Patent
Determining a node path through a node graph
Carl S. Marshall,Adam T. Lake +1 more
- 10 Jun 2009
39
TL;DR: In this article, a node path through a node graph is determined by modifying the node graph in accordance with a predetermined platform performance, and then performing a path finding process through the adjusted node graph to obtain the node path.
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Abstract: Determining a node path through a node graph includes modifying the node graph in accordance with a predetermined platform performance, performing a path finding process through the node graph to obtain the node path, determining if the platform performance has changed, adjusting the node graph to compensate for a change in the platform performance, and re-performing the path finding process through the adjusted node graph to obtain the node path.
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Citations
Patent
Device, Method and User Interface for Determining a Correlation between a Received Sequence of Numbers and Data that Corresponds to Metrics
Michael Wu
- 05 Dec 2013
TL;DR: In this paper, a device with one or more processors and memory receives, from a first party, an input including a sequence of numbers corresponding to a plurality of key performance indicator values associated with an entity and time range information for the sequence of number.
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Patent
Method and System of Graphical Representation of Lead Connector Block and Implantable Pulse Generators on a Clinician Programmer
Norbert Kaula,Yohannes Iyassu +1 more
- 30 Aug 2013
TL;DR: In this article, the authors present a method of providing graphical representations of medical devices and connections between the medical devices, where a lead is configured to deliver electrical stimulation to a patient via one or more of a plurality of electrode contacts.
35
Patent
Method and System of Quick Neurostimulation Electrode Configuration and Positioning
Norbert Kaula,Scott Drees,Yohannes Iyassu,Seth Kaufman +3 more
- 22 Aug 2013
TL;DR: In this article, a method of determining electrode configuration and positioning for neuro-stimulation is presented, where a virtual representation of an implant lead is provided, and a predefined electrode activation pattern identifies a plurality of subsets of the electrodes that can be activated at a time.
32
Patent
Touch screen finger position indicator for a spinal cord stimulation programming device
Scott Drees,Norbert Kaula,Yohannes Iyassu,Scott G. Leyh,Richard J. Polefko,Stephen C. Trier,Raymond Lloyd Yoder +6 more
- 27 Aug 2013
TL;DR: In this article, a method of visualizing a user interaction with a clinician programmer is disclosed, in which a user engagement with respect to a screen of the clinician programmers is detected via one or more sensors associated with the screen of an external monitor.
30
Patent
Mesh estimation of terrain
Michael S. McDaniel,A. Cappalunga,Susmita Dutta,Alberto Broggi,Stefano Cattani +4 more
- 15 Feb 2011
TL;DR: In this article, a method for generating a 3D grid of terrain includes receiving data representing a three-dimensional point cloud and generating a plurality of slices of the data using a swarm intelligence algorithm.
26
References
Surface simplification using quadric error metrics
Michael Garland,Paul S. Heckbert +1 more
- 03 Aug 1997
TL;DR: This work has developed a surface simplification algorithm which can rapidly produce high quality approximations of polygonal models, and which also supports non-manifold surface models.
Progressive meshes
Hugues Hoppe
- 01 Aug 1996
TL;DR: The progressive mesh (PM) representation is introduced, a new scheme for storing and transmitting arbitrary triangle meshes that addresses several practical problems in graphics: smooth geomorphing of level-of-detail approximations, progressive transmission, mesh compression, and selective refinement.
An algorithm for planning collision-free paths among polyhedral obstacles
TL;DR: A collision avoidance algorithm for planning a safe path for a polyhedral object moving among known polyhedral objects that transforms the obstacles so that they represent the locus of forbidden positions for an arbitrary reference point on the moving object.
Recursively generated B-spline surfaces on arbitrary topological meshes
Ed Catmull,J. Clark +1 more
TL;DR: The method is presented as a generalization of a recursive bicubic B-spline patch subdivision algorithm, which generates surfaces that approximate points lying-on a mesh of arbitrary topology except at a small number of points, called extraordinary points.
2.3K
View-dependent refinement of progressive meshes
Hugues Hoppe
- 03 Aug 1997
TL;DR: This paper defines efficient refinement criteria based on the view frustum, surface orientation, and screen-space geometric error, and develops a real-time algorithm for incrementally refining and coarsening the mesh according to these criteria.
1K