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    • 2. 发明申请
    • POINT OF SALE TERMINAL GEOLOCATIONS
    • 销售终端地理要点
    • WO2016200563A8
    • 2017-01-12
    • PCT/US2016032801
    • 2016-05-16
    • GOOGLE INC
    • THROPE GLENNWANG XIAOHANGBERNTSON GLENNBUTLER HARRY LEE IV
    • G06Q30/02G01C21/32H04W4/02
    • G06Q20/204G01C21/00G06N3/02G06Q30/0261H04W4/006H04W4/008H04W4/027H04W4/028
    • Identifying the geolocation of POS terminals using non-payment events to predict when the geolocation of a computing device at a time when the device detects events corresponds to the geolocation of the terminal. The device monitors for pre-selected events and transmit data to the account system. The account system determines a frequency of the events and it reaches a pre-defined threshold, the account system identifies the location of the terminal by identifying the common geolocation of the events. The identified geolocation is saved so that when a user then enters the location and transmits event data to the account system, the system can compare the geolocation of the event data to the saved geolocation to determine whether the computing device is located at the terminal. If the computing device is located at the terminal, the account system transmits offers or other content for display and use at the identified terminal.
    • 使用非支付事件识别POS终端的地理位置,以预测在设备检测到事件时计算设备的地理位置何时对应于终端的地理定位。 设备监控预先选择的事件并将数据传输到帐户系统。 帐户系统确定事件的频率并达到预定义的阈值,帐户系统通过识别事件的公共地理位置来识别终端的位置。 所识别的地理定位被保存,使得当用户然后输入位置并将事件数据发送到帐户系统时,系统可以将事件数据的地理位置与保存的地理位置进行比较,以确定计算设备是否位于终端。 如果计算设备位于终端,则帐户系统在所识别的终端上发送提供或其他内容以进行显示和使用。
    • 3. 发明申请
    • SYSTEMS AND METHODS FOR DETERMINING TEXTING LOCATIONS AND NETWORK COVERAGE
    • 用于确定纺织品位置和网络覆盖的系统和方法
    • WO2016094911A3
    • 2016-08-18
    • PCT/US2015065647
    • 2015-12-14
    • DAVID THOMAS
    • THOMAS DAVID
    • H04W4/02H04W4/14
    • H04W4/028H04L51/20H04L69/28H04L69/40H04W4/001H04W4/02H04W4/026H04W4/12H04W4/14H04W4/206H04W4/22
    • A system utilizing an Adventure Rescue Locator app and a Buddy app allows an adventurer to communicate his or her location throughout an adventure. The ARL app can provide quick and simple check-in messages that transmit location and other information and build a database of known "good" locations from which an adventurer is able to communicate via text, as well as known "not good" locations. The apps can share such information with a wide user-base, thus making the location information available to others. The app can serve to display the adventurer's check-in locations on a map; alert that the adventurer has an adventure in progress; keep track of the time the adventurer is planning on returning home and alert if the Adventurer fails to arrive; auto-confirm check-in texts with the ARL app; etc.
    • 使用Adventure Rescue Locator应用程序和Buddy应用程序的系统允许冒险家在整个冒险中传达他或她的位置。 ARL应用程序可以提供快速简单的签到信息,用于传输位置信息和其他信息,并建立一个已知“好”位置的数据库,冒险者可以通过这些位置通过文本以及已知的“不好”位置进行通信。 应用程序可以以广泛的用户群体共享这些信息,从而使位置信息可供其他人使用。 该应用程序可以在地图上显示冒险家的入住地点; 警惕冒险者冒险进行中; 跟踪冒险家计划回家的时间,如果冒险家没有到达,则提醒他们; 使用ARL应用程序自动确认签入文本; 等等
    • 7. 发明申请
    • MOBILE DEVICE CONTEXT AWARE DETERMINATIONS
    • 移动设备背景知识决定
    • WO2015027248A3
    • 2015-04-09
    • PCT/US2014052583
    • 2014-08-25
    • CELLEPATHY LTDABRAMSON DAN
    • ABRAMSON DANMUSICANT ORENIR SEAN
    • H04W4/04
    • H04M1/72577G01C21/3484G01C21/3641G08G1/0137H04M1/72569H04M1/72572H04W4/001H04W4/027H04W4/028H04W4/046
    • Systems and methods are provided for mobile device context aware determinations. In one implementation inputs are received in relation to a location which corresponding to an incidence of deceleration, the inputs are processed to determine a likelihood that the deceleration is to be maintained for a shorter and/or longer time duration, and based on a determination that the deceleration is to be maintained for longer, a restriction at a device can be modified. According to another aspect, first time intervals which correspond to navigation instances associated with a first instruction provider and second time intervals which correspond to other navigation instances can be received, the first time intervals can be compared with the second time intervals to determine an efficiency of the first navigation provider, and based on a determination that the first navigation provider is relatively efficient, a recommendation to select the first navigation instruction provider can be provided.
    • 为移动设备上下文感知确定提供了系统和方法。 在一个实施例中,相对于对应于减速度的位置的位置接收输入,对输入进行处理以确定在较短和/或更长持续时间内保持减速的可能性,并且基于确定 减速度要保持较长时间,可以修改设备的限制。 根据另一方面,可以接收对应于与第一指令提供者相关联的导航实例的第一时间间隔和对应于其他导航实例的第二时间间隔,可以将第一时间间隔与第二时间间隔进行比较,以确定 第一导航提供者,并且基于第一导航提供者相对有效的确定,可以提供选择第一导航指令提供者的建议。
    • 8. 发明申请
    • MODELING SIGNIFICANT LOCATIONS
    • 建立重要位置
    • WO2014197318A3
    • 2015-03-19
    • PCT/US2014040258
    • 2014-05-30
    • APPLE INC
    • MARTI LUKAS MDAL SANTO MICHAEL PHUANG RONALD KERYUAN
    • H04W24/00
    • H04W4/028G01C21/34G01S5/0278G01S5/0294H04W4/023H04W64/00H04W88/005
    • Techniques for modeling significant locations are described. A significant location can be a location that is significant to a user of a mobile device for a variety of reasons. The mobile device can determine that a place or region is a significant location upon determining that, with sufficient certainty, the mobile device has stayed at the place or region for a sufficient amount of time. The mobile device can construct a state model that is an abstraction of one or more significant locations. The state model can include states representing the significant locations, and transitions representing movement of the mobile device between the locations. The mobile device can use the state model to provide predictive user assistance.
    • 描述了对重要位置进行建模的技术。 出于各种原因,重要的位置可以是对移动设备的用户重要的位置。 在确定移动设备已经在该地点或区域停留足够的时间的情况下,移动设备可以确定地点或区域是重要的位置。 移动设备可以构建作为一个或多个重要位置的抽象的状态模型。 状态模型可以包括表示重要位置的状态,以及表示移动设备在位置之间移动的转换。 移动设备可以使用状态模型来提供预测性的用户帮助。
    • 9. 发明申请
    • PREDICTIVE USER ASSISTANCE
    • 预测用户协助
    • WO2014197321A2
    • 2014-12-11
    • PCT/US2014040273
    • 2014-05-30
    • APPLE INC
    • MARTI LUKAS MDAL SANTO MICHAEL PHUANG RONALD KERYUAN
    • H04W4/028G01C21/34G01S5/0278G01S5/0294H04W4/023H04W64/00H04W88/005
    • Techniques for predictive user assistance are described. A mobile device can learn movement patterns of the mobile device. The mobile device can construct a state model that is an abstraction of locations where the mobile device stayed for sufficient amount of time. The state model can include states representing the locations, and transitions representing movement of the mobile device between the locations. The mobile device can use the state model, a current location of the mobile device, and a current time to determine a predicted future location of the mobile device at a given future time. Based on the predicted location and the given future time, the mobile device can predict what assistance a user of the mobile device may request. The mobile device can then provide the assistance to the user before the given future time.
    • 描述用于预测性用户帮助的技术。 移动设备可以学习移动设备的移动模式。 移动设备可以构建状态模型,其是移动设备停留足够时间的位置的抽象。 状态模型可以包括表示位置的状态,以及表示移动设备在位置之间移动的转换。 移动设备可以使用状态模型,移动设备的当前位置以及当前时间来确定移动设备在给定未来时间的预测的未来位置。 基于预测的位置和给定的未来时间,移动设备可以预测移动设备的用户可以请求哪些帮助。 然后,移动设备可以在给定的未来时间之前向用户提供帮助。