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    • 1. 发明申请
      WO2010030978A2 SESSION AUTOMATED RECORDING TOGETHER WITH RULES BASED INDEXING, ANALYSIS AND EXPRESSION OF CONTENT 审中-公开
    • SESSION AUTOMATED RECORDING TOGETHER WITH RULES BASED INDEXING, ANALYSIS AND EXPRESSION OF CONTENT
    • 会议记录自动记录与基于规则的索引,内容的分析和表达
    • WO2010030978A2
    • 2010-03-18
    • PCT/US2009/056805
    • 2009-09-14
    • AMAN, James, A.ZUBRISKI, Christopher, P.GALLATIG, John, C.
    • AMAN, James, A.ZUBRISKI, Christopher, P.GALLATIG, John, C.
    • G06F19/00
    • G06K9/00342A63B24/0021A63B2024/0025A63B2024/0028G06Q10/087G06Q10/10
    • A system for contextualizing disorganized content 2a captured from any live session 1 using external devices 30-xd to first detect & record 30-1 session activities Id being conducted by session attendees Ic. Activities Id become normalized tracked object data 2-otd for differentiation 30-2 into normalized session marks 3-pm denoting thresholded activity Id changes. Normalized marks 3-pm are integrated 30-3 into normalized events 4-pe using a "mark creates, start or stops event" model. Events 4-pe may be synthesized 30-4 via waveform convolution forming new combined events 40se, or used as containers to summarize the occurrences of marks 3-pm or other events 4-pe, the results of which create new summary marks 3-sm. Calculation marks 3-tm may also be synthesized 30-4 for sampling various session data at various session times. During content expression 30- 5 events 4-pe and 4-se can be automatically named and foldered creating index 2i and organized content 2b.
    • 用于使用外部设备30-xd从任何实时会话1捕获的无组织内容2a的环境化系统,以首先检测和记录由会话参加者Ic进行的30-1会话活动Id。 活动Id成为归一化的跟踪对象数据2-otd,用于区分30-2到归一化的会话标记3-pm表示阈值活动Id变化。 标准化标记3-pm使用“标记创建,启动或停止事件”模型将30-3集成到归一化事件4-pe中。 事件4-pe可以通过波形卷积合成30-4,形成新的组合事件40se,或者用作容器来总结标记3-pm或其他事件4-pe的出现,其结果创建新的概要标记3-sm 。 计算标记3-tm也可以被合成30-4,用于在各种会话时间采样各种会话数据。 在内容表达30-5事件中,4-pe和4-se可以自动命名和折叠,创建索引2i和有组织的内容2b。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 2. 发明申请
      WO03044734A2 OPTIMIZATIONS FOR LIVE EVENT, REAL-TIME, 3D OBJECT TRAKING 审中-公开
    • OPTIMIZATIONS FOR LIVE EVENT, REAL-TIME, 3D OBJECT TRAKING
    • 实时活动优化,实时3D对象追踪
    • WO03044734A2
    • 2003-05-30
    • PCT/US0237289
    • 2002-11-20
    • AMAN JAMES AHALLER WILLIAM R
    • AMAN JAMES AHALLER WILLIAM R
    • G06T20060101H04N5/225H04N5/30G06T
    • H04N5/232A63B24/0021A63B2024/0025A63B2024/0028A63B2024/0056A63B2102/24A63B2220/13A63B2220/20A63B2220/40A63B2220/806A63B2225/15G06T7/246G06T7/292G06T2207/10016G06T2207/10021G06T2207/30204G06T2207/30228
    • Various combinations of camera assembly (500), tracking frequency (510), energy source (520), marker; emission method (530), marker; physical form (540), marker; reflective shape (550), ID: location (560), ID: encoding method (570), ID: obtained (580) and calibration method (590) forming a preferred embodiment (1004) as well as several alternative embodiments for tracking the movement of multiple objects within a predefmed area. Camera assembly (500) optionally comprises fixed volume tracking (502), fixed area tracking (504) and movable volume tracking (506). Tracking frequency (510) optionally comprises visible light (512), infrared light (514) and ultraviolet light (516). Energy source (520) optionally comprises ring lights emitting visible or IR frequencies (522), existing lights emitting visible frequencies (524) and existing lights modified to emit non-visible frequencies (526). Marker: emission method (530) optionally comprises retroreflecive markers (532), reflective markers (534) and fluorescent markers (536). Marker: physical from (540) optionally comprises spherical (542) and flat (544). Marker: reflective shape optionally comprises uniform circular (552) and non-uniform multi-shape (554). ID: location (560) optionally comprises full body (562) and top surface of body (564). ID: encoding method (570) optionally comprises unique constellation 572 and encoded markings (574). ID: obtained (580) optionally comprises during game surface tracking (582) and outside of game surface tracking (584). Calibration method (590) optionally comprises pre-tracking (592) and simultaneously with tracking (594).
    • 相机组件(500),跟踪频率(510),能量源(520),标记器的各种组合; 发射方法(530),标记; 物理形式(540),标记; 形成优选实施例(1004)的反射形状(550),ID:位置(560),ID:编码方法(570),获得的(580)和校准方法(590)以及用于跟踪移动的若干备选实施例 在预定区域内的多个对象。 相机组件(500)可选地包括固定音量跟踪(502),固定区域跟踪(504)和可移动音量跟踪(506)。 跟踪频率(510)可选地包括可见光(512),红外光(514)和紫外光(516)。 能源(520)可选地包括发射可见光或IR频率(522)的环形光,发射可见频率的现有光(524)和修改为发射不可见频率的现有光(526)。 标记:发射方法(530)任选地包括后向反射标记(532),反射标记(534)和荧光标记(536)。 标记:物理从(540)任选地包括球形(542)和平面(544)。 标记:反射形状可选地包括均匀的圆形(552)和不均匀的多形状(554)。 ID:位置(560)可选地包括全身(562)和身体(564)的顶表面。 ID:编码方法(570)可选地包括唯一星座572和编码标记(574)。 ID:获得(580)可选地包括在游戏表面跟踪(582)期间和游戏表面跟踪外(584)。 校准方法(590)可选地包括预跟踪(592)并且跟踪跟踪(594)。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 3. 发明申请
      WO2008057504A3 LOAD TRACKING SYSTEM BASED ON SELF- TRACKING FORKLIFT 审中-公开
    • LOAD TRACKING SYSTEM BASED ON SELF- TRACKING FORKLIFT
    • 基于自攻锁的装载跟踪系统
    • WO2008057504A3
    • 2008-07-03
    • PCT/US2007023310
    • 2007-11-06
    • AMAN JAMES A
    • AMAN JAMES AAMAN DELBERT JERARDBENNETT PAUL M
    • G01S13/74
    • G08C21/00
    • Self-tracking forklift (10) employs various onboard technologies including either machine vision (102), RF tag reader (104), or accelerometers with RF reset (106) to perform less costly "inside-out" self-tracking verses "outside-in" tracking such as GPS, RF triangulation or UWB cell network with onboard transponders. Forklift (10) further employs load dimension sensor (30), implemented as stereoscopic cameras (108), 2d cameras with laser line generators (110), or 3d area sensors (112) in order to constantly scan for loads (4) being either engaged, lifted, lowered or disengaged by fork lift arms (10L). In addition to times of load (4) engagement and disengagement, sensor (30) also captures outer dimensions of load (4) along with its image. Onboard computer (50) records times of load (4) engagement and disengagement along with load (4) outer dimensions, image and identity (input by asset tag reader (114)) to be combined with the current location and orientation of lift (10) for creating a virtual warehouse database (102).
    • 自动跟踪叉车(10)采用各种车载技术,包括机器视觉(102),射频标签读取器(104)或具有RF复位(106)的加速度计,以执行较低成本的“内向外”自我跟踪“ 在“跟踪例如GPS,RF三角测量或UWB小区网络与车载应答器。 叉车(10)进一步采用负载尺寸传感器(30),实现为立体摄像机(108),具有激光线发生器(2d)的2d摄像机或3d区域传感器(112),以便不断扫描负载(4) 通过叉车臂(10L)接合,提升,降下或脱开。 传感器(30)除了负载(4)接合和分离的时间之外,还与其图像一起捕获负载(4)的外部尺寸。 车载计算机(50)记录负载(4)接合和分离的时间以及负载(4)外部尺寸,图像和身份(资产标签读取器(114)的输入))与电梯的当前位置和方向(10 ),用于创建虚拟仓库数据库(102)。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 4. 发明申请
      WO2008057504A2 LOAD TRACKING SYSTEM BASED ON SELF- TRACKING FORKLIFT 审中-公开
    • LOAD TRACKING SYSTEM BASED ON SELF- TRACKING FORKLIFT
    • 基于自攻锁的装载跟踪系统
    • WO2008057504A2
    • 2008-05-15
    • PCT/US2007/023310
    • 2007-11-06
    • AMAN, James, A.
    • AMAN, James, A.AMAN, Delbert, JerardBENNETT, Paul, M.
    • G08C21/00
    • G08C21/00
    • Self-tracking forklift (10) employs various onboard technologies including either machine vision (102), RF tag reader (104), or accelerometers with RF reset 106 to perform less costly "inside-out" self-tracking verses "outside-in" tracking such as GPS, RF triangulation or UWB cell network with onboard transponders. Forklift (10) further employs load dimension sensor (30), implemented as stereoscopic cameras (108), 2d cameras with laser line generators (110), or 3d area sensors (112) in order to constantly scan for loads 4 being either engaged, lifted, lowered or disengaged by fork lift arms 10L. In addition to times of load 4 engagement and disengagement, sensor (30) also captures outer dimensions of load (4) along with its image. Onboard computer (50) records times of load (4) engagement and disengagement along with load 4 outer dimensions, image and identity (input by asset tag reader 114) to be combined with the current location and orientation of lift (10) for creating a virtual warehouse database (102).
    • 自动跟踪叉车(10)采用各种车载技术,包括机器视觉(102),RF标签读取器(104)或具有RF复位106的加速度计,以执行较低成本的“内向外”自我跟踪“外部” 跟踪例如GPS,RF三角测量或带有机载应答器的UWB小区网络。 叉车(10)进一步采用负载尺寸传感器(30),实现为立体摄像机(108),具有激光线发生器(2d)的2d摄像机或3d区域传感器(112),以便不断地扫描要接合的负载4, 由升降臂10L升高,降低或分离。 除了负载4接合和分离的时间之外,传感器(30)还捕获负载(4)的外部尺寸及其图像。 车载计算机(50)记录负载(4)接合和分离的时间以及负载4外部尺寸,图像和身份(资产标签读取器114的输入),以与电梯(10)的当前位置和取向相结合,用于创建 虚拟仓库数据库(102)。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 5. 发明申请
      WO2005099423A2 AUTOMATIC EVENT VIDEOING, TRACKING AND CONTENT GENERATION SYSTEM 审中-公开
    • AUTOMATIC EVENT VIDEOING, TRACKING AND CONTENT GENERATION SYSTEM
    • 自动事件视频,跟踪和内容生成系统
    • WO2005099423A2
    • 2005-10-27
    • PCT/US2005/013132
    • 2005-04-18
    • AMAN, James, A.BENNETT, Paul, Michael
    • AMAN, James, A.BENNETT, Paul, Michael
    • H04N5/225H04N5/247H04N5/262H04N5/272
    • H04N5/262G01S3/7864G06K9/00711G06K9/00724G06K9/209G06K2009/2045G06Q30/02G06T7/254G06T7/269G06T7/292G06T19/00G06T19/006G06T2207/10016G06T2207/30221G06T2207/30241H04N5/232H04N5/23238H04N5/2357H04N5/247H04N5/2627H04N5/268H04N5/272H04N5/278H04N5/332
    • An automatic system 100 that uses one to three grids 20cm of overhead cameras 20c to first video an event area 2. Overall bandwidth is greatly reduced by intelligent hubs 26 that extract foreground blocks 10m based upon initial and continuously updated background images 2r. The hubs also analyze current images 10c to constantly locate, classify and track in 3D the limited number of expected foreground objects 10. As objects 10 of interest are tracked, the system automatically directs ptz perspective view cameras 40c to follow the activities. These asynchronous cameras 40c limit their images to defined repeatable pt angles and zoom depths. Pre-captured venue backgrounds 2r at each repeatable ptz setting facilitate perspective foreground extraction. The moving background, such as spectators 13, is removed with various techniques including stereoscopic side cameras 40c-b and 40c-c flanking each perspective camera 40c. The tracking data 101 derived from the overhead view 102 establishes event performance measurement and analysis data 701. The analysis results in statistics and descriptive performance tokens 702 translatable via speech synthesis into audible descriptions of the event activities corresponding to overhead 102 and perspective video 202.
    • 一个自动系统100,其使用一到三个网格20cm的架空照相机20c来首先对事件区域2进行视频。通过智能集线器26大大降低了总体带宽,智能集线器26基于初始和连续更新的背景图像2r提取前景块10m。 集线器还分析当前图像10c以不间断地定位,分类和跟踪有限数量的预期前景对象10.由于跟踪了感兴趣的对象10,系统自动指示ptz透视图相机40c以跟随活动。 这些异步照相机40c将它们的图像限制到限定的可重复的角度和变焦深度。 预先捕获的场地背景2r在每个可重复的ptz设置方便透视前景提取。 移动背景,例如观众13,用各种技术去除,包括侧视摄像机40c侧面的立体侧摄像机40c-b和40c-c。 从俯视图102导出的跟踪数据101建立事件性能测量和分析数据701.该分析导致统计和描述性能令牌702可通过语音合成转换成对应于开销102和透视图像202的事件活动的可听描述。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 6. 发明申请
      WO02103670A3 EMPLOYING ELECTROMAGNETIC BY-PRODUCT RADIATION FOR OBJECT TRACKING 审中-公开
    • EMPLOYING ELECTROMAGNETIC BY-PRODUCT RADIATION FOR OBJECT TRACKING
    • 使用电磁副产品辐射进行对象跟踪
    • WO02103670A3
    • 2003-08-07
    • PCT/US0218562
    • 2002-06-13
    • AMAN JAMES AHALLER WILLIAM R
    • AMAN JAMES AHALLER WILLIAM R
    • G06T1/00A63B71/06G01S17/66G01S17/87G06T7/20H04N5/232H04N7/18
    • G01S17/66A63B24/0021A63B71/0605A63B2024/0025A63B2102/24A63B2208/12A63B2220/12A63B2220/13A63B2220/30A63B2220/40A63B2220/806G01S17/87G06K9/3216G06K2009/3225G06T7/246
    • A system (200) for tracking the movement of multiple objects within a predefined area using a combination of overhead X-Y filming cameras (125) and tracking cameras (124) with attached frequency selective filter (124f). Also employed is perspective Z filming cameras (125) and tracking cameras (124) with filter (124f). The preferred energy source is existing rink lamp (10) that emits electromagnetic by-product radiation in either the UV range for typical Metal Halide lamps or the IR range for typical Xenon Arc lamps. Foreground objects to be tracked such as player (110), jersey (105), stick (104) and puck (103) have been marked to include some form of frequency selective reflective material, such reflective material (20a), retroreflective material (20b) or fluorescent material (20c). Prior to marking, foreground objects such as jersey (105) and stick (104) have first been treated with either a UV of IR absorbent compound such as (24) that absorbs incident tracking energy rays. In the situation where IR is used as the tracking energy, player (110) will typically emit unwanted interference ray (13c) in which case the inside of jersey (105) may be additionally treated with IR an absorbent compound such as (26).
    • 一种用于利用具有附接的频率选择滤波器(124f)的架空X-Y拍摄相机(125)和跟踪相机(124)的组合来跟踪预定区域内的多个物体的移动的系统(200)。 还采用透视Z拍摄相机(125)和具有滤光片(124f)的跟踪相机(124)。 优选的能量源是现有的溜冰灯(10),其在典型的金属卤化物灯的UV范围内或在典型的氙弧灯的IR范围内发射电磁副产物辐射。 已经标记要追踪的前景物体,例如玩家(110),球衣(105),棒(104)和冰球(103),以包括某种形式的频率选择性反射材料,反射材料(20a),回射材料(20b )或荧光材料(20c)。 在标记之前,首先用诸如(24)的吸收入射跟踪能量射线的IR吸收剂化合物的UV处理诸如针织物(105)和棒(104)的前景物体。 在使用IR作为跟踪能量的情况下,玩家(110)通常会发射不需要的干涉射线(13c),在这种情况下,针织物(105)的内部可以用IR等吸收剂化合物例如(26)进行处理。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 7. 发明申请
      WO0031560A3 MULTIPLE OBJECT TRACKING SYSTEM 审中-公开
    • MULTIPLE OBJECT TRACKING SYSTEM
    • 多目标跟踪系统
    • WO0031560A3
    • 2001-02-22
    • PCT/US9927281
    • 1999-11-17
    • AMAN JAMES AHALLER WILLIAM R
    • AMAN JAMES AHALLER WILLIAM R
    • G06T1/00A63B71/06G01S17/66G01S17/87G06T7/20H04N5/232H04N7/18G06T7/00H04N5/262
    • G06K9/3216A63B24/0021A63B71/0605A63B2024/0025A63B2102/24A63B2208/12A63B2220/13A63B2220/30A63B2220/40A63B2220/806G01S17/66G01S17/87G06K2009/3225G06T7/246
    • A system (100) for tracking the movement of multiple objects within a predefined area using a combination of overhead X-Y filming cameras (25) and tracking cameras (24) with attached frequency selective filter (24f). Also employed are perspective Z filming cameras (25) and tracking (24) cameras with filter (24f). Objects to be tracked have been marked with a frequency selective reflective material, such as patches (7r and 71), sticker (9) and tape (4a). System (100) radiates selected energy (23a) throughout the area of tracking to reflect off said reflective materials. Reflected energy such as (7m, 9a and 4b) is then received by tracking cameras (24) while all other ambient light is blocked by filter (24f). Local Computer System (60) captures images from tracking cameras (24) and locates said markings. Using said location information along with preknowledge concerning said multiple objects maximum rate of speed and maximum size as well as calculated movement information, system (60) is able to extract the background of the unfiltered images (25) that represent said multiple objects.
    • 一种用于利用具有附加的频率选择性滤波器(24f)的架空X-Y拍摄相机(25)和跟踪相机(24)的组合来跟踪预定区域内的多个物体的移动的系统(100)。 还使用透视Z拍摄相机(25)和具有滤光器(24f)的跟踪(24)相机。 要跟踪的对象已经被标记有频率选择性反射材料,例如贴片(7r和71),贴纸(9)和胶带(4a)。 系统(100)在跟踪的整个区域中辐射所选择的能量(23a)以反射所述反射材料。 然后通过跟踪摄像机(24)接收反射能量,如(7m,9a和4b),而所有其他环境光被过滤器(24f)阻挡。 本地计算机系统(60)从跟踪摄像机(24)捕获图像并定位所述标记。 使用所述位置信息以及关于所述多个对象的最大速度和最大尺寸以及计算的运动信息的预知识,系统(60)能够提取表示所述多个对象的未过滤图像(25)的背景。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 8. 发明申请
      WO1998057120A1 PORTABLE SYSTEM FOR INVENTORY IDENTIFICATION AND CONTROL 审中-公开
    • PORTABLE SYSTEM FOR INVENTORY IDENTIFICATION AND CONTROL
    • 便于识别和控制的便利系统
    • WO1998057120A1
    • 1998-12-17
    • PCT/US1997009839
    • 1997-06-09
    • AMAN, James, A.HALLER, William, R.
    • G01B11/02
    • G06Q10/087
    • Portable device (100) may be carried about by an operator within a prescribed area which contains one or more inventoried objects such as units of lumber (10). Within this area, the current location of both the units of lumber (10) and device (100) are constantly monitored by tracking computer system (80). As device (100) is carried about within the prescribed area, at any time it may be pointed at any unit (10) which is of interest to the operator. Device (100) will then employ distance measurement unit (108) to determine the distance between observation point (120) and projected spot (121). Once calculated, the location of spot (121) is then compared to the last known location of all surfaces of lumber units to determine which unit is currently being "spotted". All information is then communicated by device (100) via antenna (107) to stacking system (80).
    • 便携式设备(100)可以由包含一个或多个盘存对象(例如木材单元(10))的规定区域内的操作者携带。 在该区域内,通过跟踪计算机系统(80)不断地监视两个木材单元(10)和设备(100)的当前位置。 随着设备(100)在规定区域内携带,在任何时候,它可以指向操作者感兴趣的任何单元(10)。 然后,设备(100)将使用距离测量单元(108)来确定观察点(120)和投影点(121)之间的距离。 一旦计算,点(121)的位置然后与木材单元的所有表面的最后一个已知位置进行比较,以确定当前正在“点样”的单位。 所有信息然后通过天线(107)通过设备(100)传送到堆叠系统(80)。
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