen SharmaSriram Kailasam
    • G06F3/12G06K15/00
    • G06F3/1211G06F3/122G06F3/124G06F3/1247G06F3/126G06F3/1267G06F3/1272G06F3/1282G06F3/1286G06F3/1287G06F2206/1508H04L67/12
    • A system for controlling flow of a plurality of raw print jobs from at least one user to at least one printer in a print-shop, the system including: a print job queue adapted to received the plurality of raw print jobs; a controller adapted to monitor the plurality of raw print jobs; an estimation module comprising at least one of an estimated execution time module and an estimated network overhead module, wherein the estimation module is adapted to estimate a time to process each of the plurality of raw print jobs and the estimated network overhead module is adapted to estimate a time to transmit each of the plurality of raw print jobs to an external cloud and receive each of the plurality of raw print jobs from the external cloud; a scheduler adapted to transmit each of the plurality of raw print jobs to the external cloud or the internal cloud based upon at least one of the time to process each of the plurality of raw print jobs and the time to transmit each of the plurality of raw print jobs to the external cloud and to receive each of the plurality of raw print jobs from the external cloud, wherein the external and internal clouds are each adapted to process the plurality of raw print jobs to a plurality of processed print jobs; and, a print ready queue adapted to receive the plurality of processed print jobs and to send the plurality of processed print jobs to a printer.
    • 一种用于控制多个原始打印作业从至少一个用户到打印店中的至少一个打印机的流程的系统,该系统包括:适于接收多个原始打印作业的打印作业队列; 控制器,适于监视所述多个原始打印作业; 估计模块,包括估计的执行时间模块和估计的网络开销模块中的至少一个,其中估计模块适于估计处理多个原始打印作业中的每一个的时间,并且所估计的网络开销模块适于估计 将多个原始打印作业中的每一个发送到外部云并从外部云接收多个原始打印作业中的每一个的时间; 适于将多个原始打印作业中的每一个发送到外部云或内部云的调度器基于处理多个原始打印作业中的每一个的时间中的至少一个和传送多个原始打印作业中的每个原始打印作业的时间 向外部云打印作业并从外部云接收多个原始打印作业中的每一个,其中外部和内部云各自适于将多个原始打印作业处理到多个处理的打印作业; 以及适合于接收所述多个经处理的打印作业的打印就绪队列并将所述多个经处理的打印作业发送到打印机。
    • 10. 发明申请
    • SYSTEM AND METHOD FOR AUTOMATED HANDLING OF DOCUMENT PROCESSING WORKLOAD
    • 用于自动处理文件处理工作的系统和方法
    • US20120057191A1
    • 2012-03-08
    • US12876623
    • 2010-09-07
    • Shanmuganathan GnanasambandamNaveen SharmaSriram Kailasam
    • Shanmuganathan GnanasambandamNaveen SharmaSriram Kailasam
    • G06F3/12
    • G06F3/1211G06F3/122G06F3/124G06F3/1247G06F3/126G06F3/1267G06F3/1272G06F3/1282G06F3/1286G06F3/1287G06F2206/1508H04L67/12
    • A system for controlling flow of a plurality of raw print jobs from at least one user to at least one printer in a print-shop, the system including: a print job queue adapted to received the plurality of raw print jobs; a controller adapted to monitor the plurality of raw print jobs; an estimation module comprising at least one of an estimated execution time module and an estimated network overhead module, wherein the estimation module is adapted to estimate a time to process each of the plurality of raw print jobs and the estimated network overhead module is adapted to estimate a time to transmit each of the plurality of raw print jobs to an external cloud and receive each of the plurality of raw print jobs from the external cloud; a scheduler adapted to transmit each of the plurality of raw print jobs to the external cloud or the internal cloud based upon at least one of the time to process each of the plurality of raw print jobs and the time to transmit each of the plurality of raw print jobs to the external cloud and to receive each of the plurality of raw print jobs from the external cloud, wherein the external and internal clouds are each adapted to process the plurality of raw print jobs to a plurality of processed print jobs; and, a print ready queue adapted to receive the plurality of processed print jobs and to send the plurality of processed print jobs to a printer.
    • 一种用于控制多个原始打印作业从至少一个用户到打印店中的至少一个打印机的流程的系统,该系统包括:适于接收多个原始打印作业的打印作业队列; 控制器,适于监视所述多个原始打印作业; 估计模块,包括估计的执行时间模块和估计的网络开销模块中的至少一个,其中估计模块适于估计处理多个原始打印作业中的每一个的时间,并且所估计的网络开销模块适于估计 将多个原始打印作业中的每一个发送到外部云并从外部云接收多个原始打印作业中的每一个的时间; 适于将多个原始打印作业中的每一个发送到外部云或内部云的调度器基于处理多个原始打印作业中的每一个的时间中的至少一个和传送多个原始打印作业中的每个原始打印作业的时间 向外部云打印作业并从外部云接收多个原始打印作业中的每一个,其中外部和内部云各自适于将多个原始打印作业处理到多个处理的打印作业; 以及适合于接收所述多个经处理的打印作业的打印就绪队列并将所述多个经处理的打印作业发送到打印机。