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    • 1. 发明申请
    • EXTERNAL NETWORK CONTROL OF MEDIA SERVICES
    • 媒体服务的外部网络控制
    • WO2012054583A1
    • 2012-04-26
    • PCT/US2011/056859
    • 2011-10-19
    • BEAUMARIS NETWORKS INC. D/B/A BNI VIDEOSCHLACK, John
    • SCHLACK, John
    • H04N7/173
    • H04N21/47202H04N21/4227H04N21/6125
    • A video server delivers video on demand (VOD) and other video services responsive to a remote selection application over an IP network from a personal communication device such as a cellphone or smartphone. The remote selection application drives a user interface of available content, and transmits a user selection request to the video delivery server via a public access network such as the Internet. The video server correlates the identity of the requesting user with a video services channel in communication with a settop box or similar device of the user, and delivers the content to the client video device for rendering. In contrast to conventional VOD where the video services request emanates from the set top box on the same communication path (QAM channel) as the downstream signals containing the VOD content, the remote selection application is independent of the client device on an HFC network.
    • 视频服务器通过IP网络从个人通信设备(例如手机或智能电话)响应于远程选择应用来提供视频点播(VOD)和其他视频服务。 远程选择应用程序驱动可用内容的用户界面,并且经由诸如因特网的公共接入网络将视频传送服务器发送用户选择请求。 视频服务器将请求用户的身份与与用户的机顶盒或类似设备通信的视频服务信道相关联,并将内容传送到客户端视频设备进行呈现。 与传统VOD相比,视频服务请求在与包含VOD内容的下行信号相同的通信路径(QAM信道)上发出的机顶盒,远程选择应用独立于HFC网络上的客户端设备。
    • 2. 发明申请
    • MULTI-SERVICE BANDWIDTH ALLOCATION
    • 多业务带宽分配
    • WO2011100459A1
    • 2011-08-18
    • PCT/US2011/024386
    • 2011-02-10
    • BEAUMARIS NETWORKS INC. D/B/A BNI VIDEOSCHLACK, John
    • SCHLACK, John
    • H04N7/16
    • H04N21/2385H04L41/0896H04L47/72H04N21/2393H04N21/2402H04N21/47202H04N21/6118H04N21/6408
    • A channel allocation mechanism for manages bandwidth using a channel profile to assure an available channel for supporting the highest expected bandwidth request by leaving a contiguous segment available to support such requests. Configurations discussed further below define a profile for expected media types, and associate each channel with a profile designating the media types assignable on that channel. Each media type includes a service and a bitrate, thus different formats of the same service (such as SD and HD) are distinguished. Each profile specifies a media type, and each channel is associated with one or more profiles. Further, a mapping of channels to associated profiles includes a reserve designation, indicating that other (unreserved) be fully assigned before assigning the reserved channels. The reserved channels provide a contiguous block of bandwidth, so that large bandwidth requests do not encounter assignment failure from a plurality of sparsely allocated channels.
    • 一种信道分配机制,用于使用信道简档来管理带宽,以通过留下可用于支持这种请求的连续段来确保用于支持最高预期带宽请求的可用信道。 下面进一步讨论的配置定义了预期介质类型的配置文件,并将每个通道与指定该通道上可分配的介质类型的配置文件相关联。 每个媒体类型包括服务和比特率,因此区分相同服务的不同格式(例如SD和HD)。 每个配置文件指定媒体类型,每个频道与一个或多个配置文件相关联。 此外,信道到关联简档的映射包括指定在分配保留信道之前完全分配其他(未预留)的保留指定。 保留的信道提供连续的带宽块,使得大的带宽请求不会从多个稀疏分配的信道中遇到分配失败。
    • 3. 发明申请
    • DISTRIBUTED RESOURCE MANAGEMENT
    • 分销资源管理
    • WO2011053909A1
    • 2011-05-05
    • PCT/US2010/054965
    • 2010-11-01
    • BEAUMARIS NETWORKS INC. D/B/A BNI VIDEOSCHLACK, John
    • SCHLACK, John
    • G01R31/08G06F11/00G08C15/00
    • G06F11/2046G06F11/186G06F11/2035H04L47/783
    • A distributed resource management mechanism allocates transmission resources by distributing the resources among a plurality of service nodes each responsible for a portion of the resources according to a hash function. A data center receives resource allocation requests from applications, such as video services applications, including a computed hash value based on the desired resource and indicative of the service node for providing the requested resource. A remote resource management client identifies the resource and computes the hash based on a request from the application, and transmits the request to a resource management server on the service node having the resource indicated by the hash, thus avoiding centralized queuing or caching of the resource requests and instead delegating to the service nodes. Service nodes may redundantly share responsibility for the resources through a root node or a cluster arrangement, providing failover if a service node becomes inoperational.
    • 分布式资源管理机制根据散列函数,通过在各个负责资源的一部分的多个服务节点之间分配资源来分配传输资源。 数据中心从诸如视频服务应用程序的应用程序接收资源分配请求,包括基于所需资源的计算的散列值,并指示用于提供所请求的资源的服务节点。 远程资源管理客户端根据来自应用程序的请求识别资源并计算哈希,并将该请求发送到具有由散列表示的资源的服务节点上的资源管理服务器,从而避免资源的集中排队或高速缓存 请求,而是委派给服务节点。 服务节点可以通过根节点或群集布置冗余地分担资源的责任,如果服务节点变得不工作,则提供故障转移。
    • 4. 发明申请
    • DYNAMIC SERVICE GROUP DISCOVERY
    • 动态服务组发现
    • WO2011068802A1
    • 2011-06-09
    • PCT/US2010/058419
    • 2010-11-30
    • BEAUMARIS NETWORKS INC. D/B/A BNI VIDEOSCHLACK, John
    • SCHLACK, John
    • H04N7/173
    • H04N21/44209H04N21/25808H04N21/6118H04N21/6338H04N21/6405H04N21/6408H04N21/6582
    • A dynamic service group discovery mapping approach avoids manual assignment of stream channels for transporting video services to the client devices that provide the video services to an end user. Client devices, such as set-top boxes, receive video services such as video on demand (VOD), switched digital video (SDV), pay-per view (PPV) and other narrowcast types of video for selective transmission. Each client device scans for visible stream channels, and sends a report indicative of visible stream channels to a dynamic mapping server. The dynamic mapping server applies aggregation rules for determining, based on the reported stream channels, which client devices are in the same service group. By receiving reports from each client device, the dynamic mapping server identifies groupings of service groups by combining sets of client devices receiving common channels, and "builds" the service groups as additional reports indicate common stream channels visible to multiple set top boxes.
    • 动态服务组发现映射方法避免手动分配用于将视频服务传送到向最终用户提供视频服务的客户端设备的流信道。 诸如机顶盒的客户端设备接收诸如视频点播(VOD),交换数字视频(SDV),付费观看(PPV)和其他窄类型的视频的视频服务,用于选择性传输。 每个客户端设备扫描可视流信道,并将指示可视流信道的报告发送到动态映射服务器。 动态映射服务器应用聚合规则,用于根据报告的流信道确定哪个客户端设备在同一服务组中。 通过从每个客户端设备接收报告,动态映射服务器通过组合接收公共信道的客户端设备来识别服务组的分组,并且通过附加报告指示多个机顶盒可见的公共流信道来“构建”服务组。