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    • 1. 发明授权
    • Method for registering mobile station in mobile communication system
    • 在移动通信系统中注册移动站的方法
    • US5212822A
    • 1993-05-18
    • US623670
    • 1991-01-02
    • Yoshinobu FukumineTakanori UtanoNarumi UmedaSeizo Onoe
    • Yoshinobu FukumineTakanori UtanoNarumi UmedaSeizo Onoe
    • H04W8/18H04W48/08H04W60/04
    • H04W60/04H04W48/08H04W8/183
    • Respective location registration areas (A, B, C,) in a mobile communication network include a plurality of base station service areas (a.sub.1 -a.sub.n, b.sub.1 -b.sub.n, c.sub.1 -c.sub.n). By partially overlapping the respective location registration areas, each of the respective base station service areas, for instance, (b.sub.23, c.sub.23) belong to a plurality of location registration areas (B, C). The respective base station (b.sub.23, c.sub.23) transmits all the location registration codes (B, C) together with one designated primary location registration area code (B) to be selected by a mobile station. The mobile station begins communication after registering the designated area code. When, during communication, the mobile station moves beyond the location registration area boundary, no registration is updated so long as the mobile station stays within communication with a base station transmitting the designated registered area code. When the mobile station moves out of the base station area, the registration code is updated to a new location registration area. Accordingly, the number of location registration updates due to movement of the mobile station near the boundary of location registration areas is decreased in comparison with a conventional method.
    • 移动通信网络中的各个位置注册区域(A,B,C)包括多个基站服务区域(a1-an,b1-bn,c1-cn)。 通过部分地重叠各个位置登记区域,各个基站服务区域(例如,(b23,c23))中的每一个属于多个位置登记区域(B,C)。 相应的基站(b23,c23)将所有的位置登记码(B,C)与一个指定的主要位置登记区号(B)一起发送,由移动台选择。 注册指定区域代码后,移动台开始通信。 当在通信期间移动台移动超过位置登记区域边界时,只要移动站与发送指定的注册区域代码的基站保持通信,就不更新注册。 当移动台从基站区域移出时,将注册码更新到新的位置登记区域。 因此,与常规方法相比,由于移动站在位置登记区域的边界附近的移动而导致的位置登记更新次数减少。
    • 2. 发明授权
    • Method and apparatus for locating which zone and sector of a mobile
communication system a mobile station is in
    • 用于定位移动通信系统的移动通信系统的方法和装置移动站
    • US5230081A
    • 1993-07-20
    • US689834
    • 1991-06-26
    • Tomoyuki YamadaSeizo OnoeNarumi UmedaTakanori Utano
    • Tomoyuki YamadaSeizo OnoeNarumi UmedaTakanori Utano
    • H04W16/24H04W64/00
    • H04W64/00H04W16/24
    • A location method and system for a mobile communication system having a plurality of zones and a plurality of sectors in each zone. The location method and system locate a zone and sector in a zone where a mobile station is located. In the location system a base station associated with each zone transmits a control channel signal and transmits a sector signal for each sector in the zone. Each control signal of a zone differs from control channel signals of other zones. Each sector signal differs from other sector signal and control channel signals. A mobile station controller associated with each mobile station receives the control channel signals, determines which zone the mobile station is in as a location zone based on the received control channel signals, receives sector signals for sectors within the location zone, and determines which sector of the location zone the mobile station is in as a location sector based on the received sector signals.
    • PCT No.PCT / JP90 / 01190 Sec。 371日期1991年6月26日 102(e)1991年6月26日PCT 1990年9月18日PCT PCT。 出版物WO91 / 04616 日期:1991年4月4日。一种用于移动通信系统的位置方法和系统,其具有每个区域中的多个区域和多个扇区。 定位方法和系统定位移动台所在区域中的区域和扇区。 在位置系统中,与每个区域相关联的基站发送控制信道信号并且发送区域中的每个扇区的扇区信号。 区域的每个控制信号与其他区域的控制信道信号不同。 每个扇区信号与其他扇区信号和控制信道信号不同。 与每个移动站相关联的移动站控制器接收控制信道信号,基于接收到的控制信道信号确定移动站所在的区域作为位置区域,接收位置区域内的扇区的扇区信号, 基于所接收的扇区信号,移动台位于所述位置区域作为位置扇区。
    • 3. 发明授权
    • Signal transmission system capable of performing re-transmission control
in units of slots
    • 能够以时隙为单位执行重发控制的信号传输系统
    • US5210751A
    • 1993-05-11
    • US839031
    • 1992-02-18
    • Seizo OnoeKimitoshi FunakawaNarumi UmedaTamami Suzuki
    • Seizo OnoeKimitoshi FunakawaNarumi UmedaTamami Suzuki
    • H04L1/18
    • H04L1/1809H04L1/007H04L1/0072H04L1/1806
    • In a message-transmitting station, a signal to be transferred is divided into a plurality of time slots, an error correcting/detecting code is added to each time slot, and a re-transmission sequence order number in unit of messages, a re-transmission number and an address designating ID of a terminal device are added to a specified time slot. Then, data of the time slots are transmitted from the message-transmitting station to a message-receiving station. In the message-receiving station, it is determined whether or not any order number is missing, by demodulating and decoding the data unit containing the re-transmission sequence order number and the address, and a re-transmission request signal is transferred in accordance with the result of the comparison between the sequence number included in the demodulated, decoded data unit and the sequence number received last as an indication of the condition in which the data in each data unit has reached the message-receiving station. Further, at least one of any specified and all of the time slots are re-transmitted from the message-transmitting station in accordance with the re-transmission request signal supplied from the message-receiving station.
    • 在消息发送站中,要传送的信号被划分为多个时隙,每个时隙添加纠错/检测码,以消息为单位的重发送顺序号, 发送号码和终端设备的地址指定ID被添加到指定的时隙。 然后,时隙的数据从消息发送站发送到消息接收站。 在消息接收站中,通过对包含重传序列号和地址的数据单元进行解调和解码来确定是否缺少任何订单号,并且根据传输请求信号传送重传请求信号 将包含在解调的解码数据单元中的序列号和最后接收的序列号之间的比较结果作为每个数据单元中的数据已经到达消息接收站的条件的指示的结果。 此外,根据从消息接收站提供的再发送请求信号,从消息发送站重新发送任何指定和全部时隙中的至少一个。
    • 4. 发明授权
    • Location registration system in mobile communication
    • 移动通信中的位置注册系统
    • US5361396A
    • 1994-11-01
    • US117879
    • 1993-09-07
    • Seizo OnoeNarumi UmedaHidemi YamagutiSyuji Yasuda
    • Seizo OnoeNarumi UmedaHidemi YamagutiSyuji Yasuda
    • H04B7/26H04W4/06H04W8/04H04W60/04H04W68/04H04Q7/04
    • H04W60/04H04W4/06H04W68/04H04W8/04
    • In a mobile communication system in which the service area is covered with a plurality of location registration areas each having a plurality of cells each relating to a specific base station, each location registration area has a plurality of groups so that the cells belonging to any group overlaps partly with the cells of other groups, but do not completely coincide with cells of other groups, and each mobile station belongs to one of said groups. When a mobile station moves beyond the border of location registration areas, the location updating for the mobile station is carried out at the cell in which the mobile station stays. In that case, as the mobile stations are classified into a plurality of groups, the traffic in each cell for location updating is dispersed to many cells, and the maximum traffic density for location updating per cell is reduced. So, the number of control channels in the system for location updating may be reduced.
    • 在其中服务区域被多个位置登记区域覆盖的移动通信系统中,每个位置登记区域具有多个与特定基站有关的小区,每个位置登记区域具有多个组,使得属于任何组的小区 部分与其他组的细胞重叠,但不与其他组的细胞完全一致,并且每个移动台属于所述组之一。 当移动站移动超过位置登记区域的边界时,移动站的位置更新在移动站停留的小区处执行。 在这种情况下,由于移动站被分类为多个组,所以用于位置更新的每个小区中的业务被分散到许多小区,并且减少了用于每个小区的位置更新的最大业务密度。 因此,可以减少用于位置更新的系统中的控制信道的数量。
    • 6. 发明授权
    • Signal transmission method and base station in mobile communication
    • 移动通信中的信号传输方法和基站
    • US07944893B2
    • 2011-05-17
    • US12333090
    • 2008-12-11
    • Shinji UebayashiSeizo OnoeMinami IshiiTakehiro Nakamura
    • Shinji UebayashiSeizo OnoeMinami IshiiTakehiro Nakamura
    • H04J13/00
    • H04W28/22H04W24/00H04W28/18H04W72/00H04W76/10H04W76/18H04W84/042
    • A signal transmission method checks, when detecting an occurrence of a communication request, whether the communication request is a high speed communication (step S302). In the case of the high speed communication, it checks whether the number of current high speed communications (m) plus one is greater than the upper limit (mmax) of the high speed communication (step S312). If greater, it cancels the request as a call loss (S316), and sets to a variable a the ratio (h) of the rate of the high speed communication to that of a low speed communication. If the communication request is the low speed communication, it sets one to the variable a (step S304). It compares n plus a with nmax (step S306), where n is the total number of all the current communications, a is the value associated with the communication request, and nmax is the upper limit of the number of communications acceptable in a bandwidth, all of which are expressed in terms of the number of the low speed communications. If n plus a is greater than nmax, the communication request is canceled as a call loss (S316). Otherwise, the total number of the current high speed communications (m) and the total number of all the current communications (n) expressed in terms of the number of the low speed communications are updated, and a channel is assigned to the communication request (step S310).
    • 当检测到通信请求的发生时,信号传输方法检查通信请求是否为高速通信(步骤S302)。 在高速通信的情况下,检查当前高速通信(m)加1的数量是否大于高速通信的上限(mmax)(步骤S312)。 如果较大,则将该请求作为呼叫损失取消(S316),并将高速通信的速率与低速通信的比率(h)设定为变量。 如果通信请求是低速通信,则将其设置为变量a(步骤S304)。 它将n加a与nmax进行比较(步骤S306),其中n是当前通信的总数,a是与通信请求相关联的值,nmax是带宽中可接受的通信数量的上限, 所有这些都以低速通信的数量表示。 如果n加a大于nmax,则通信请求作为呼叫丢失被取消(S316)。 否则,更新当前高速通信的总数(m)和以低速通信的数量表示的所有当前通信的总数(n),并且将通道分配给通信请求 步骤S310)。
    • 7. 发明申请
    • RADIO BASE STATION APPARATUS
    • 无线基站装置
    • US20110026931A1
    • 2011-02-03
    • US12670304
    • 2008-07-23
    • Daisuke KoizumiMasayuki MotegiYoshitsugu ShimazuSeizo OnoeNaoki Nakaminami
    • Daisuke KoizumiMasayuki MotegiYoshitsugu ShimazuSeizo OnoeNaoki Nakaminami
    • H04B10/00
    • H04B1/406H04B1/0483H04B1/18
    • A shared transmission/reception apparatus (OF-TRX) includes: a transmission/reception processor section (TRX-B) for a mobile communication system B configured to perform frequency conversion processing on a transmission baseband signal for the mobile communication system B outputted from a signal converter section (E/O), and to output a transmission radio frequency signal for the mobile communication system B; a power level adjuster section (VA) configured to adjust a power level of a transmission radio frequency signal for a mobile communication system A inputted from a transmission/reception processor section (TRX-A) for the mobile communication system A; a combiner section (COM) configured to generate a transmission radio frequency signal by combining the transmission radio frequency signal for the mobile communication system A outputted from the power level adjuster section (VA) and the transmission radio frequency signal for the mobile communication system B outputted from the transmission/reception processor section (TRX-B) for the mobile communication system B; and a common amplifier section (PA) configured to amplify a power level of the transmission radio frequency signal outputted from the combiner section (COM) at a predetermined amplification rate, and to output the resultant signal.
    • 共享发送接收装置(OF-TRX)包括:移动通信系统B的发送接收处理部(TRX-B),被配置为对从移动通信系统B输出的移动通信系统B的发送基带信号进行变频处理 信号转换部(E / O),输出移动通信系统B的发送射频信号; 功率电平调整部(VA),被配置为调整从用于移动通信系统A的发送/接收处理器部分(TRX-A)输入的移动通信系统A的发送射频信号的功率电平; 配置为通过组合从功率电平调节器部分(VA)输出的移动通信系统A的发送射频信号和输出的移动通信系统B的发送射频信号来生成发送射频信号的组合器部分(COM) 来自用于移动通信系统B的发送/接收处理器部分(TRX-B); 以及公共放大器部(PA),被配置为以预定的放大率放大从组合器部(COM)输出的发送射频信号的功率电平,并输出所得到的信号。
    • 9. 发明授权
    • Wireless channel setting method for mobile communication system and mobile communication control apparatus
    • 移动通信系统和移动通信控制装置的无线信道设置方法
    • US07088960B2
    • 2006-08-08
    • US10600329
    • 2003-06-23
    • Yasuhiro KatoTakehiro NakamuraSeizo OnoeAkihiro MaebaraYutaka OhtoShinji Ueda
    • Yasuhiro KatoTakehiro NakamuraSeizo OnoeAkihiro MaebaraYutaka OhtoShinji Ueda
    • H04B7/00
    • H04W36/06H04W24/00H04W24/10
    • Disclosed is a mobile communication system whereby, to reduce the connection time, a mobile station closely located to a base wireless station is permitted to continue to use a common channel for exchanging signals, and to suppress an increase in interference, an individual channel is set for a mobile station located near the edge of a cell, and to obtain a stabilized communication quality and to prevent an increase in the connection time, the probability that the transmission power will reach an upper limit is reduced. When communication between a mobile station and a wireless base station is started, the wireless base station measures the transmission power and the communication quality in the communication with the mobile station and the utilization ratio for a common channel, and compares the obtained values with predetermined threshold values. When the obtained values are lower than the threshold values, the wireless base station continues to use the common channel for signal transmission/reception. On the other hand, when the obtained values exceed the threshold values, the wireless base station sets an individual channel and sets a wireless channel so as to be capable of the continued use of the individual channel for the exchange of signals.
    • 公开了一种移动通信系统,为了减少连接时间,允许位于基站无线站的移动台继续使用用于交换信号的公共信道,并且抑制干扰的增加,设定个体信道 对于位于小区边缘附近的移动台,为了获得稳定的通信质量并防止连接时间的增加,传输功率将达到上限的概率降低。 当移动站和无线基站之间的通信开始时,无线基站测量与移动站通信的发送功率和通信质量以及公共信道的利用率,并将获得的值与预定阈值进行比较 价值观。 当获得的值低于阈值时,无线基站继续使用用于信号发送/接收的公共信道。 另一方面,当获得的值超过阈值时,无线基站设置单个信道并设置无线信道,以便能够继续使用用于交换信号的各个信道。
    • 10. 发明授权
    • CDMA reception apparatus and received signal power measuring apparatus in CDMA mobile communication system
    • CDMA接收装置和CDMA移动通信系统中的接收信号功率测量装置
    • US06999427B1
    • 2006-02-14
    • US09619361
    • 2000-07-19
    • Masafumi UsudaYoshihiro IshikawaSeizo Onoe
    • Masafumi UsudaYoshihiro IshikawaSeizo Onoe
    • H04B7/185
    • H04W52/228H04B17/318H04B17/391H04W52/225H04W52/243
    • In a CDMA reception apparatus, averaging part for averaging at least one of vector, amplitude and power of received signal of a plurality of transmit power control sections is provided. Further, propagation path variation estimator for estimating a propagation path variation of the present transmit power control section from respective transmit power control sections in the past to obtain a propagation path variation estimation value and propagation path variation correction part (multiplier) for correcting by the propagation path variation estimation value are further provided, wherein the averaging part averages at least one of vector, amplitude and power of received signal of the plurality of transmit power control sections corrected by the propagation path variation correction part (multiplier). With this configuration, the measurement accuracy is improved by measuring received signal power using a plurality of slots including past slots, resulting in more accurate transmit power control.
    • 在CDMA接收装置中,提供了对多个发送功率控制部的接收信号的向量,幅度和功率中的至少一个进行平均的平均部。 此外,传播路径变化估计器用于从过去的各个发射功率控制部分估计当前发射功率控制部分的传播路径变化,以获得用于通过传播校正的传播路径变化估计值和传播路径变化校正部分(乘法器) 进一步提供路径变化估计值,其中平均部分对由传播路径变化校正部分(乘法器)校正的多个发射功率控制部分的接收信号的矢量,幅度和功率中的至少一个进行平均。 利用这种配置,通过使用包括过去时隙的多个时隙测量接收信号功率来提高测量精度,导致更准确的发射功率控制。