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
    • 2. 发明申请
    • SYSTEM AND METHOD FOR ESTABLISHING RELIABLE COMMUNICATION IN A CONNECTION-LESS ENVIRONMENT
    • 在无连接环境中建立可靠通信的系统和方法
    • WO2010136227A1
    • 2010-12-02
    • PCT/EP2010/052455
    • 2010-02-26
    • ST-ERICSSON SARADULESCU, AndreiVAN DEN HAMER, Peter
    • RADULESCU, AndreiVAN DEN HAMER, Peter
    • H04L29/06
    • H04L69/16H04L69/161H04L69/164
    • The establishment of reliable communication in particular in an environment of the mobile industry processor interface where communication is taking place based on the Unified Protocol is described. In this case based on the timer at the sender (IN)and based on maintaining an originator of a message at the receiver (TG) certain precautions are taken that messages are exchanged correctly and only once an acknowledgement is received from the sender, that a first and a second message have been exchanged correctly a maintained originator at the receiver is released. The same method can also be applied to sending a plurality of messages in sequence by using sequence numbers and replying to them in the same manner. In this case the timer is always restarted, once the message as a first type of message is sent from the sender side and an acknowledge is sent after the last second type of message with a highest sequence number has been received from the receiver side. With the method and the system according to the present invention it is possible to implement the configuration protocol of the Unified Protocol even in a case where a connection-less service which is faster to use is selected. The method according to the present invention may be triggered by a bit that is set in a protocol data unit as20one of the reserved bits (310) in the header there.
    • 描述了在基于统一协议进行通信的移动工业处理器接口的环境中特别建立可靠的通信。 在这种情况下,基于发送器(IN)处的定时器并且基于在接收器(TG)处维护消息的始发者,采取某些预防措施,消息被正确地交换,并且只有在从发送者接收到确认之后, 第一个和第二个消息已经被正确地交换,接收器处的维护发起者被释放。 相同的方法也可以应用于通过使用序列号顺序地发送多个消息,并以相同的方式回复它们。 在这种情况下,一旦从发送方发送作为第一类型的消息的消息,则定时器总是重新启动,并且在从接收器侧接收到具有最高序列号的最后一个第二类型的消息之后发送确认。 利用根据本发明的方法和系统,即使在选择了更快使用的无连接服务的情况下,也可以实现统一协议的配置协议。 根据本发明的方法可以由在协议数据单元中被设置在位于其中的标题中的保留位(310)的一个位的位来触发。
    • 3. 发明申请
    • BUS STATION AND SYSTEM AND METHOD OF MAINTAINING SYNCHRONIZING OF A BUS STATION
    • 总线站和维持公共汽车站同步的系统和方法
    • WO2007063482A2
    • 2007-06-07
    • PCT/IB2006/054467
    • 2006-11-28
    • NXP B.V.VAN VLIMMEREN, BernardusVAN DEN HAMER, PeterDEN BESTEN, Gerrit
    • VAN VLIMMEREN, BernardusVAN DEN HAMER, PeterDEN BESTEN, Gerrit
    • G06F13/42
    • G06F13/42H04L12/40032H04L12/403
    • A bus station circuit (14) operates in an electronic system with a bus (10). The bus station determines an initial synchronization time point by detecting a synchronization signal pattern on the bus and switching to a synchronization enabled state upon detection of the synchronization signal pattern. Starting points of successive messages are determined head to tail from the end points of immediately preceding messages, when operating in the synchronization enabled state. The content of the messages is tested for validity. The bus station switches to a synchronization disabled state in response to detection of a message with invalid content. While in the synchronization disabled state, use of messages that are received is disabled in the bus station circuit. In the synchronization disabled state the bus station waits for a synchronization event to switch back to the synchronization enabled state.
    • 公共汽车站电路(14)在具有总线(10)的电子系统中运行。 总线站通过检测总线上的同步信号模式并在检测到同步信号模式时切换到同步使能状态来确定初始同步时间点。 当在同步启用状态下操作时,连续消息的起始点从紧接的前面的消息的终点开始头对尾地确定。 对消息的内容进行有效性测试。 响应于检测到具有无效内容的消息,总线站切换到禁用同步状态。 在同步禁用状态下,在总线电路中禁止使用接收到的消息。 在同步禁用状态下,总线站等待同步事件切换回同步启用状态。
    • 4. 发明申请
    • SYSTEM AND METHOD FOR SYNCHRONISING A DATA PROCESSING NETWORK
    • 用于同步数据处理网络的系统和方法
    • WO2006092764A1
    • 2006-09-08
    • PCT/IB2006/050632
    • 2006-03-01
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.HEKSTRA-NOWACKA, EwaVAN DEN HAMER, PeterVAN BERKEL, Cornelis, H.RADULESCU, Andrei
    • HEKSTRA-NOWACKA, EwaVAN DEN HAMER, PeterVAN BERKEL, Cornelis, H.RADULESCU, Andrei
    • H04J3/06
    • H04J3/0635H04L7/0008
    • A data processing system according to the invention comprising a group of at least a first and a second module, wherein each module has a data processing facility, a clock for timing data transmissions from the module to another module, a time-slot counter for counting a number of time slots which are available for transmission of data. The modules have a first operational state wherein the counted number of time slots is less than or equal to a predetermined number, in which operational state data transmission is enabled, and a second operational state wherein the number is in excess of the predetermined number, in which second operational state data transmission is disabled, Each module has a notifying facility for notifying when it is in the second operational state. The data processing system has at least one detecting facility that detects whether the other modules have notified that they are in the second operational state and the modules each have an initialization facility for resetting the time-slot counter when the module is in the second operational state and each of the other modules has notified that it is in the second operational state.
    • 根据本发明的数据处理系统包括至少第一和第二模块的组,其中每个模块具有数据处理设施,用于从模块到另一模块的定时数据传输的时钟,用于计数的时隙计数器 可用于传输数据的多个时隙。 模块具有第一操作状态,其中计数的时隙数小于或等于预定数量,其中操作状态数据传输被启用,以及第二操作状态,其中数量超过预定数量,在 哪个第二操作状态数据传输被禁用,每个模块都有一个通知设备,用于通知何时处于第二个操作状态。 数据处理系统具有至少一个检测装置,其检测其他模块是否已经通知它们处于第二操作状态,并且模块各自具有用于当模块处于第二操作状态时复位时隙计数器的初始化设施 并且每个其他模块已经通知它处于第二操作状态。
    • 6. 发明申请
    • BUS STATION AND SYSTEM AND METHOD OF MAINTAINING SYNCHRONIZING OF A BUS STATION
    • 总线站和系统以及维护公交站同步的方法
    • WO2007063482A3
    • 2007-11-15
    • PCT/IB2006054467
    • 2006-11-28
    • NXP BVVAN VLIMMEREN BERNARDUSVAN DEN HAMER PETERDEN BESTEN GERRIT
    • VAN VLIMMEREN BERNARDUSVAN DEN HAMER PETERDEN BESTEN GERRIT
    • G06F13/42
    • G06F13/42H04L12/40032H04L12/403
    • A bus station circuit (14) operates in an electronic system with a bus (10). The bus station determines an initial synchronization time point by detecting a synchronization signal pattern on the bus and switching to a synchronization enabled state upon detection of the synchronization signal pattern. Starting points of successive messages are determined head to tail from the end points of immediately preceding messages, when operating in the synchronization enabled state. The content of the messages is tested for validity. The bus station switches to a synchronization disabled state in response to detection of a message with invalid content. While in the synchronization disabled state, use of messages that are received is disabled in the bus station circuit. In the synchronization disabled state the bus station waits for a synchronization event to switch back to the synchronization enabled state.
    • 总线站电路(14)在具有总线(10)的电子系统中操作。 总线站通过检测总线上的同步信号模式来确定初始同步时间点,并且在检测到同步信号模式时切换到同步使能状态。 当在同步使能状态下工作时,连续消息的起始点从紧接在前的消息的终点确定为头尾。 测试消息的内容的有效性。 响应于检测到具有无效内容的消息,总线站切换到同步禁用状态。 在同步禁用状态下,在总线站电路中禁用接收到的消息的使用。 在同步禁用状态下,总线站等待同步事件切换回同步启用状态。
    • 8. 发明申请
    • ELECTRONIC DEVICE, METHOD FOR FRAME SYNCHRONIZATION, AND MOBILE DEVICE.
    • 电子设备,帧同步方法和移动设备。
    • WO2006134540A1
    • 2006-12-21
    • PCT/IB2006/051860
    • 2006-06-12
    • KONINKLIJKE PHILIPS ELECTRONICS N.V.RADULESCU, AndreiVAN DEN HAMER, Peter
    • RADULESCU, AndreiVAN DEN HAMER, Peter
    • H04L12/64H04J3/06G06F1/04
    • H04L12/2854H04J3/0647H04J3/0676H04L7/02H04L45/00H04L47/26H04L2007/045
    • An electronic device is provided with a plurality of iunctional units (1-10) for communicating at least primary and secondary data (ISOC; BE) based on frames (FR) each being divided into a number of time slot (SL), at least one network node (S1-S4) for coupling functional units (1-10) comprising at least one port (P1, P2, ..., Pk) having an associated receiver port unit (RX 1 , RX 2 , ..., RX k ) for receiving at least primary and secondary data (ISOC; BE) from one of the plurality of iunctional units (1-10) in one of at least one first clock domain; and an associated transmitter port unit (TX 1 , TX 2 , ..., TX k ) for transmitting at least primary and secondary data (ISOC; BE) to another one of the plurality of iunctional units (1-10) in one of at least one second clock domain. The at least one second clock domain is different from the at least one first clock domain. A time indication register (t[port]) is provided for storing information relating to the relative time position of a frame being received via the receiver port unit (RX 1 , RX 2 , ..., RX k ) associated to one of the at least one ports (P1 , P2, ... , Pk) and of a frame being transmitted via the transmitter port unit (TX 1 , TX 2 , ..., TX k ) associated to the one of the at least one ports (P1, P2, ..., Pk), wherein the time indication register (t[port]) is updated according to at least the primary and/or secondary data (ISO; BE) being received via the receiver port unit (RX 1 , RX 2 , ..., RX k ) associated to the one of the at least one ports (P1, P2, ..., Pk). A timer managing means (TMM) is provided for monitoring the at least primary and secondary data (ISOC; BE) received via the receiver port (RX 1 , RX 2 , ..., RX k ) associated to one of the at least one ports (P1, P2, ..., Pk) in one of the at least one first clock domain and for pausing the transmission of at least the primary data (ISOC) via the transmitter port unit (TX 1 , TX 2 , ..., TX k ) associated to the one of the at least one ports (P1, P2, ..., Pk), in one of the at least one second clock domain, if the value of the time indication register exceeds a predetermined threshold.
    • 电子设备具有多个功能单元(1-10),用于至少基于每个被划分为多个时隙(SL)的帧(FR)至少传送主数据和次数据(ISOC; BE),至少 用于耦合功能单元(1-10)的一个网络节点(S1-S4),其包括具有相关联的接收器端口单元(RX&lt; 1&gt; 1)的至少一个端口(P1,P2,...,Pk) 用于从所述多个功能单元(1-10)中的一个接收至少主要和次要数据(ISOC; BE)的接收机(RX 2,..., 在至少一个第一时钟域中的一个中; 以及用于发送至少主要和次要数据的相关联的发射机端口单元(TX 1,TX 2,...,TX&lt; k&gt;), ISOC; BE)到至少一个第二时钟域之一中的多个功能单元(1-10)中的另一个。 至少一个第二时钟域与至少一个第一时钟域不同。 提供时间指示寄存器(t [端口]),用于存储与通过接收器端口单元接收的帧的相对时间位置相关的信息(RX <1> 2 1,TX <2>,...,TX < ,P k),其中所述时间指示寄存器(t [端口])根据至少经由所述接收器端口单元(RX&lt; 1&gt; 1)接收的主数据和/或次要数据(ISO; BE) 与所述至少一个端口(P1,P2,...,Pk)中的所述一个端口相关联的,与所述至少一个端口(P1,P2,...,Pk)中的所述一个端口相关联的RX 2,... RX RX。 提供了定时器管理装置(TMM),用于监视经由接收器端口(RX 1,RX 2)接收的至少主要和次要数据(ISOC; BE)。 与所述至少一个第一时钟域之一中的至少一个端口(P1,P2,...,Pk)中的一个端口相关联并且用于暂停所述至少一个第一时钟域 经由发送器端口单元(TX&lt; 1&gt;,TX&lt; 2&gt;,...,TX&lt; k&gt;)的主数据(ISOC)至少与 如果时间指示寄存器的值超过预定阈值,则在至少一个第二时钟域之一中的至少一个端口(P1,P2,...,Pk)中的一个。