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    • 2. 发明申请
    • Displaying 2D graphic content using depth wells
    • 使用深井显示2D图形内容
    • US20070113198A1
    • 2007-05-17
    • US11280635
    • 2005-11-16
    • George RobertsonDaniel RobbinsDesney TanKenneth HinckleyManeesh AgrawalaMary CzerwinskiPatrick BaudischGonzalo Ramos
    • George RobertsonDaniel RobbinsDesney TanKenneth HinckleyManeesh AgrawalaMary CzerwinskiPatrick BaudischGonzalo Ramos
    • G06F9/00
    • G06T11/60G06F3/0481G06T15/40
    • Displaying the relative depth of 2D image objects while preserving the visual attributes of the objects is disclosed. After an object group is determined, the members of the object group are temporarily moved away from a center location while preserving the object group members' positions relative to each other in the X-Y plane. A depth well is displayed at the center location and each object group member is connected to a ring-beam in the depth well. In response to a control action indicating a relative depth adjustment of an object group member relative to the remaining object group members, the depth of the object relative to the remaining object group members is changed. In response to a control action indicating the depth adjustment is complete, object group members are returned to their original positions in the X-Y plane with the adjusted object displayed at the object's new relative depth. Dragging object group member into the upper or lower part of another group member are control actions indicating a relative depth adjustment of an object group member.
    • 公开了显示2D图像对象的相对深度,同时保留对象的视觉属性。 在确定对象组之后,对象组的成员临时移动远离中心位置,同时在X-Y平面中保持对象组成员相对于彼此的位置。 在中心位置显示深度井,并且每个物体组件连接到深井中的环形梁。 响应于指示对象组成员相对于剩余对象组成员的相对深度调整的控制动作,相对于剩余对象组成员的对象的深度被改变。 响应于指示深度调整完成的控制动作,将对象组成员返回到其在X-Y平面中的原始位置,其中被调整的对象以对象的新相对深度显示。 将对象组成员拖到另一个组成员的上部或下部是控制动作,指示对象组成员的相对深度调整。
    • 3. 发明申请
    • Hover widgets: using the tracking state to extend capabilities of pen-operated devices
    • 悬停小部件:使用跟踪状态来扩展笔式设备的功能
    • US20060267966A1
    • 2006-11-30
    • US11245850
    • 2005-10-07
    • Tovi GrossmanKenneth HinckleyPatrick BaudischManeesh Agrawala
    • Tovi GrossmanKenneth HinckleyPatrick BaudischManeesh Agrawala
    • G09G5/00
    • G06F3/0346G06F3/03545G06F3/04883
    • A technique for increasing the capabilities of pen-based or touch-screen interfaces. The capabilities are implemented by using movements at a position above or in a parallel proximity to the display surface, referred to as a tracking or hover state. A gesture or series of gestures in the hover or tracking state can be utilized to activate localized interface widgets, such as marking menus, virtual scroll rings, etc. The gesture(s) can be preceded or followed by an optional authorization that confirms a command, action, or state. Utilization of a tracking state allows the disclosed systems, methodologies and/or devices to create a new command layer distinct from the input layer of a pen or touch display interface. Thus, user commands can be localized around a mouser or pointer maintaining user concentration while eliminating the occurrence of undesired or unintended inking on the display surface.
    • 一种提高笔式或触摸屏界面功能的技术。 通过使用在显示表面上方或平行附近的位置(被称为跟踪或悬停状态)来实现能力。 可以利用悬停或跟踪状态中的手势或一系列手势来激活局部化的接口小部件,例如标记菜单,虚拟滚动环等。可以在可选的授权之前或之后进行手势,该授权确认命令 ,动作或状态。 利用跟踪状态允许所公开的系统,方法和/或设备创建不同于笔或触摸显示界面的输入层的新命令层。 因此,用户命令可以定位在保持用户集中的mouser或指针周围,同时消除在显示表面上出现不期望的或非预期的上色。
    • 7. 发明授权
    • System and method for abstracting and visualizing a route map
    • 用于抽象和可视化路线图的系统和方法
    • US07437279B2
    • 2008-10-14
    • US11073399
    • 2005-03-04
    • Maneesh AgrawalaChris Stolte
    • Maneesh AgrawalaChris Stolte
    • G06G7/48G06F3/00
    • G06T17/05G01C21/367G01C21/3673G06T11/206G06T11/60
    • A system and method for making computer-generated maps includes a different scale factor for each road in a route. The scale factors are used to optimize the route map against a target function that considers factors such as the number of false intersections in the route and the number of roads falling below a minimum length threshold. A refinement technique such as simulated annealing is used to find a solution to the target function. Each road in the scaled map is rendered to provide a finished product having the appearance of a hand-drawn map. The finished product includes context roads that intersect the main route but are not part of the main route. Furthermore, the hand-drawn map is optimized to the characteristics of the viewport used to visualize the map.
    • 用于制作计算机生成的地图的系统和方法包括路线中每条道路的不同比例因子。 比例因子用于针对目标函数优化路线图,该目标函数考虑到诸如路线中的错误交叉点数量和低于最小长度阈值的道路数量等因素。 使用诸如模拟退火的细化技术来找到目标函数的解。 缩放地图中的每个道路被渲染以提供具有手绘地图的外观的成品。 成品包括与主路线相交但不属于主路线的上下文道路。 此外,手绘地图针对用于可视化地图的视口的特征进行了优化。
    • 10. 发明申请
    • Techniques for generating the layout of visual content
    • 生成视觉内容布局的技术
    • US20060200759A1
    • 2006-09-07
    • US11072747
    • 2005-03-04
    • Maneesh AgrawalaAdam EversoleDaniel VogelCharles JacobsDavid Salesin
    • Maneesh AgrawalaAdam EversoleDaniel VogelCharles JacobsDavid Salesin
    • G06F17/00
    • G06F17/211
    • Systems and methods comprising a general purpose framework to facilitate automated layout are provided. Such systems and methods can be utilized to automatically generate visual content over a wide range of domains. One example of a framework comprises a set of general purpose layout components adjustable to a plurality of domains. The general purpose layout components facilitate the automated arrangement of visual elements according to a plurality of style rules. One example of a method performed utilizing one or more elements of a general purpose adaptable layout framework comprises quantifying at least one aesthetic quality of a depiction in relation to one or more non-mandatory objectives to produce a quantified aesthetic quality, and automatically optimizing the quantified aesthetic quality to produce an enhanced depiction.
    • 提供了包括用于促进自动布局的通用框架的系统和方法。 这样的系统和方法可以用于在广泛的域上自动产生视觉内容。 框架的一个示例包括可调整到多个域的一组通用布局组件。 通用布局组件便于根据多种风格规则自动排列视觉元素。 使用通用可适应布局框架的一个或多个元件执行的方法的一个示例包括相对于一个或多个非强制性目标量化至少一个描述的美学质量以产生量化的美学品质,并自动优化量化的 美学质量产生增强的描绘。