Add to ORKGWe present novel algorithms for efficient hierarchical collision detection and propose a hardware architecture for a single-chip accelerator. We use a hierarchy of bounding volumes defined by k-DOPs for maximum performance. A new hierarchy traversal algorithm and an optimized triangle-triangle intersection test reduce bandwidth and computation costs. The resulting hardware architecture can process two object hierarchies and identify intersecting triangles autonomously at high speed. Real-time collision detection of complex objects at rates required by force-feedback and physically-based simulations can be achieved
We present parallel algorithms to accelerate collision queries for sample-based motion planning. Our...
We present novel parallel algorithms for collision detection and separation distance computation for...
This paper discusses a scalable collision detection algorithm. The algorithm, implemented using soft...
We present novel algorithms for efficient hierarchical collision detection and propose a hardware ar...
We present a novel hardware architecture for a single-chip collision detection accelerator and algor...
We present a novel hardware architecture for a single-chip collision detection accelerator and algor...
We present novel algorithms for efficient hierarchical collision detection and propose a hardware ar...
Abstract:- We present a hardware architecture for a single-chip acceleration of an efficient hierarc...
We present a hardware architecture for a single-chip acceleration of an efficient hierarchical colli...
We present a novel bounding volume hierarchy that allows for extremely small data structure sizes wh...
We present a novel bounding volume hierarchy that allows for extremely small data structure sizes wh...
A novel approach for hardware-accelerated high-speed collision detection is presented in this articl...
A novel approach for highly space-efficient hardware-accelerated collision detection is presented. T...
A novel approach for hardware-accelerated high-speed collision detection is presented in this articl...
We present a new parallel algorithm for interactive and con-tinuous collision detection between defo...
We present parallel algorithms to accelerate collision queries for sample-based motion planning. Our...
We present novel parallel algorithms for collision detection and separation distance computation for...
This paper discusses a scalable collision detection algorithm. The algorithm, implemented using soft...
We present novel algorithms for efficient hierarchical collision detection and propose a hardware ar...
We present a novel hardware architecture for a single-chip collision detection accelerator and algor...
We present a novel hardware architecture for a single-chip collision detection accelerator and algor...
We present novel algorithms for efficient hierarchical collision detection and propose a hardware ar...
Abstract:- We present a hardware architecture for a single-chip acceleration of an efficient hierarc...
We present a hardware architecture for a single-chip acceleration of an efficient hierarchical colli...
We present a novel bounding volume hierarchy that allows for extremely small data structure sizes wh...
We present a novel bounding volume hierarchy that allows for extremely small data structure sizes wh...
A novel approach for hardware-accelerated high-speed collision detection is presented in this articl...
A novel approach for highly space-efficient hardware-accelerated collision detection is presented. T...
A novel approach for hardware-accelerated high-speed collision detection is presented in this articl...
We present a new parallel algorithm for interactive and con-tinuous collision detection between defo...
We present parallel algorithms to accelerate collision queries for sample-based motion planning. Our...
We present novel parallel algorithms for collision detection and separation distance computation for...
This paper discusses a scalable collision detection algorithm. The algorithm, implemented using soft...