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
    • TRANSPARENT SIGNAL RELAY SYSTEM FOR PACKET TRANSMISSION SERVICES
    • 用于分组传输服务的透明信号继电器系统
    • WO2007057186A1
    • 2007-05-24
    • PCT/EP2006/011005
    • 2006-11-16
    • TYNTEC LTD.BEGALL, ChristophKOWALZIK, MichaelTRAPP, ThorstenWAADT, AndreasBRUCK, Guido, H.JUNG, Peter
    • BEGALL, ChristophKOWALZIK, MichaelTRAPP, ThorstenWAADT, AndreasBRUCK, Guido, H.JUNG, Peter
    • H04L12/66H04L12/56
    • H04L12/66H04L45/00H04L51/30H04L51/38
    • A system for sending a data packet from a first communication network (255) to a second communication network (270) is disclosed in which the second communication network (270) is directly unreachable by the first communication network (255). The system comprises a transmitting device for transmitting the data packet to the first communication network; a receiving device for accepting the data packet from the second communication network and generating a data packet response; and a relay (260) for acceptance of the data packet from the first communication network (255), passing the data package to the second communication network (270) and for acceptance of the generated data package response and passing the generated data packet response to the first communication network (255). Furthermore a Method for sending the data packet from the first communication network (255) into the second communication network (270) is taught which has the following steps: the data packet from the first communication network (255) is passed into the second communication network (270), a response signal is awaited; and the response signal is forwarded back into the first communication network (255).
    • 公开了一种用于从第一通信网络(255)向第二通信网络(270)发送数据分组的系统,其中第二通信网络(270)由第一通信网络(255)直接不可达。 该系统包括用于将数据分组发送到第一通信网络的发送装置; 接收装置,用于接收来自第二通信网络的数据分组并产生数据分组响应; 以及用于接收来自第一通信网络(255)的数据分组的中继(260),将数据包传递到第二通信网络(270),并接收生成的数据包响应并将生成的数据分组响应传递给 第一通信网(255)。 此外,教导了将数据分组从第一通信网络(255)发送到第二通信网络(270)的方法,其具有以下步骤:将来自第一通信网络(255)的数据分组传递到第二通信网络 (270),等待响应信号; 并且将响应信号转发回到第一通信网络(255)。
    • 3. 发明申请
    • RECONFIGURABLE QUALITY OF SERVICE MONITORING FOR MESSAGING IN MOBILE COMMUNICATIONS NETWORKS
    • 在移动通信网络中发送消息的可重构质量服务监控
    • WO2006136375A1
    • 2006-12-28
    • PCT/EP2006/005913
    • 2006-06-20
    • KOWALZIK, MichaelTRAPP, ThorstenBEGALL, ChristophJUNG, PeterWAADT, AndreasBRUCK, Guido
    • KOWALZIK, MichaelTRAPP, ThorstenBEGALL, ChristophJUNG, PeterWAADT, AndreasBRUCK, Guido
    • H04Q7/22
    • H04W4/14H04W24/00H04W88/184
    • In mobile environments, packet transmission services suffer from packet losses due to e.g. inadequate received signal quality, which is caused by the time and frequency selectivity of the mobile radio channel and by imperfections of mobile terminals, but also due to time-outs and entailed packet deletions, forced by protocols in the signaling domain of the infrastructure of a mobile communications network. To reduce the impact of packet losses and, hence, to improve the quality of packet transmission services, such as e.g. the Short Message Service (SMS) deployed in GSM (Global System for Mobile Communications) and in GPRS (General Packet Radio Service) based mobile communications networks, a quantitative analysis of the Quality of Service (QoS) in the signaling domain is mandatory. For this reason, appropriate additional QoS parameters, which complement the presently existing set of QoS parameters defined by e.g. ETSI, are needed. In this communication, the authors propose such QoS parameters and apply them to the SMS in GSM networks. Furthermore, a system framework for QoS monitoring, alerting and reconfiguring an SMS Center is presented. The system framework operates near real-time and, therefore, facilitates the reduction of the turnaround time needed for necessary reconfigurations at the SMS Center to maintain a high QoS level. Also, selected monitoring results gathered during real world network operation are presented and discussed.
    • 在移动环境中,分组传输服务由于例如分组丢失而遭受分组丢失。 接收到的信号质量不足,这是由于移动无线电信道的时间和频率选择性以及移动终端的缺陷引起的,而且还由于超时和带来的分组删除,由基站的信令域中的协议强制 移动通信网络。 为了减少分组丢失的影响,并且因此提高分组传输服务的质量,例如, 在GSM(全球移动通信系统)和基于GPRS(通用分组无线电业务)的移动通信网络中部署的短消息服务(SMS),信令域中的服务质量(QoS)的定量分析是强制性的。 为此,适当的额外的QoS参数补充了由现有的QoS参数组合定义的QoS参数。 ETSI是必需的。 在此通信中,作者提出了这样的QoS参数,并将其应用于GSM网络中的SMS。 此外,提出了一种用于QoS监控,警报和重新配置SMS中心的系统框架。 系统框架近乎实时运行,因此有助于减少在SMS中心进行必要的重新配置所需的周转时间,以维持高QoS水平。 同时,介绍并讨论了现实世界网络运行期间收集的选定的监控结果。