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    • 1. 发明授权
      US08195755B2 Message delivery in mobile networks 有权
    • Message delivery in mobile networks
    • 移动网络中的消息传递
    • US08195755B2
    • 2012-06-05
    • US12733700
    • 2008-09-19
    • Michel De BoerRon JesterhoudtLouis Van Der StamKlaas Wijbrans
    • Michel De BoerRon JesterhoudtLouis Van Der StamKlaas Wijbrans
    • G06F15/16
    • H04W4/12H04L51/00H04L51/38H04W88/184
    • When a device is switched off, all messages for that device are stored in different distributed service centers. For example, the message from user A may be stored in SMSC A and a message from user B in SMSC B where both subscribers and respective SMSCs can even belong to different networks. When the device is switched on again it notifies its presence to the network (performed by the MSC indicating this to the HLR). As a result of this alert, different service centers that have messages pending for that device will be notified that the device has come on-line again (performed by the HLR notifying SMSC A and SMSC B). Instead of directly sending out all messages, as in the prior art, each service center instead schedules the messages in an internal queue for delivery according to a local control scheme, which achieves synchronized delivery from multiple distributed SMSCs even though there is no centralised control. Each service center maps the ‘age’ of the message on its time axis as the time-to-deliver the message to the device. The deliveries are then sent out according to the derived schedule. As independent service centers all will base their decisions on the same length of the delivery schedule and same maximum retention time, the message deliveries of the different service centers will be interleaved with one another. This ensures that for significant time differences, messages from different service centers will still arrive in order at the device.
    • 当设备关闭时,该设备的所有消息都存储在不同的分布式服务中心。 例如,来自用户A的消息可以存储在SMSC A中,以及来自SMSC B中的用户B的消息,其中用户和相应的SMSC甚至可以属于不同的网络。 当设备再次接通时,它通知网络(由MSC执行指示给HLR)。 作为此警报的结果,将通知具有针对该设备的消息待处理的不同服务中心该设备再次上线(由HLR通知SMSC A和SMSC B执行)。 代替直接发送所有消息,如现有技术,每个服务中心,而不是根据本地控制方案,调度内部队列中的消息进行传送,即使没有集中控制,也可实现从多个分布式SMSC的同步传送。 每个服务中心将其时间轴上的消息的“年龄”映射为将消息传递到设备的时间。 然后根据派生时间表发送出货。 作为独立服务中心,所有的决策都将以相同长度的交货计划和相同的最长保留时间作为基础,不同服务中心的消息交付将彼此交错。 这确保了对于显着的时间差异,来自不同服务中心的消息将仍然在设备上按顺序到达。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 2. 发明授权
      US09160569B2 Messaging system and method 有权
    • Messaging system and method
    • 消息系统和方法
    • US09160569B2
    • 2015-10-13
    • US13575101
    • 2011-01-31
    • Klaas WijbransAram Krol
    • Klaas WijbransAram Krol
    • H04W4/00H04L12/58H04W4/14
    • H04L12/5895H04L51/14H04L51/28H04L51/38H04W4/14
    • A messaging method is implemented by a system in a mobile network in which there are mobile devices including devices A, B, C, D, and E. An originating device sends a message addressed to multiple terminating devices. The system receives the messages and correlates them and routes them to the terminating devices. The system correlates the messages by grouping them according to originating device and sending time frame. The system allocates a global title record address from a pool for the session. The system forwards the messages with an MT-FSM, in which the originating device information is included in the message body, and the recipient address is that of the specific terminating device. The system transmits a confirmation message to the originating device.
    • 消息传送方法由移动网络中的系统实现,其中存在包括设备A,B,C,D和E的移动设备。发起设备发送寻址到多个终端设备的消息。 系统接收消息并将它们相关联并将它们路由到终端设备。 该系统通过根据发送设备和发送时间帧对消息进行分组来关联消息。 系统从会话的池中分配全局标题记录地址。 系统使用MT-FSM转发消息,其中始发设备信息包含在消息正文中,接收者地址是特定终端设备的地址。 系统向始发设备发送确认消息。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 3. 发明申请
      US20070287433A1 Device detection in mobile networks 有权
    • Device detection in mobile networks
    • 移动网络中的设备检测
    • US20070287433A1
    • 2007-12-13
    • US11808181
    • 2007-06-07
    • Maurice WollersheimKlaas Wijbrans
    • Maurice WollersheimKlaas Wijbrans
    • H04Q7/38H04Q7/22H04M3/42
    • H04W12/12H04L63/126H04W8/265
    • An application (1, 10, 20) in a mobile network, receives an EIR trigger (MAP CHECK_IMEI). The application generates a signature derived from a device identifier (IMEI) and a subscriber identifier (e.g. IMSI), the signature not having a semantic meaning as it is pseudo-randomly generated. The application (1, 10, 20) checks if the signature exists in a signature store (2, 11, 21); and if not, determines that the device/subscriber combination has not been detected in the network within a certain preceding time window, and stores the signature in the store, with an associated timestamp. It also transmits a notification to an external system such as a device management system. If the signature is already in the database, the application determines that the device/subscriber combination already exists in the network and updates a time stamp associated with the signature in the store to indicate the last time the signature was processed.
    • 移动网络中的应用(1,10,20)接收EIR触发(MAP CHECK_IMEI)。 应用程序生成从设备标识符(IMEI)和订户标识符(例如IMSI)导出的签名,签名在伪随机生成时不具有语义含义。 应用程序(1,10,20)检查签名存储器中是否存在签名存储(2,11,21); 如果不是,则确定在特定的前一时间窗口内没有在网络中检测到设备/用户组合,并且使用相关联的时间戳将签名存储在商店中。 它还向诸如设备管理系统的外部系统发送通知。 如果签名已经在数据库中,则应用程序确定设备/订户组合已经存在于网络中,并更新与商店中的签名相关联的时间戳,以指示最后一次签名被处理。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 4. 发明申请
      US20110244896A1 SUBSCRIBER PROVISIONING METHOD AND SYSTEM 审中-公开
    • SUBSCRIBER PROVISIONING METHOD AND SYSTEM
    • 订户提供方法和系统
    • US20110244896A1
    • 2011-10-06
    • US13139351
    • 2009-12-11
    • Martin BerginkJohan RuiterKlaas Wijbrans
    • Martin BerginkJohan RuiterKlaas Wijbrans
    • H04W4/20H04W8/18
    • H04L51/38H04L51/30H04W8/10H04W88/184
    • A method enables de-provisioning of subscribers and rerouting of an MMS, using the responses of external systems in the normal message flow of sending a MMS from the original network to an out-ported subscriber. There is automatic maintenance of subscriber records in communication networks such as GSM mobile networks. The automatic performance is achieved by monitoring network signalling messages, processing them, and implementing subscriber database processing modifications. The method comprises the step of a data management system receiving information from signalling flows and automatically acting upon this information to modify subscriber data in a database. The information preferably concerns message delivery operations and includes a HLR or HSS response to a routing request.
    • 一种方法可以使用外部系统在从原始网络向出口用户发送MMS的正常消息流中的响应来解除订户和重新路由MMS。 GSM通信网络中的用户记录自动维护。 通过监控网络信令消息,处理它们以及实现用户数据库处理修改来实现自动性能。 该方法包括从信令流接收信息的数据管理系统的步骤,并且自动地对该信息进行动作以修改数据库中的用户数据。 信息优选地涉及消息传递操作,并且包括对路由请求的HLR或HSS响应。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 5. 发明申请
      US20120297004A1 MESSAGING SYSTEM AND METHOD 有权
    • MESSAGING SYSTEM AND METHOD
    • 消息系统和方法
    • US20120297004A1
    • 2012-11-22
    • US13575101
    • 2011-01-31
    • Klaas WijbransAram Krol
    • Klaas WijbransAram Krol
    • G06F15/16
    • H04L12/5895H04L51/14H04L51/28H04L51/38H04W4/14
    • A messaging method is implemented by a system in a mobile network in which there are mobile devices including devices A, B, C, D, and E. An originating device sends a message addressed to multiple terminating devices. The system receives the messages and correlates them and routes them to the terminating devices. The system correlates the messages by grouping them according to originating device and sending time frame. The system allocates a global title record address from a pool for the session. The system forwards the messages with an MT-FSM, in which the originating device information is included in the message body, and the recipient address is that of the specific terminating device. The system transmits a confirmation message to the originating device.
    • 消息传送方法由移动网络中的系统实现,其中存在包括设备A,B,C,D和E的移动设备。发起设备发送寻址到多个终端设备的消息。 系统接收消息并将它们相关联并将它们路由到终端设备。 该系统通过根据发送设备和发送时间帧对消息进行分组来关联消息。 系统从会话的池中分配全局标题记录地址。 系统使用MT-FSM转发消息,其中始发设备信息包含在消息正文中,接收者地址是特定终端设备的地址。 系统向始发设备发送确认消息。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 6. 发明申请
      US20110034151A1 VOICE MAIL PROCESSING 审中-公开
    • VOICE MAIL PROCESSING
    • 语音邮件处理
    • US20110034151A1
    • 2011-02-10
    • US12736383
    • 2009-04-01
    • Sander BrouwerDavid GeenKlaas Wijbrans
    • Sander BrouwerDavid GeenKlaas Wijbrans
    • H04W4/00
    • H04M3/537H04M2203/4536
    • A user directly accesses a stored voicemail message through an SMS and circuit switched voice channel. This has the benefits for the user to directly access a particular voice message stored in the network without the need to listen sequentially through some or all stored voicemail messages or having to listen to a generic operator greeting with the number of messages. The method is reliable because no additional digits are required outside of the standard E.164 numbering plan. The voicemail system sends a voicemail notification SMS containing the depositor's address as the sender address, and an access number in the body text. The access number allows direct access to the voicemail. Through the SMS auto-preview function in the mobile device's standard SMS inbox, a basic interactive voicemail experience is achieved because the device can directly retrieve the voicemail using the access number.
    • 用户通过SMS和电路交换语音信道直接访问存储的语音邮件消息。 这对于用户直接访问存储在网络中的特定语音消息有益,而不需要顺序地通过一些或所有存储的语音邮件消息进行聆听,或者必须收听具有消息数量的通用操作者问候语。 该方法是可靠的,因为在标准E.164编号计划之外不需要额外的数字。 语音邮件系统发送包含存户的地址的语音邮件通知短信作为发件人地址,以及正文文本中的访问号码。 访问号允许直接访问语音信箱。 通过移动设备标准SMS收件箱中的短信自动预览功能,实现基本的交互式语音信箱体验,因为设备可以使用接入号码直接检索语音信箱。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 7. 发明申请
      US20100217817A1 MESSAGE DELIVERY IN MOBILE NETWORKS 有权
    • MESSAGE DELIVERY IN MOBILE NETWORKS
    • 移动网络中的消息传递
    • US20100217817A1
    • 2010-08-26
    • US12733700
    • 2008-09-19
    • Michel De BoerRon JesterhoudtLouis Van Der StamKlaas Wijbrans
    • Michel De BoerRon JesterhoudtLouis Van Der StamKlaas Wijbrans
    • G06F15/16
    • H04W4/12H04L51/00H04L51/38H04W88/184
    • When a device is switched off, all messages for that device are stored in different distributed service centres. For example, the message from user A may be stored in SMSC A and a message from user B in SMSC B where both subscribers and respective SMSCs can even belong to different networks. When the device is switched on again it notifies its presence to the network (performed by the MSC indicating this to the HLR). As a result of this alert, different service centres that have messages pending for that device will be notified that the device has come on-line again (performed by the HLR notifying SMSC A and SMSC B). Instead of directly sending out all messages, as in the prior art, each service centre instead schedules the messages in an internal queue for delivery according to a local control scheme, which achieves synchronised delivery from multiple distributed SMSCs even though there is no centralised control. Each service centre maps the ‘age’ of the message on its time axis as the time-to-deliver the message to the device. The deliveries are then sent out according to the derived schedule. As independent service centres all will base their decisions on the same length of the delivery schedule and same maximum retention time, the message deliveries of the different service centres will be interleaved with one another. This ensures that for significant time differences, messages from different service centres will still arrive in order at the device.
    • 当设备关闭时,该设备的所有消息都存储在不同的分布式服务中心。 例如,来自用户A的消息可以存储在SMSC A中,以及来自SMSC B中的用户B的消息,其中用户和相应的SMSC甚至可以属于不同的网络。 当设备再次接通时,它通知网络(由MSC执行指示给HLR)。 作为此警报的结果,将通知具有针对该设备的消息待处理的不同服务中心该设备再次上线(由HLR通知SMSC A和SMSC B执行)。 代替直接发送所有消息,如现有技术,每个服务中心,而不是根据本地控制方案,调度内部队列中的消息进行传送,即使没有集中控制,也可实现从多个分布式SMSC的同步传送。 每个服务中心将其时间轴上的消息的“年龄”映射为将消息传递到设备的时间。 然后根据派生时间表发送出货。 作为独立服务中心,所有的决策都将以相同长度的交货计划和相同的最长保留时间作为基础,不同服务中心的消息交付将彼此交错。 这确保了对于显着的时间差异,来自不同服务中心的消息将仍然在设备上按顺序到达。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 8. 发明授权
      US08452866B2 Network resource management 有权
    • Network resource management
    • 网络资源管理
    • US08452866B2
    • 2013-05-28
    • US12733132
    • 2008-07-17
    • Michel De BoerHugh CarrWim WedershovenKlaas WijbransIgor RadovanovićTanir Özçelebi
    • Michel De BoerHugh CarrWim WedershovenKlaas WijbransIgor RadovanovićTanir Özçelebi
    • G06F15/173
    • H04L47/24H04L47/14H04L47/15H04L47/70H04L65/1016H04L65/80
    • The invention provides real time dynamic resource management to improve end-to-end QoS by mobile devices regularly updating a resource availability server (RAS) with resource update information. Examples of resource update information are device battery status, available memory, session bandwidth, delay, packet loss, and jitter, network element storage capacity, network element processing power. This information is made available by the RAS. In addition, the RAS generates and maintains predictive models and makes available predictive data from these models. Network elements and devices retrieve this information in the form of notifications from the RAS or by way of querying the RAS. The network elements and devices, based on these predictions, act to negotiate sessions to optimise QoS. In one embodiment the RAS is updated by only mobile devices subscribed to the operator which hosts the RAS. The update information is addressed to the RAS as a stand-alone entity. However, it is envisaged that the server may be hosted by multiple operators and may receive updates from devices subscribed to different operators. Also, it is envisaged that not only mobile devices but also network elements such as MMSCs may send update information.
    • 本发明提供实时动态资源管理,以通过资源更新信息定期更新资源可用性服务器(RAS)来改进移动设备的端到端QoS。 资源更新信息的示例是设备电池状态,可用存储器,会话带宽,延迟,分组丢失和抖动,网元存储容量,网元处理能力。 该信息由RAS提供。 此外,RAS生成和维护预测模型,并提供来自这些模型的预测数据。 网络元素和设备以RAS的通知形式或通过查询RAS的方式检索此信息。 基于这些预测的网络元件和设备用于协商会话以优化QoS。 在一个实施例中,RAS仅由订阅承载RAS的运营商的移动设备更新。 更新信息作为独立实体发送给RAS。 然而,设想服务器可以由多个运营商托管,并且可以从订阅不同运营商的设备接收更新。 此外,可以想到,不仅移动设备,而且诸如MMSC的网络元件可以发送更新信息。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 9. 发明授权
      US07860488B2 Device detection in mobile networks 有权
    • Device detection in mobile networks
    • 移动网络中的设备检测
    • US07860488B2
    • 2010-12-28
    • US11808181
    • 2007-06-07
    • Maurice WollersheimKlaas Wijbrans
    • Maurice WollersheimKlaas Wijbrans
    • H04Q7/38
    • H04W12/12H04L63/126H04W8/265
    • An application (1, 10, 20) in a mobile network, receives an EIR trigger (MAP CHECK_IMEI). The application generates a signature derived from a device identifier (IMEI) and a subscriber identifier (e.g. IMSI), the signature not having a semantic meaning as it is pseudo-randomly generated. The application (1, 10, 20) checks if the signature exists in a signature store (2, 11, 21); and if not, determines that the device/subscriber combination has not been detected in the network within a certain preceding time window, and stores the signature in the store, with an associated timestamp. It also transmits a notification to an external system such as a device management system. If the signature is already in the database, the application determines that the device/subscriber combination already exists in the network and updates a time stamp associated with the signature in the store to indicate the last time the signature was processed.
    • 移动网络中的应用(1,10,20)接收EIR触发(MAP CHECK_IMEI)。 应用程序生成从设备标识符(IMEI)和订户标识符(例如IMSI)导出的签名,签名在伪随机生成时不具有语义含义。 应用程序(1,10,20)检查签名存储器中是否存在签名存储(2,11,21); 如果不是,则确定在特定的前一时间窗口内没有在网络中检测到设备/用户组合,并且使用相关联的时间戳将签名存储在存储中。 它还向诸如设备管理系统的外部系统发送通知。 如果签名已经在数据库中,则应用程序确定设备/订户组合已经存在于网络中,并更新与商店中的签名相关联的时间戳,以指示最后一次签名被处理。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 10. 发明申请
      US20100299433A1 NETWORK RESOURCE MANAGEMENT 有权
    • NETWORK RESOURCE MANAGEMENT
    • 网络资源管理
    • US20100299433A1
    • 2010-11-25
    • US12733132
    • 2008-07-17
    • Michel De BoerHugh CarrWim WedershovenKlaas WijbransIgor RadovanovicTanir Ozcelebi
    • Michel De BoerHugh CarrWim WedershovenKlaas WijbransIgor RadovanovicTanir Ozcelebi
    • G06F15/173G06F15/16
    • H04L47/24H04L47/14H04L47/15H04L47/70H04L65/1016H04L65/80
    • The invention provides real time dynamic resource management to improve end-to-end QoS by mobile devices regularly updating a resource availability server (RAS) with resource update information. Examples of resource update information are device battery status, available memory, session bandwidth, delay, packet loss, and jitter, network element storage capacity, network element processing power. This information is made available by the RAS. In addition, the RAS generates and maintains predictive models and makes available predictive data from these models. Network elements and devices retrieve this information in the form of notifications from the RAS or by way of querying the RAS. The network elements and devices, based on these predictions, act to negotiate sessions to optimise QoS. In one embodiment the RAS is updated by only mobile devices subscribed to the operator which hosts the RAS. The update information is addressed to the RAS as a stand-alone entity. However, it is envisaged that the server may be hosted by multiple operators and may receive updates from devices subscribed to different operators. Also, it is envisaged that not only mobile devices but also network elements such as MMSCs may send update information.
    • 本发明提供实时动态资源管理,以通过资源更新信息定期更新资源可用性服务器(RAS)来改进移动设备的端到端QoS。 资源更新信息的示例是设备电池状态,可用存储器,会话带宽,延迟,分组丢失和抖动,网元存储容量,网元处理能力。 该信息由RAS提供。 此外,RAS生成和维护预测模型,并提供来自这些模型的预测数据。 网络元素和设备以RAS的通知形式或通过查询RAS的方式检索此信息。 基于这些预测的网络元件和设备用于协商会话以优化QoS。 在一个实施例中,RAS仅由订阅承载RAS的运营商的移动设备更新。 更新信息作为独立实体发送给RAS。 然而,设想服务器可以由多个运营商托管,并且可以从订阅不同运营商的设备接收更新。 此外,可以想到,不仅移动设备,而且诸如MMSC的网络元件可以发送更新信息。
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