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    • 1. 发明申请
    • Method for selecting access point based on state information about access point
    • 基于接入点状态信息选择接入点的方法
    • US20050030922A1
    • 2005-02-10
    • US10830335
    • 2004-04-21
    • Hyun-Woo LeeSe-Han KimWon RyuChong-Ho Yoon
    • Hyun-Woo LeeSe-Han KimWon RyuChong-Ho Yoon
    • H04L12/28H04W48/20H04W84/12H04W88/08H04Q7/00
    • H04W48/20H04W84/12H04W88/08
    • A method for selecting an access point by considering state information including the number of mobile stations connected in each access point and a traffic amount at each access point is disclosed. The method includes the steps of a) at access points, inserting a first state information of the access point about the number of connected mobile stations into a Beacon frame/Probe Response message frame; b) at the access points, the Beacon frame/Probe Response message frame of the first state information is transmitted to the mobile station; c) at the access points, inserting a second state information about a traffic amount into the Beacon frame/Probe Response message frame; d) at each the access points, the Beacon frame/Probe Response message frame of the second state information is transmitted to the mobile station; and e) at the mobile station, selecting one of access points based on the first and second state information.
    • 公开了一种通过考虑包括连接在每个接入点中的移动站的数量和每个接入点的业务量的状态信息来选择接入点的方法。 该方法包括以下步骤:a)在接入点,将接入点的关于连接的移动台的数量的第一状态信息插入信标帧/探测响应消息帧; b)在接入点,向移动台发送第一状态信息的信标帧/探测响应消息帧; c)在接入点,将关于业务量的第二状态信息插入到信标帧/探测响应消息帧; d)在每个接入点,第二状态信息的信标帧/探测响应消息帧被发送到移动台; 以及e)在所述移动站处,基于所述第一状态信息和所述第二状态信息来选择一个接入点。
    • 4. 发明授权
    • Method for buffering receive packet in media access control for sensor network and apparatus for controlling buffering of receive packet
    • 用于缓冲传感器网络的媒体访问控制中的接收分组的方法和用于控制接收分组的缓冲的装置
    • US07929558B2
    • 2011-04-19
    • US11605925
    • 2006-11-29
    • Se-Han KimYong-Sun KimYoon-Mee DohCheol-Sig Pyo
    • Se-Han KimYong-Sun KimYoon-Mee DohCheol-Sig Pyo
    • H04L12/56
    • H04L47/10H04L47/14H04L47/30H04L47/36H04W28/14
    • Provided is a method for buffering a receive packet in a sensor node including a radio frequency (RF) transceiver, a media access control (MAC) hardware block and a micro controller unit (MCU). The method includes the steps of: a) if a packet is received from the RF transceiver, checking whether or not a packet which is pre-stored in a receive first in first out (FIFO) exists; b) if the pre-stored packet exists in the receive FIFO at step a), checking whether a length of the received packet is the same with the length of the pre-stored packet in the receive FIFO; c) if the length of the received packet is the same with the length of the pre-stored packet in the receive FIFO at the step b), increasing the number of packet which is included in header information, and buffering a physical payload in the receive FIFO; and d) if the pre-stored packet does not exist in the receive FIFO at the step a) nor the length of the received packet is the same with the length of the pre-stored packet in the receive FIFO, consecutively buffering the physical payload with the header in the receive FIFO.
    • 提供了一种用于在包括射频(RF)收发器,媒体访问控制(MAC)硬件块和微控制器单元(MCU)的传感器节点中缓冲接收分组的方法。 该方法包括以下步骤:a)如果从RF收发器接收到分组,则检查先存储在FIFO中的预先存储的分组是否存在; b)如果预先存储的分组在步骤a)存在于接收FIFO中,则检查所接收的分组的长度是否与接收FIFO中预先存储的分组的长度相同; c)如果接收到的分组的长度与在步骤b)的接收FIFO中的预先存储的分组的长度相同,则增加包含在报头信息中的分组的数量,并且缓存在 接收FIFO; 以及d)如果预先存储的分组在步骤a)处不存在于接收FIFO中,并且所接收的分组的长度与接收FIFO中预先存储的分组的长度相同,则连续缓冲物理有效载荷 接收FIFO中的标题。
    • 5. 发明申请
    • Distributional alert system for disaster prevention utilizing ubiquitous sensor network
    • 使用无所不在的传感器网络进行防灾分布式警报系统
    • US20070103298A1
    • 2007-05-10
    • US11595456
    • 2006-11-09
    • Se-Han KimYoon-Mee DohCheol-Sig Pyo
    • Se-Han KimYoon-Mee DohCheol-Sig Pyo
    • G08B1/08
    • G08B25/009G08B25/10G08B27/005
    • Provided is a distributional alert system using a ubiquitous sensor network (USN). When a disaster occurs, the distributional alert system detects it in a sensor node, informs the area where the disaster occurs of danger through an actuator, such as siren, or informs a management system of the danger through a wired/wireless network. The distributional alert system includes: a first sensor node for generating sense data by sensing surroundings with a sensor therein, determining whether a disaster occurs by analyzing the sense data, and creating and transmitting emergency data based on the determination result, while forming a sensor network; and an alerting node for receiving emergency data from the first sensor node on the sensor network, and outputting disaster circumstantial information to a sensor field of the sensor network upon receipt of the emergency data.
    • 提供了使用普遍存在的传感器网络(USN)的分布式警报系统。 当发生灾难时,分布式警报系统会在传感器节点中检测到故障,通过执行器(如警笛)告知灾害发生的危险区域,或通过有线/无线网络通知管理系统危险。 所述分配警报系统包括:第一传感器节点,用于通过在其中传感器感测环境来产生感测数据;通过分析感测数据来确定是否发生灾难;以及在形成传感器网络的同时,基于确定结果创建并发送紧急数据 ; 以及用于从所述传感器网络上的所述第一传感器节点接收紧急数据的报警节点,并且在接收到所述紧急数据时将所述灾害环境信息输出到所述传感器网络的传感器场。
    • 6. 发明授权
    • Distributional alert system for disaster prevention utilizing ubiquitous sensor network
    • 使用无所不在的传感器网络进行防灾分布式警报系统
    • US07825791B2
    • 2010-11-02
    • US11595456
    • 2006-11-09
    • Se-Han KimYoon-Mee DohCheol-Sig Pyo
    • Se-Han KimYoon-Mee DohCheol-Sig Pyo
    • G08B23/00G08B1/08G08B9/00
    • G08B25/009G08B25/10G08B27/005
    • Provided is a distributional alert system using a ubiquitous sensor network (USN). When a disaster occurs, the distributional alert system detects it in a sensor node, informs the area where the disaster occurs of danger through an actuator, such as siren, or informs a management system of the danger through a wired/wireless network. The distributional alert system includes: a first sensor node for generating sense data by sensing surroundings with a sensor therein, determining whether a disaster occurs by analyzing the sense data, and creating and transmitting emergency data based on the determination result, while forming a sensor network; and an alerting node for receiving emergency data from the first sensor node on the sensor network, and outputting disaster circumstantial information to a sensor field of the sensor network upon receipt of the emergency data.
    • 提供了使用普遍存在的传感器网络(USN)的分布式警报系统。 当发生灾难时,分布式警报系统会在传感器节点中检测到故障,通过执行器(如警笛)告知灾害发生的危险区域,或通过有线/无线网络通知管理系统危险。 所述分配警报系统包括:第一传感器节点,用于通过在其中传感器感测环境来产生感测数据;通过分析感测数据来确定是否发生灾难;以及在形成传感器网络的同时,基于确定结果创建并发送紧急数据 ; 以及用于从所述传感器网络上的所述第一传感器节点接收紧急数据的报警节点,并且在接收到所述紧急数据时将所述灾害环境信息输出到所述传感器网络的传感器场。
    • 7. 发明申请
    • METHOD OF CONSTRUCTING TREE NETWORK
    • 构建树网络的方法
    • US20100017511A1
    • 2010-01-21
    • US12443369
    • 2007-09-19
    • Yong-Sun KimSe-Han KimJin-Kyeong KimNae-Soo KimCheol-Sig Pyo
    • Yong-Sun KimSe-Han KimJin-Kyeong KimNae-Soo KimCheol-Sig Pyo
    • G06F15/16
    • H04L12/66
    • Provided is a method of constructing a tree network which includes a first node. The method comprises: (a) the first node determining if there is a child node and requesting a parent node to allow the first node to withdraw if there is no child node; (b) selecting a child node based on remaining amounts of battery power of each child node if there are child nodes of the first node; (c) exchanging positions of the first node and the selected child node and requesting the parent node to allow the first node to withdraw if the child node selected in operation (b) does not have child nodes; and (d) repeating operations (b) and (c) if the child node selected in operation (b) has child nodes. The present invention solves the problem of decreasing lifetimes of upper nodes that consume more battery power than lower nodes due to more traffic transmission and reception.
    • 提供了一种构建包括第一节点的树网络的方法。 该方法包括:(a)第一节点确定是否存在子节点,并且如果不存在子节点则请求父节点允许第一节点撤销; (b)如果存在第一节点的子节点,则基于每个子节点的电池功率的剩余量选择子节点; (c)如果在操作(b)中选择的子节点没有子节点,则交换所述第一节点和所选择的子节点的位置并请求所述父节点允许所述第一节点撤销; 和(d)如果在操作(b)中选择的子节点具有子节点,则重复操作(b)和(c)。 本发明解决了由于更多的业务传输和接收而降低了消耗更多电池电力的上层节点的寿命的问题,比下层节点更多。
    • 8. 发明申请
    • Method for buffering receive packet in media access control for sensor network and apparatus for controlling buffering of receive packet
    • 用于缓冲传感器网络的媒体访问控制中的接收分组的方法和用于控制接收分组的缓冲的装置
    • US20070133583A1
    • 2007-06-14
    • US11605925
    • 2006-11-29
    • Se-Han KimYong-Sun KimYoon-Mee DohCheol-Sig Pyo
    • Se-Han KimYong-Sun KimYoon-Mee DohCheol-Sig Pyo
    • H04L12/56H04L12/28
    • H04L47/10H04L47/14H04L47/30H04L47/36H04W28/14
    • Provided is a method for buffering a receive packet in a sensor node including a radio frequency (RF) transceiver, a media access control (MAC) hardware block and a micro controller unit (MCU). The method includes the steps of: a) if a packet is received from the RF transceiver, checking whether or not a packet which is pre-stored in a receive first in first out (FIFO) exists; b) if the pre-stored packet exists in the receive FIFO at step a), checking whether a length of the received packet is the same with the length of the pre-stored packet in the receive FIFO; c) if the length of the received packet is the same with the length of the pre-stored packet in the receive FIFO at the step b), increasing the number of packet which is included in header information, and buffering a physical payload in the receive FIFO; and d) if the pre-stored packet does not exist in the receive FIFO at the step a) nor the length of the received packet is the same with the length of the pre-stored packet in the receive FIFO, consecutively buffering the physical payload with the header in the receive FIFO.
    • 提供了一种用于在包括射频(RF)收发器,媒体访问控制(MAC)硬件块和微控制器单元(MCU)的传感器节点中缓冲接收分组的方法。 该方法包括以下步骤:a)如果从RF收发器接收到分组,则检查先存储在FIFO中的预先存储的分组是否存在; b)如果预先存储的分组在步骤a)存在于接收FIFO中,则检查所接收的分组的长度是否与接收FIFO中预先存储的分组的长度相同; c)如果接收到的分组的长度与在步骤b)的接收FIFO中的预先存储的分组的长度相同,则增加包含在报头信息中的分组的数量,并且缓存在 接收FIFO; 以及d)如果预先存储的分组在步骤a)处不存在于接收FIFO中,并且所接收的分组的长度与接收FIFO中预先存储的分组的长度相同,则连续缓冲物理有效载荷 接收FIFO中的标题。