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1.发明申请公开(公告)号:US20170142626A1
公开(公告)日:2017-05-18
申请号:US15421615
申请日:2017-02-01
Applicant: MOTOROLA SOLUTIONS, INC
Inventor: MIHAEL S. BERCOVICI , EITAN KOREN , EITAN KUGMAN , YARON AVI SHEMESH
CPC classification number: H04W36/20 , H04B1/005 , H04L65/1083 , H04L65/80 , H04L67/148 , H04N21/00 , H04W4/02 , H04W4/80 , H04W16/14 , H04W36/0022 , H04W36/0027 , H04W36/14 , H04W40/22 , H04W64/00 , H04W76/14 , H04W76/15 , H04W88/04 , H04W88/06
Abstract: A method, apparatus, and system are provided for mitigating interference between two communication sessions based on a determined geographical proximity of two mobile devices (MDs) to each other. In one embodiment, a geographical proximity is determined of a first MD, engaged in a first communication session, to a second MD, engaged in a second communication session. Based on the determined geographical proximity, one of the two communication sessions is transferred to the other MD so that both communication sessions are resident at, and can be controlled by, a same MD. In other embodiments, wherein a first MD is engaged in two communication sessions, one of the two communication sessions may be transferred to a second MD that is sufficiently geographically distant from the first MD or the first MD may use a geographically distant remote wireless device as an uplink and downlink relay device for one of the communication sessions.
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Patent Agency Ranking
公开(公告)号:US20170094575A1
公开(公告)日:2017-03-30
申请号:US14870760
申请日:2015-09-30
Applicant: MOTOROLA SOLUTIONS, INC
Inventor: MIHAEL S. BERCOVICI , EITAN KOREN , EITAN KUGMAN , YARON AVI SHEMESH
CPC classification number: H04W36/20 , H04B1/005 , H04L65/1083 , H04L65/80 , H04L67/148 , H04N21/00 , H04W4/02 , H04W4/80 , H04W16/14 , H04W36/0022 , H04W36/0027 , H04W36/14 , H04W40/22 , H04W64/00 , H04W76/14 , H04W76/15 , H04W88/04 , H04W88/06
Abstract: A method, apparatus, and system are provided for mitigating interference between two communication sessions based on a determined geographical proximity of two mobile devices (MDs) to each other. In one embodiment, a geographical proximity is determined of a first MD, engaged in a first communication session, to a second MD, engaged in a second communication session. Based on the determined geographical proximity, one of the two communication sessions is transferred to the other MD so that both communication sessions are resident at, and can be controlled by, a same MD. In other embodiments, wherein a first MD is engaged in two communication sessions, one of the two communication sessions may be transferred to a second MD that is sufficiently geographically distant from the first MD or the first MD may use a geographically distant remote wireless device as an uplink and downlink relay device for one of the communication sessions.
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公开(公告)号:US20170094633A1
公开(公告)日:2017-03-30
申请号:US14869112
申请日:2015-09-29
Applicant: MOTOROLA SOLUTIONS, INC
Inventor: GABI OFIR , EITAN KOREN , ITZHAK SHPERLING
CPC classification number: H04W64/003 , H04W16/18 , H04W24/02 , H04W28/0215 , H04W84/005
Abstract: A method and apparatus for moving network equipment is provided herein. During operation, an optimal base station configuration will be determined. Currently-employed network equipment will be moved based on a determination if adequate coverage will be provided to users of the system.
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4.发明申请公开(公告)号:US20160183288A1
公开(公告)日:2016-06-23
申请号:US14575255
申请日:2014-12-18
Applicant: MOTOROLA SOLUTIONS, INC.
Inventor: ITZHAK SHPERLING , EITAN KOREN
IPC: H04W72/12
CPC classification number: H04W72/1215 , H04W72/0446
Abstract: Disclosed herein are methods and systems for scheduling transmission of uplink communication. One embodiment takes the form of a process carried out by a first-radio-access-network-(RAN) entity in a first RAN, where the first RAN has a first-RAN uplink that is time-synchronized with a second-RAN uplink of a second RAN. The first-RAN entity detects an uplink-scheduling event associated with a mobile radio, and the first-RAN entity also identifies a second-RAN-uplink-transmission time slot for the mobile radio. The first-RAN entity schedules the mobile radio to transmit first-RAN-uplink communication, which is associated with the detected uplink-scheduling event, during a first-RAN-uplink time slot that does not overlap the identified second-RAN-uplink-transmission time slot.
Abstract translation: 这里公开了用于调度上行链路通信的传输的方法和系统。 一个实施例采用在第一RAN中的第一无线电接入网络(RAN)实体执行的过程的形式,其中第一RAN具有与第二RAN上行链路时间同步的第一RAN上行链路 的第二RAN。 第一RAN实体检测与移动无线电相关联的上行链路调度事件,并且第一RAN实体还标识用于移动无线电的第二RAN上行链路传输时隙。 第一RAN实体在与所识别的第二RAN上行链路调度事件不重叠的第一RAN上行链路时隙期间调度移动无线电装置发送与检测到的上行链路调度事件相关联的第一RAN-上行链路通信, 传输时隙。
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5.发明申请公开(公告)号:US20170310815A1
公开(公告)日:2017-10-26
申请号:US15138256
申请日:2016-04-26
Applicant: MOTOROLA SOLUTIONS, INC
Inventor: GABI OFIR , RONY GOTMAN , GUY HOLTZMAN , EITAN KOREN , ITZHAK SHPERLING
CPC classification number: H04M1/72572 , H04W4/021 , H04W4/90 , H04W12/06 , H04W16/18 , H04W24/02 , H04W24/04 , H04W64/003
Abstract: A method and apparatus for provisioning subscriber information to a deployable network in a wirelress communication system. One exemplary embodiment provides a method providing subscriber information to a deployable network including a deployable user subscription database. The method includes determining, by a controller, a location for the deployable network. The method further includes determining, by the controller, a geofence around the location. The method further includes identifying, by the controller, at least one mobile device that may be involved in responding to the incident. The method further includes determining, by the controller, authentication information required for the at least one mobile device to connect to the deployable network. The method further includes conveying, by the controller via a wireless data network, the authentication information to a deployable user subscription database.
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6.发明申请公开(公告)号:US20150092660A1
公开(公告)日:2015-04-02
申请号:US14042191
申请日:2013-09-30
Applicant: Motorola Solutions, Inc.
Inventor: ITZHAK SHPERLING , AMIRAM FRISH , GUY HOLTZMAN , EITAN KOREN , ABRAHAM TOOBA
IPC: H04B7/155
CPC classification number: H04B7/15507
Abstract: A Long Term Evolution (LTE) Concentrator and Distributor system and method extends geographical coverage while minimizing Evolved Node B (eNB) deployments. The system and method use a distributed array of Wide Band Receiver Transmitter (WBRT) devices (i.e., RF Heads, RFH, including antennas) connected via wide-band links to a central standard LTE eNB through a novel LTE Concentrator-Distributor (LTE-CD) which is an uplink (smart optimal) concentrator and downlink simulcast distributor. The eNB downlink signal (baseband or modulated RF) is distributed in synchronization (simulcast) through the LTE-CD to all WBRTs for downlink simulcast transmission to all UEs in the coverage area. The WBRTs receive uplink signals from user equipment, UE, devices in a coverage area, send the uplink signals (baseband or modulated RF) to the LTE-CD which optimally combines all received signals into one best uplink signal that is sent (in baseband or modulated RF) to the eNB.
Abstract translation: 长期演进(LTE)集中器和分配器系统和方法扩展了地理覆盖范围,同时使演进的节点B(eNB)部署最小化。 该系统和方法使用通过新颖的LTE集中器 - 分配器(LTE-LTE)将宽带链路连接到中央标准LTE eNB的宽带接收机发射机(WBRT)设备(即RF头,RFH,包括天线)的分布式阵列, CD),它是上行(智能最优)集中器和下行链路联播分配器。 eNB下行链路信号(基带或调制RF)通过LTE-CD同步(同步)分发到所有WBRT,用于向覆盖区域内的所有UE进行下行链路同播传输。 WBRT从用户设备,UE,覆盖区域中的设备接收上行链路信号,将上行链路信号(基带或调制RF)发送到LTE-CD,其将所有接收到的信号最佳地组合成一个最好的上行链路信号(基带或 调制RF)到eNB。
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