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    • 4. 发明公开
    • 기지국 시스템에서의 안테나 제어 시스템 및 그 구성 방법
    • 基站收发站系统配置天线控制系统及方法
    • KR1020160062837A
    • 2016-06-03
    • KR1020140165662
    • 2014-11-25
    • 주식회사 케이엠더블유
    • 이동훈전용효박민지
    • H04L29/10H04L29/04
    • H04W24/02H01Q1/246H04L29/04H04L29/10H04L41/0823H04L41/084H04L41/0873H04W88/085Y02D50/30
    • 기지국시스템에서의안테나제어시스템및 그구성방법을개시한다. 본실시예의일 측면에의하면, 복수의 ALD(Antenna Line Device) 및복수의기지국에연결된복수의포트를포함하는멀티 ALD 시스템에서복수의안테나를제어하기위한방법에있어서, 상기복수의 ALD 중어느하나가상기복수의기지국중 어느하나로부터구성명령(Configuration Command)을수신하는과정; 상기구성명령을수신한 ALD가다른 ALD 각각으로상기구성명령을전달하는과정; 및상기복수의 ALD 각각이상기구성명령에따라제어할안테나또는연결할포트를설정하는과정을포함하는것을특징으로하는안테나제어방법을제공한다. 본실시예의다른측면에의하면, 복수의안테나를제어하기위한멀티 ALD(Antenna Line Device) 시스템에있어서, 복수의기지국과각각연결되는복수의포트; 및복수의안테나를제어하기위한복수의 ALD를포함하되, 상기복수의 ALD 각각은서로통신가능하도록연결되어복수의기지국중 어느한 기지국으로부터수신한구성명령에따라제어할안테나또는연결할포트를설정하는것을특징으로하는멀티 ALD 시스템을제공한다.
    • 公开了一种基站系统中的天线控制系统及其配置方法。 本发明的实施例涉及一种用于控制多天线线路设备(ALD)系统中的多个天线的方法,所述多天线线路设备包括多个ALD和连接到多个基站的多个端口,其中用于控制多ALD系统中的多个天线的方法包括 所述多个ALD中的一个从多个基站之一接收配置命令; 接收到配置命令的ALD向每个其他ALD发送配置命令; 并且多个LDS中的每一个根据配置命令设置要控制的天线或要连接的端口。 本发明的另一实施例涉及一种用于控制多个天线的多ALD系统,包括:分别连接到多个基站的多个端口; 以及用于控制多个天线的多个ALD,其中多个ALD中的每一个被连接以彼此通信,从而根据从多个基站之一接收的配置命令将天线设置为控制或端口进行连接。
    • 6. 发明授权
    • 모바일 클라우드 환경에서 클러스터링을 이용한 자율 성능 최적화 방법
    • 自动优化使用移动云环境中的聚类性能的方法
    • KR101396394B1
    • 2014-05-19
    • KR1020130029677
    • 2013-03-20
    • 주식회사 스마티랩
    • 라현정김수동
    • H04L12/24H04L12/26
    • H04L41/0823H04L43/04H04L43/08
    • The present invention, minimizing overheads consumed in maintaining overall quality and efficiently and dynamically managing the quality by autonomous determination in a highly heterogeneous environment including mobile terminal nodes, services, practical servers/nodes of the services and multiple mobile applications using them, comprises the steps of: (a) making a node manager measure multiple qualities of a corresponding node and making the node manager transmit data on the qualities to a corresponding cluster manager in the case that a difference between a currently measured quality and a previously measured quality is larger than a predefined threshold in the case that a mobile cloud manager, including a global manager, a cluster manager and the node manager for optimizing autonomous performance in a mobile cloud environment (MCE), divides a quality management task and performs the divided task; making the cluster manager allocated in each cluster evaluate whether the current quality is in a stable level and establishing a cluster level quality improvement plan in the case that the current quality is in an unstable level; and (c) making the cluster manager stabilize the cluster level quality according to the established plan and update modified shape information at a shape related repository. The present invention may solve MCC quality management problems, reduce management overheads and perform efficient quality management.
    • 本发明通过在包括移动终端节点,服务,服务的实际服务器/节点以及使用它们的多个移动应用的高度异质环境中的自主确定来最大限度地降低维护整体质量并有效地并且动态地管理质量所消耗的开销,包括步骤 (a)使节点管理器测量对应节点的多个质量,并使节点管理器在当前测量质量与先前测量质量之间的差异大于的情况下,将质量上的数据发送给相应的集群管理器 在移动云管理器(包括全局管理器,集群管理器)和用于优化移动云环境(MCE)中的自主性能的节点管理器的情况下,划分质量管理任务并执行划分的任务的情况下的预定义阈值; 在当前质量处于不稳定的情况下,使每个集群中分配的集群管理器评估当前质量是否处于稳定水平,并建立集群级质量改进计划; (c)使集群管理者根据已建立的计划来稳定集群级质量,并在形状相关的存储库中更新修改的形状信息。 本发明可以解决MCC质量管理问题,减少管理开销和执行有效的质量管理。
    • 9. 发明授权
    • 고가용성 시스템, 고가용성 시스템의 장치 동기화 방법, 및 고가용성 시스템의 장치 관리 방법
    • 高可用性系统,同步装置的方法和用于管理其中的装置的方法
    • KR101239217B1
    • 2013-03-06
    • KR1020110131503
    • 2011-12-09
    • 주식회사 시큐아이
    • 송민수이만영
    • H04L7/00H04L12/24
    • H04L41/0823H04L63/061
    • PURPOSE: A high availability system, a device synchronization method, and a device management method thereof are provided to safely execute a synchronization process by providing communication authenticated by the outside between the devices which are registered in the high availability system. CONSTITUTION: A session is formed between a first device(110) and a second device(120). The session is formed by using a security protocol. The first device is synchronized with the second device through the session. A set value and data of the first device is transmitted to the second device through the session. The set value is a system set value for enabling the first device to be operated as a master device or a slave device in a high availability system(100). [Reference numerals] (110) First device; (120) Second device; (130) First switch; (140) Second switch; (150) System manager; (AA) Network
    • 目的:提供高可用性系统,设备同步方法及其设备管理方法,以通过提供在高可用性系统中注册的设备之间由外部认证的通信来安全地执行同步过程。 构成:在第一设备(110)和第二设备(120)之间形成会话。 会话通过使用安全协议形成。 第一个设备通过会话与第二个设备同步。 第一设备的设定值和数据通过会话被发送到第二设备。 所述设定值是用于使所述第一设备在高可用性系统(100)中被操作为主设备或从设备的系统设置值。 (附图标记)(110)第一装置; (120)第二装置; (130)第一开关; (140)第二开关; (150)系统经理; (AA)网络