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    • 1. 发明申请
    • MULTI-MEDIA MESSAGING WITH DYNAMIC TRANSCODING
    • 多媒体消息与动态平移
    • WO2011158224A1
    • 2011-12-22
    • PCT/IE2011/000031
    • 2011-06-16
    • MARKPORT LIMITEDWIJBRANS, KlaasKROL, AramJESTERHOUDT, Ron
    • WIJBRANS, KlaasKROL, AramJESTERHOUDT, Ron
    • H04L12/58H04L29/08
    • H04L65/604H04L51/063H04L51/066H04L51/38H04L65/00H04L67/2823
    • A messaging system (1) has interfaces for receiving and for retrieving messages with content, and an interface for requesting message transcoding by an external platform (7). The system (1) dynamically selects if transcoding is required for a message and, if so, how to perform the transcoding. It determines if transcoding is required according to a determination of capabilities of the receiving device and the nature of the content. Advantageously, the system dynamically learns rules for making this determination, by automatically observing: messages sent from devices of the same type, and/or messages sent to the devices of the same type by trusted systems, and/or modifications performed by an external transcoder on an original message and the resulting transcoder output. A probing component automatically parses received messages to determine content type of a received message to determine the nature of the content.
    • 消息收发系统(1)具有用于接收和用于检索具有内容的消息的接口,以及用于通过外部平台(7)请求消息转码的接口。 系统(1)动态地选择消息需要代码转换,如果是,则如何执行转码。 它根据接收设备的能力的确定和内容的性质确定是否需要代码转换。 有利地,系统通过自动观察从相同类型的设备发送的消息和/或由可信系统发送到相同类型的设备的消息和/或由外部代码转换器执行的修改来动态地学习用于进行该确定的规则 在原始消息和由此产生的代码转换器输出。 探测组件自动解析接收到的消息以确定接收到的消息的内容类型以确定内容的性质。
    • 2. 发明申请
    • VOICE MAIL PROCESSING
    • 语音邮件处理
    • WO2009122389A1
    • 2009-10-08
    • PCT/IE2009/000013
    • 2009-04-01
    • MARKPORT LIMITEDBROUWER, SanderGEEN, DavidWIJBRANS, Klaas
    • BROUWER, SanderGEEN, DavidWIJBRANS, Klaas
    • H04L12/58H04M3/537H04M3/533
    • 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。
    • 3. 发明申请
    • PREDICTION OF MOBILE SUBSCRIBER'S LOCATION
    • 预测移动订户的位置
    • WO2009078001A1
    • 2009-06-25
    • PCT/IE2008/000123
    • 2008-12-19
    • MARKPORT LIMITEDOLSAK, JanKARASEK, Michal
    • OLSAK, JanKARASEK, Michal
    • H04W4/00H04W68/00
    • H04W4/02H04W4/12
    • To reduce the number of SRIs sent to a HLR in GSM, a neural network-based prediction function (neural network, NN) is incorporated in an SMSC. The task of the NN is to predict the location of an MS (e.g. routing information such as Point Codes and Sub System Numbers or Global Titles for recent serving MSCs for a subscriber). The prediction is based on previous SRIs and takes into account the actual date (including distinction between working and non- working day) and time of the day. Thus, instead of an HLR, the NN is interrogated (via a LSRI as shown) to obtain the routing information (serving MSC Point Code or Global Title) needed to deliver a SM to the MS. If delivery of the SM based on the routing information obtained from the NN fails, the HLR is interrogated to obtain up-to-date routing information and the weight matrix of the NN is updated.
    • 为了减少在GSM中发送到HLR的SRI的数量,基于神经网络的预测功能(神经网络,NN)被并入到SMSC中。 NN的任务是预测MS的位置(例如用于订户的最近服务的MSC的路由信息​​,例如点码和子系统号码或全球标题)。 预测是基于以前的SRI,并考虑到实际日期(包括工作和非工作日之间的区别)和当天的时间。 因此,代替HLR,NN被询问(通过如图所示的LSRI),以获得向MS递送SM所需的路由信息​​(服务MSC点代码或全局标题)。 如果基于从NN获得的路由信息​​发送SM失败,则询问HLR以获得最新的路由信息​​,并更新NN的权重矩阵。
    • 4. 发明申请
    • ROUTING OF MOBILE-ORIGINATING SHORT MESSAGES
    • 移动移动短信的路由
    • WO2008093311A1
    • 2008-08-07
    • PCT/IE2008/000007
    • 2008-01-30
    • MARKPORT LIMITEDMACEK, Ondrej
    • MACEK, Ondrej
    • H04Q7/22
    • H04W4/14
    • An overall MO message transmission method involves transmission of multiple messages in a single dialogue. It comprises a first leg between the mobile device and the serving MSC, a second leg between the serving element and the inter-working MSC, and a third leg from the inter-working MSC to the service centre (SC). Use of a single dialogue is of particular benefit where there is concatenation of multiple messages derived from a single user-generated message which is over the stipulated number of characters. The invention adds an information element (RP-MMS) to the RP-MO-DATA element. The purpose of this new information element is to indicate that there are more messages to follow.
    • 整个MO消息传输方法涉及在单个对话中传输多个消息。 它包括移动设备和服务MSC之间的第一分支,服务单元和互通MSC之间的第二分支,以及从互通MSC到服务中心(SC)的第三分支。 单个对话的使用在从单个用户生成的消息导出的多个消息的级联超过规定的字符数的情况下是特别有益的。 本发明向RP-MO-DATA元素添加信息元素(RP-MMS)。 这个新的信息元素的目的是表明有更多的信息需要遵循。
    • 7. 发明申请
    • AN ANALYTICS SERVER AND METHOD
    • 分析服务器和方法
    • WO2015124449A1
    • 2015-08-27
    • PCT/EP2015/052594
    • 2015-02-09
    • MARKPORT LIMITED
    • MINDLIN, Grigory
    • G06F21/31
    • G06F3/0486G06F3/0481G06F21/31G06Q30/0269G06Q50/01
    • An analytics engine (152) receives a drag and drop event message indicating that a first user has dragged content from a source window to a destination window on a split screen display of a first user device (102). It determines an identifier of the first user in response to receiving the drag and drop event message, and retriever a first user profile of the first user using the first user identifier. The first user profile (154) identifies a user category of the first user. The event message includes a unique code (210) which enables tracking by the analytics server (152) of shared content from user to user.
    • 分析引擎(152)在第一用户设备(102)的分屏显示器上接收指示第一用户已经将内容从源窗口拖动到目的地窗口的拖放事件消息。 它响应于接收到拖放事件消息来确定第一用户的标识符,并且使用第一用户标识符来检索第一用户的第一用户简档。 第一用户简档(154)标识第一用户的用户类别。 事件消息包括唯一代码(210),其允许分析服务器(152)跟踪从用户到用户的共享内容。
    • 9. 发明申请
    • METHOD, APPARATUS AND COMPUTER READABLE MEDIUM FOR TERMINATING AND NEWLY CONSTRUCTING A SEND ROUTING INFORMATION (SRI) MESSAGE IN MOBILE NETWORKS
    • 方法,装置和计算机可读介质,用于终止和新建移动网络中的发送路由信息(SRI)消息
    • WO2013127667A1
    • 2013-09-06
    • PCT/EP2013/053338
    • 2013-02-20
    • MARKPORT LIMITED
    • DUMBLETON, SimonPLIMMER, JimBIRCHALL, Ian
    • H04W4/20H04W80/08
    • H04W8/12H04W4/14H04W4/20H04W8/04H04W8/26H04W80/085
    • An originating SMSC in Network A issues an SRI-SM towards the HLR of a recipient (User B in Network B). One of a number of N Platforms or Message Controllers ("MCOs") intercepts the SRI-SM. Instead of passing on the SRI-SM, the MCO terminates it and performs a full decode of all fields, specifically extracting the recipient MSISDN from it. The MCO then constructs a new SRI-SM for the same MSISDN, but forcing the new request to ask for all available data, including, but not necessarily limited to visited-MSC address, SGSN address and IP-SM-GW address. When a response is received the MCO generates a fresh query response for the originating SMSC instead of merely routing on the response which it receives. If the MCO is programmed to provide a false address for smart services it incorporates the false address in the query response which it generates. This avoids need to modify the incoming response and allows considerable additional versatility. For example the MCO may provide a number of false addresses, depending on how it generates the query response.
    • 网络A中的始发SMSC向接收者的HLR(网络B中的用户B)发出SRI-SM。 N个平台或消息控制器(“MCO”)中的一个拦截了SRI-SM。 而不是传递SRI-SM,MCO终止它,并对所有字段执行完全解码,特别是从中提取收件人MSISDN。 然后,MCO为相同的MSISDN构建新的SRI-SM,但强制新请求询问所有可用的数据,包括但不一定限于访问MSC地址,SGSN地址和IP-SM-GW地址。 当接收到响应时,MCO为始发SMSC生成新的查询响应,而不是仅仅根据接收到的响应进行路由。 如果MCO被编程为为智能服务提供虚假地址,则它会在生成的查询响应中包含虚假地址。 这避免了修改传入响应的需要,并允许相当多的多功能性。 例如,MCO可以提供一些假地址,这取决于它如何生成查询响应。
    • 10. 发明申请
    • MESSAGE FLOODING PREVENTION IN MESSAGING NETWORKS
    • 消息传播网络中的消息传播预防措施
    • WO2013124291A1
    • 2013-08-29
    • PCT/EP2013/053331
    • 2013-02-20
    • MARKPORT LIMITED
    • WIJBRANS, KlaasPLIMMER, Jim
    • H04L12/58H04W4/12
    • H04L63/1466H04L12/5895H04L51/12H04L51/38H04L63/1416H04L63/1425H04L63/1433H04L63/20H04W4/12H04W12/12H04W88/184
    • A message flooding prevention system (1) has multiple interceptors (2, 3, 4), each with an interceptor unit linked with an RCS server, and SMSC, or an MMSC. The interceptors (2, 3, 4) are connected to flood detect nodes (10) for receiving messages at a point in a communications network, extracting data from a message, generating at least one code from extracted data, and comparing the code or codes with one or more previous codes. The flood detect nodes (10) determine according to the comparison if the received message is suspected to be a flooding message and if so, performs code generation including hashing. The flood detect nodes (10) save the code to one of a set of database buckets (21), each bucket being associated with a code, and select a bucket according to the generated code, and increment a fill parameter of the selected bucket.
    • 消息洪泛预防系统(1)具有多个拦截器(2,3,4),每个拦截器具有与RCS服务器,SMSC或MMSC链接的拦截器单元。 拦截器(2,3,4)连接到泛洪检测节点(10),用于在通信网络中的一点处接收消息,从消息中提取数据,从提取的数据生成至少一个代码,并将代码或代码 与一个或多个以前的代码。 洪水检测节点(10)根据比较确定接收到的消息是否被怀疑是洪泛消息,如果是,则执行包括散列的代码生成。 洪水检测节点(10)将代码保存到一组数据库桶(21)中的一个,每个桶与代码相关联,并根据生成的代码选择一个桶,并增加所选桶的填充参数。