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    • 1. 发明授权
    • Mobile communication system, network management apparatus, macrocell base station apparatus, and interference control method
    • 移动通信系统,网络管理装置,宏小区基站装置和干扰控制方法
    • US08700046B2
    • 2014-04-15
    • US13389312
    • 2010-08-18
    • Keisuke EbikoAkito FukuiToyoki Ue
    • Keisuke EbikoAkito FukuiToyoki Ue
    • H04W40/00
    • H04W72/082H04W24/10H04W84/045
    • A mobile communication system wherein the upstream radio channel interference of a macrocell connection terminal with a femtocell base station can be reduced while the consumption of radio resources caused by increase in signaling is being suppressed. The macrocell connection terminal (401) performs, based on an instruction from a macrocell base station (402), an upstream channel transmission and further reports a peripheral-femtocell detection result obtained by a measuring unit to the macrocell base station. The macrocell base station (402) instructs the terminal to perform a peripheral-femtocell detection. The identifier of the terminal and the peripheral-femtocell detection result obtained by the terminal are transmitted to a network management apparatus (404). An interference reduction instruction (frequency band allocation) and the identifier of the terminal to be interference-controlled are received from the network management apparatus, and the frequency band allocation in the upstream channel transmission of the terminal to be interference-controlled is so controlled as to satisfy the interference reduction instruction.
    • 可以减少宏小区连接终端与毫微微小区基站的上行无线信道干扰的移动通信系统,同时抑制由信令增加引起的无线资源的消耗。 宏单元连接终端(401)根据来自宏小区基站(402)的指示执行上行信道传输,并且向宏小区基站进一步报告由测量单元获得的外围毫微微小区检测结果。 宏小区基站(402)指示终端执行外围毫微微小区检测。 由终端获得的终端的标识符和外围毫微微小区检测结果被发送到网络管理装置(404)。 从网络管理装置接收干扰减少指示(频带分配)和要进行干扰控制的终端的标识符,将被干扰控制的终端的上行信道传输中的频带分配控制为 以满足干扰减少指令。
    • 3. 发明授权
    • Management of session control signaling for multicast/broadcast services
    • 多播/广播业务会话控制信令管理
    • US08472377B2
    • 2013-06-25
    • US12680180
    • 2008-03-11
    • Ralf BeckerOsvaldo GonsaAkito FukuiTakeshi Kanazawa
    • Ralf BeckerOsvaldo GonsaAkito FukuiTakeshi Kanazawa
    • H04W4/00
    • H04W72/005
    • The invention relates to a method for distributing control signaling for session control of a multicast or broadcast service within a mobile communication network. Furthermore the invention also provides a base station, mobile terminal and communication system to perform the proposed method. In order to reduce the number of signaling connections for the service, the invention proposes to avoid the initial distribution of session control signaling in the entire mobile communications network or service area. Rather than providing service related control signaling connections upon session start, the control signaling connections are set up in response to service requests of the mobile terminals requesting the service. According to one further aspect, the mobile terminals send the service requests based on service announcements available at the mobile terminals, i.e. in contrast to conventional implementations, the mobile terminals do not await a notification of the access network on the availability of the service within the cell.
    • 本发明涉及一种用于分发用于移动通信网络内的多播或广播服务的会话控制的控制信令的方法。 此外,本发明还提供了一种用于执行所提出的方法的基站,移动终端和通信系统。 为了减少业务的信令连接数量,本发明提出避免在整个移动通信网络或服务区域中的会话控制信令的初始分配。 不是在会话开始时提供与服务相关的控制信令连接,而是响应于请求服务的移动终端的服务请求来建立控制信令连接。 根据另一方面,移动终端基于在移动终端处可用的服务通告来发送服务请求,即与常规实施方式相反,移动终端不等待接入网络对该服务的可用性的通知 细胞。
    • 4. 发明授权
    • Radio communication base station device and radio communication method to shorten a suspension time of an MBMS service when a user equipment moves from a single frequency network area to a non-single frequency network area
    • 无线通信基站装置和无线通信方法,在用户设备从单频网络区域移动到非单频网络区域时,缩短MBMS服务的暂停时间
    • US08396477B2
    • 2013-03-12
    • US12532393
    • 2008-03-21
    • Takeshi KanazawaAkito Fukui
    • Takeshi KanazawaAkito Fukui
    • H04W36/00
    • H04W36/0055H04J11/0093H04W72/005
    • Disclosed are a radio communication base station device and a radio communication method which can reduce the interruption time of a service being received by UE while suppressing a resource consumption amount in an SFN area when the UE performs a handover from the SFN area to a non-SNF area. An MBMS reception request identification unit (127) judges an RRC message inputted from the UE (100). If an MBMS reception request is contained, an MBMS reception request is transmitted to an MBMS reception request storage unit (124). Moreover, when the RRC message from the UE (100) contains an adjacent cell reception quality measurement result, a handover decision unit (126) judges whether to perform a handover to the adjacent cell. The MBMS reception request storage unit (124) stores the MBMS reception request outputted from the MBMS reception request identification unit (127). When the handover decision unit (126) which has decided the handover requests for transmission of an MBMS reception request, the MBMS reception request storage unit (124) transmits the MBMS reception request to an MME (140).
    • 公开了一种无线电通信基站装置和无线电通信方法,当UE执行从SFN区域到非SFN区域的切换时,可以在抑制SFN区域中的资源消耗量的同时,减少UE接收到的业务的中断时间, SNF区域。 MBMS接收请求识别单元(127)判断从UE输入的RRC消息(100)。 如果包含MBMS接收请求,则向MBMS接收请求存储单元(124)发送MBMS接收请求。 此外,当来自UE(100)的RRC消息包含相邻小区接收质量测量结果时,切换判定单元(126)判断是否执行到相邻小区的切换。 MBMS接收请求存储部(124)存储从MBMS接收请求识别部(127)输出的MBMS接收请求。 当决定了MBMS接收请求的发送的切换请求的切换决定部(126)时,MBMS接收请求存储部(124)向MME(140)发送MBMS接收请求。
    • 5. 发明授权
    • Cell selection system, cell selection method, and mobile terminal
    • 小区选择系统,小区选择方法和移动终端
    • US08374152B2
    • 2013-02-12
    • US12739883
    • 2008-08-22
    • Takahisa AoyamaJun HiranoTakashi AramakiAkito Fukui
    • Takahisa AoyamaJun HiranoTakashi AramakiAkito Fukui
    • H04W4/00H04W36/00
    • H04W48/20
    • A cell selection system selects a cell to be used for communications by a mobile terminal in a network having a cell of a mobile phone network and WLAN cells included in the cell. Broadcast information including cell selection information is transmitted in the cell of the mobile phone network. This cell selection information has cell change judgment parameters whose patterns are less than the WLAN cells. The mobile terminal reads the cell selection information from the broadcast information of the mobile phone network, determines a parameter to be used for the judgment on cell selection of a WLAN cell, and judges whether the cell can be changed or not. The cell reselection system restricts the amount of data in the broadcast information even with an increase in the number of WLAN cells included in the cell of the mobile phone network.
    • 小区选择系统选择用于具有移动电话网络的小区和小区中包括的WLAN小区的网络中的移动终端进行通信的小区。 在移动电话网络的小区中发送包括小区选择信息的广播信息。 该小区选择信息具有小于WLAN小区的小区变更判定参数。 移动终端从移动电话网络的广播信息读取小区选择信息,确定要用于WLAN小区的小区选择的判断的参数,并判断小区是否可变。 即使移动电话网络的小区中包括的WLAN小区的数量的增加,小区重选系统也限制广播信息中的数据量。
    • 6. 发明申请
    • RADIO COMMUNICATION BASE STATION DEVICE AND RADIO COMMUNICATION METHOD
    • 无线电通信基站设备和无线电通信方法
    • US20120100896A1
    • 2012-04-26
    • US13339046
    • 2011-12-28
    • Takahisa AOYAMAAkito FukuiDragan Petrovic
    • Takahisa AOYAMAAkito FukuiDragan Petrovic
    • H04W52/02
    • H04W76/28H04W36/30
    • It is possible to provide a radio communication terminal device, a radio communication base station device, and a radio communication method capable of rapidly completing a handover even during DRX/DTX. In the devices and the method, a terminal (100) transmits a quality measurement result to a base station (150) at an Active interval. Here, the terminal (100) sets the DRX/DTX interval to a short interval since performance of a handover is predicted. The base station (150) which has received the quality measurement result transmitted from the terminal (100) recognizes that the terminal has set the DRX/DTX interval to a short interval and transmits a handover instruction to the terminal (100) at the Active interval, considering the shortened DRX/DTX interval.
    • 可以提供即使在DRX / DTX期间能够迅速完成切换的无线通信终端装置,无线通信基站装置和无线通信方法。 在设备和方法中,终端(100)以有效间隔向基站(150)发送质量测量结果。 这里,由于进行切换的预测,所以终端(100)将DRX / DTX间隔设定为短的间隔。 接收到从终端(100)发送的质量测量结果的基站(150)识别出终端已将DRX / DTX间隔设定为短的间隔,并以活动间隔向终端(100)发送切换指示 考虑到缩短的DRX / DTX间隔。
    • 9. 发明申请
    • RADIO COMMUNICATION TERMINAL DEVICE, NETWORK DEVICE, MOBILE COMMUNICATION SYSTEM, AND POSITION REGISTERING METHOD
    • 无线电通信终端设备,网络设备,移动通信系统和位置注册方法
    • US20090270100A1
    • 2009-10-29
    • US12088227
    • 2006-09-27
    • Akito FukuiTakahisa Aoyama
    • Akito FukuiTakahisa Aoyama
    • H04W60/00
    • H04W76/34H04W60/04Y02D70/00Y02D70/1242
    • Disclosed are a radio communication terminal device for reducing a power consumption needed for releasing an RRC Connection after a position registration, a network device, a mobile communication system and a position registering method. In this position registering method, in case the RRC state of a UE is in an Idle state at ST501, the UE sets flag=1, whereas the RRC Connection is established between the UE and a UTRAN. The flag set at ST501 is sent at ST504 to the UTRAN, and the flag received by the UTRAN is stored at ST505. At ST507, an RA Update Accept received by the UTRAN is sent to the UE, and the RRC Connection is released in case the value of the flag stored at ST505 is 1. When the UE receives a DOWNLINK DIRECT TRANSFER, on the other hand, the RRC Connection is released in case the value of the flag set at ST501 is 1.
    • 公开了一种用于在位置登记,网络设备,移动通信系统和位置登记方法之后降低释放RRC连接所需的功耗的无线电通信终端设备。 在该位置登记方法中,在UE在ST501处于空闲状态的情况下,UE设置标志= 1,而在UE与UTRAN之间建立RRC连接。 设置在ST501的标志在ST504被发送到UTRAN,并且在ST505存储由UTRAN接收的标志。 在ST507中,由UTRAN接收到的RA更新接受者被发送给UE,并且在ST505存储的标志的值为1的情况下,解除RRC连接。另一方面,当UE接收到DOWNLINK DIRECT TRANSFER时, 在ST501设置的标志的值为1的情况下,释放RRC连接。
    • 10. 发明申请
    • Control Station Apparatus and Base Station Apparatus
    • 控制站装置和基站装置
    • US20080291866A1
    • 2008-11-27
    • US11579612
    • 2005-04-22
    • Akito Fukui
    • Akito Fukui
    • H04Q7/00
    • H04W56/0015H04W72/005H04W88/12H04W92/12
    • A control station apparatus ensures that, even if transmission times are changed and set, data of channels can be acquired at the receiving end. In this apparatus, a synchronization part (102) uses an RFN counter value and a BFN counter value to synchronize an RNC with a Node (B). An NBAP part (104) sets a changed interval variable and decides, from information of an SFN counter value and a CFN counter value with which the RFN counter value is synchronized, a timing at which to change the changed interval, and transmits, as operation time information, the decided timing to the Node (B). An FP part (107) repetitively transmits the same MCCH data to the Node (B) in a predetermined period for each of changed intervals, while transmitting MICH data to the Node (B) at a predetermined timing.
    • 控制站装置确保即使改变和设置传输时间,也可以在接收端获取信道的数据。 在该装置中,同步部(102)使用RFN计数器值和BFN计数值使RNC与节点(B)同步。 NBAP部分(104)设置改变的间隔变量,并根据SFN计数器值和RFN计数器值同步的CFN计数器值的信息确定改变间隔的定时,并作为操作发送 时间信息,决定定时到节点(B)。 FP部分(107)在预定的定时向每个节点(B)发送MICH数据,在预定的周期内,以每个改变的间隔重复向节点(B)发送相同的MCCH数据。