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公开(公告)号:KR1020130034553A
公开(公告)日:2013-04-05
申请号:KR1020110098634
申请日:2011-09-28
Applicant: 삼성전자주식회사 , 성균관대학교산학협력단
CPC classification number: H04L12/1407 , H04L12/1435 , H04L12/1485 , H04L41/0893 , H04L63/20 , H04M15/66 , H04W12/08
Abstract: PURPOSE: A charging device in a mobile communication network and a charging policy setting method are provided to monitor one service in two or more PCC(Policy and Charging Control) rules by including the PCC rules in a monitoring group. CONSTITUTION: A PCRF(Policy and Charging Rules Function)(150) determines PCC rules for a packet service. The PCRF generates an RAR(Re-Authorization Request) command message. A PCEF(Policy and Charging Enforcement Function)(200) sets the PCC rules based on the RAR command message received from the PCRF. The PCEF sets a monitoring key of the PCC rules based on the RAR command message. The PCEF determines a monitoring level of a usage amount monitoring control instance based on the RAR command message. [Reference numerals] (910) Determining PCC rules; (920) Generating an RAR command message; (930) RAR command message; (940) Setting PCC rules; (950) Setting a monitoring key of the PCC rules; (960) Determining a monitoring level of a usage amount monitoring control instance; (970) RAA message;
Abstract translation: 目的:提供移动通信网络中的计费设备和计费策略设置方法,通过在监控组中包含PCC规则来监控两个或多个PCC(策略和计费控制)规则中的一个业务。 规则:PCRF(策略和计费规则功能)(150)确定分组业务的PCC规则。 PCRF生成RAR(重新授权请求)命令消息。 PCEF(策略和计费执行功能)(200)根据从PCRF接收的RAR命令消息设置PCC规则。 PCEF根据RAR命令消息设置PCC规则的监控密钥。 PCEF基于RAR命令消息来确定使用量监视控制实例的监视级别。 (附图标记)(910)确定PCC规则; (920)生成RAR命令消息; (930)RAR命令消息; (940)设定PCC规则; (950)设置PCC规则的监控密钥; (960)确定使用量监视控制实例的监视级别; (970)RAA消息;
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公开(公告)号:KR101091569B1
公开(公告)日:2011-12-13
申请号:KR1020100091700
申请日:2010-09-17
Applicant: 성균관대학교산학협력단
CPC classification number: H04W72/0446 , H04L12/28 , H04W28/04 , H04W84/18
Abstract: PURPOSE: A method for allocating a guaranteed time slot by a PAN(Personal Area Network) coordinator is provided to allocate a GTS to a terminal which is efficiently used for GTS. CONSTITUTION: The GTS utilization ratio of a terminal allocating GTS is calculated in an i-1th super-frame(S220). A priority value of the terminal is determined based on the GTS utilization ratio of a terminal allocating GTS(S230). The priority of the terminal is determined as the high priority value of i-2 super frame. The GTS is allocated to the terminal for requesting the GTS based on the determined priority value(S270).
Abstract translation: 目的:提供一种由PAN(个人区域网络)协调器分配保证时隙的方法,用于向有效用于GTS的终端分配GTS。 构成:在第i-1个超帧中计算分配GTS的终端的GTS利用率(S220)。 基于分配GTS的终端的GTS利用率来确定终端的优先级值(S230)。 终端的优先级被确定为i-2超帧的高优先级值。 基于所确定的优先级值,GTS被分配给终端请求GTS(S270)。
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公开(公告)号:KR101017277B1
公开(公告)日:2011-02-28
申请号:KR1020090090036
申请日:2009-09-23
Applicant: 성균관대학교산학협력단
CPC classification number: H04B7/2656 , H04B7/2606 , H04W56/00
Abstract: PURPOSE: A method for wireless multi hop network using a synchronous media access control protocol is provided to reduce wake up time by the selection of a frame structure of a small duty cycle. CONSTITUTION: A corresponding node determines a current frame structure(S700). The node includes information about a determined frame structure to a PION. The node transmits the PION to the next hop(S710). If the transmission starting time is between tsleep-DPION and tsleep, the node transmits a control packet(S720). The node maintains an additional active state(S730). The node receives a response PION(S740).
Abstract translation: 目的:提供一种使用同步媒体访问控制协议的无线多跳网络的方法,通过选择小占空比的帧结构来减少唤醒时间。 构成:相应的节点确定当前的帧结构(S700)。 该节点包括关于PION的确定的帧结构的信息。 节点将PION发送到下一跳(S710)。 如果发送开始时间在tsleep-DPION和tsleep之间,则节点发送控制分组(S720)。 节点保持附加的活动状态(S730)。 节点接收响应PION(S740)。
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Patent Agency Ranking
公开(公告)号:KR100954686B1
公开(公告)日:2010-04-27
申请号:KR1020080007927
申请日:2008-01-25
Applicant: 성균관대학교산학협력단
IPC: H04B10/27 , H04B10/25 , H04L12/403
CPC classification number: H04Q11/0067 , H04J3/0682 , H04Q2011/0064 , H04Q2011/0088
Abstract: 본 발명은 이더넷 수동 광 네트워크에서의 폴링 시스템 및 방법을 개시한다. 본 발명에 따른 이더넷 수동 광 네트워크에서의 폴링 시스템은, 이더넷 수동 광 네트워크의 광 채널을 공유하여 트래픽을 전송하기 위한 다수의 ONU(Optical Network Unit, 광 가입자망 장치) 및 다수의 ONU 중 접속 중인 다수의 ONU를 판별하여 접속 중인 다수의 ONU에 대한 라우팅 정보를 수집하고, 라우팅 정보를 토대로 접속 중인 다수의 ONU를 적어도 둘 이상의 ONU 그룹으로 분류한 후, 각 ONU 그룹별로 폴링(Polling) 사이클의 형성 및 대역폭의 할당을 실행하기 위한 OLT(Optical Line Terminal, 광 가입자망 장치)를 포함한다. 따라서, 본 발명은 트래픽 채널에서의 전송휴지구간을 최소화할 뿐만 아니라, 트래픽 채널 이용률을 최대화할 수 있다.
EPON, 폴링-
公开(公告)号:KR1020090090871A
公开(公告)日:2009-08-26
申请号:KR1020080016401
申请日:2008-02-22
Applicant: 성균관대학교산학협력단
CPC classification number: H04L45/302 , H04L45/00 , H04L45/125
Abstract: A link state update system and a control method thereof which efficiently calculates QoS guaranteed route are provided to sense a varied link state and update the link state update. A router unit(300) calculates a QoS guaranteed route satisfying the bandwidth according to a guarantee path setup request. The router sets up the QoS guaranteed route according to whether the route of being calculated exists in the database. A link management unit(500) changes the link status information of the QoS guaranteed route. The link manage changes link according to the QoS guaranteed route of being set up by using the changed link status information. In case the predetermined link information update threshold value is actually greater than one among the available bandwidth of the QoS guaranteed route and the available bandwidth, a database management system(700) renews database by using the changed link status information.
Abstract translation: 提供了有效地计算QoS保证路由的链路状态更新系统及其控制方法,用于感测变化的链路状态并更新链路状态更新。 路由器单元(300)根据保证路径设置请求计算满足带宽的QoS保证路由。 路由器根据数据库中存在的路由是否建立QoS保证路由。 链路管理单元(500)改变QoS保证路由的链路状态信息。 链路通过使用变更后的链路状态信息根据正在建立的QoS保证路由管理变更链路。 在预定链路信息更新阈值实际上大于QoS保证路由的可用带宽和可用带宽之一的情况下,数据库管理系统(700)通过使用改变的链路状态信息来更新数据库。
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公开(公告)号:KR1020090079018A
公开(公告)日:2009-07-21
申请号:KR1020080004926
申请日:2008-01-16
Applicant: 성균관대학교산학협력단
Abstract: A wireless mesh network structure and a method for transmitting data on a wireless mesh network are provided to improve the collision of data frame, the decrease of network throughput due to unnecessary back off, and the increase of delay by using PCF instead of using DCF. A wireless mesh network structure is comprised of MP(15), MAP(20), and MPP(10). PCF which is the contention-free channel access method is used as the multi-hop data method of delivery performed in the mesh bag bone from MPP to MAP. PCF(Point Coordination Function), a contention free channel access method, is used as a mesh network wireless backbone providing wireless communication service to a plurality of user terminals through wireless hop communication between MP(Mesh Point) and a multi hop data delivery method which is performed in a mesh backbone from MPP(Mesh Portal) to MPA(Mesh Access Point). DCF(Distributed Coordination Function), a competitive channel access method, is used for a data transmission between MAP as described above and a user terminal.
Abstract translation: 提供无线网状网络结构和在无线网状网络上传输数据的方法,以改善数据帧的冲突,由于不必要的退避引起的网络吞吐量的减少以及通过使用PCF而不是使用DCF来增加延迟。 无线网状网络结构由MP(15),MAP(20)和MPP(10)组成。 作为无竞争通道访问方式的PCF被用作从MPP到MAP的网袋骨中执行的多跳数据方法。 通过MP(Mesh Point)与多跳数据传送方式之间的无线跳跃通信,将无争用信道接入方式的PCF(Point Coordination Function,无线协调功能)用作网状网络无线主干,为多个用户终端提供无线通信服务, 在从MPP(Mesh Portal)到MPA(Mesh Access Point)的Mesh骨干网中执行。 竞争通道访问方式的DCF(分布式协调功能)用于如上所述的MAP和用户终端之间的数据传输。
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公开(公告)号:KR1020090079013A
公开(公告)日:2009-07-21
申请号:KR1020080004920
申请日:2008-01-16
Applicant: 성균관대학교산학협력단
CPC classification number: Y02D70/40 , H04W52/0209 , H04W28/0278
Abstract: A method for operating a sleep mode for efficient energy management of a mobile terminal is provided to reduce repetition of a sleep interval and a listening interval from a time after the mobile terminal is converted into a sleep mode in a sleep mode algorithm of IEEE 802.16e to a time when data to be received is generated. A method for operating a sleep mode for efficient energy management of a mobile terminal comprises the following steps. A sleep interval value is checked when terminating a sleep mode of the mobile terminal. The amount of data packet stored in a buffer of a base station is checked. The base station sets the minimum sleep interval to be used in the next sleep mode of the mobile terminal based on sleep interval information when a previous sleep mode is terminated.
Abstract translation: 提供了一种用于操作用于移动终端的有效能量管理的睡眠模式的方法,以减少在IEEE 802.16e的睡眠模式算法中将移动终端转换成休眠模式之后的时间的睡眠间隔和收听间隔的重复 到达要接收的数据的时间。 一种用于操作用于移动终端的有效能量管理的睡眠模式的方法包括以下步骤。 当终止移动终端的睡眠模式时,检查睡眠间隔值。 检查存储在基站的缓冲器中的数据分组的数量。 基站在先前的睡眠模式终止时,基于睡眠间隔信息,设定要在移动终端的下次睡眠模式中使用的最小睡眠间隔。
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公开(公告)号:KR1020090076579A
公开(公告)日:2009-07-13
申请号:KR1020080002607
申请日:2008-01-09
Applicant: 성균관대학교산학협력단
IPC: H04B10/27 , H04B10/2581
CPC classification number: H04J14/0282 , H04J14/0227 , H04J14/0247 , H04J14/025 , H04J14/0252 , H04L12/42 , H04Q11/0067 , H04Q2011/0064
Abstract: An upstream transmission band allocation method in a WDM(Wavelength Division Multiplexing)-based EPON(Ethernet Passive Optical Network) is provided to enable efficient band allocation by managing ONUs(Optical Network Units) by group, and to prevent unused channel sections from being generated. ONUs to be allocated to each of m wavelength channels are grouped(S1). So that the grouped ONUs use efficiently allocated wavelengths and time slots, dynamic band allocation algorithm is carried out to allocate each channel. The m wavelength channels are synchronized with one period. The one period is set based on a maximum permissible period. The m wavelength channels are synchronized with sub periods created by dividing the one period into m periods. The overall ONUs are grouped into m+1. The grouped ONUs start to transmit upstream frames at starting time of the synchronized period and sub periods.
Abstract translation: 提供了基于WDM(波分复用)的EPON(以太网无源光网络)中的上行传输频带分配方法,以通过按组管理ONU(光网络单元)来实现有效的频带分配,并且防止产生未使用的信道部分 。 分配给m个波长信道中的每一个的ONU被分组(S1)。 为了使分组的ONU使用有效分配的波长和时隙,执行动态频带分配算法来分配每个信道。 m个波长信道与一个周期同步。 一个时期是根据最大允许周期设定的。 m个波长信道与通过将一个周期分成m个周期而创建的子周期同步。 整个ONU分为m + 1。 组合的ONU在同步周期和子周期的开始时间开始发送上行帧。
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