Andy Nisbet scite author profile

KernelsCompiler/Runtime Hardware Architectures Correctness Performance Metrics bilateralFilter (..) halfSampleRobust (..) renderVolume (..) integrate (..) : : Frame rate Accuracy Energy Computer Vision ICL-NUIM Dataset Fig. 1: The SLAMBench framework makes it possible for experts coming from the computer vision, compiler, run-time, and hardware communities to cooperate in a unified way to tackle algorithmic and implementation alternatives.Abstract-Real-time dense computer vision and SLAM offer great potential for a new level of scene modelling, tracking and real environmental interaction for many types of robot, but their high computational requirements mean that use on mass market embedded platforms is challenging. Meanwhile, trends in low-cost, low-power processing are towards massive parallelism and heterogeneity, making it difficult for robotics and vision researchers to implement their algorithms in a performance-portable way. In this paper we introduce SLAMBench, a publicly-available software framework which represents a starting point for quantitative, comparable and validatable experimental research to investigate trade-offs in performance, accuracy and energy consumption of a dense RGB-D SLAM system. SLAMBench provides a KinectFusion implementation in C++, OpenMP, OpenCL and CUDA, and harnesses the ICL-NUIM dataset of synthetic RGB-D sequences with trajectory and scene ground truth for reliable accuracy comparison of different implementation and algorithms. We present an analysis and breakdown of the constituent algorithmic elements of KinectFusion, and experimentally investigate their execution time on a variety of multicore and GPUaccelerated platforms. For a popular embedded platform, we also present an analysis of energy efficiency for different configuration alternatives.

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Enhancing data parallelism for Ant Colony Optimization on GPUs

Cecilia

García

Nisbet

et al. 2013

Journal of Parallel and Distributed Computing

116

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Personal Investigator: A therapeutic 3D game for adolecscent psychotherapy

Coyle

Matthews

Sharry

et al. 2005

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Although mental health problems increase markedly during adolescent years, therapists often find it difficult to engage with adolescents. The majority of disturbed adolescents do not receive professional mental health care and of those who do fewer still will fully engage with the therapeutic process (Offer et al. 1991; US Surgeon General 1999). Personal Investigator (PI) is a 3D computer game specifically designed to help adolescents overcome mental health problems such as depression and help them engage more easily with professional mental health care services. PI is an implementation of a new computer mediated model for how therapists and adolescents can engage. The model has its theoretical foundations in play therapy and therapeutic storytelling and applies current research on the educational use of computer gaming and interactive narrative systems to these foundations. Previously demonstrated benefits of computer games and interactive narrative systems in education include increased motivation, increased self-esteem, improved problem solving and discussion skills and improved storytelling skills (

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Integrating Algorithmic Parameters into Benchmarking and Design Space Exploration in 3D Scene Understanding

Bodin

Nardi

Muhammad

et al. 2016

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System designers typically use well-studied benchmarks to evaluate and improve new architectures and compilers. We design tomorrow's systems based on yesterday's applications. In this paper we investigate an emerging application, 3D scene understanding, likely to be signi cant in the mobile space in the near future. Until now, this application could only run in real-time on desktop GPUs. In this work, we examine how it can be mapped to power constrained embedded systems. Key to our approach is the idea of incremental co-design exploration, where optimization choices that concern the domain layer are incrementally explored together with low-level compiler and architecture choices. The goal of this exploration is to reduce execution time while minimizing power and meeting our quality of result objective. As the design space is too large to exhaustively evaluate, we use active learning based on a random forest predictor to nd good designs. We show that our approach can, for the rst time, achieve dense 3D mapping and tracking in the real-time range within a 1W power budget on a popular embedded device. This is a 4.8x execution time improvement and a 2.8x power reduction compared to the state-of-the-art

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SLAMBench2: Multi-Objective Head-to-Head Benchmarking for Visual SLAM

Bodin

Wagstaff

Saecdi

et al. 2018

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SLAM is becoming a key component of robotics and augmented reality (AR) systems. While a large number of SLAM algorithms have been presented, there has been little effort to unify the interface of such algorithms, or to perform a holistic comparison of their capabilities. This is a problem since different SLAM applications can have different functional and non-functional requirements. For example, a mobile phonebased AR application has a tight energy budget, while a UAV navigation system usually requires high accuracy. SLAMBench2 is a benchmarking framework to evaluate existing and future SLAM systems, both open and close source, over an extensible list of datasets, while using a comparable and clearly specified list of performance metrics. A wide variety of existing SLAM algorithms and datasets is supported, e.g. ElasticFusion, InfiniTAM, ORB-SLAM2, OKVIS, and integrating new ones is straightforward and clearly specified by the framework. SLAMBench2 is a publicly-available software framework which represents a starting point for quantitative, comparable and validatable experimental research to investigate trade-offs across SLAM systems.

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Andy Nisbet

Introducing SLAMBench, a performance and accuracy benchmarking methodology for SLAM

Enhancing data parallelism for Ant Colony Optimization on GPUs

Personal Investigator: A therapeutic 3D game for adolecscent psychotherapy

Integrating Algorithmic Parameters into Benchmarking and Design Space Exploration in 3D Scene Understanding

SLAMBench2: Multi-Objective Head-to-Head Benchmarking for Visual SLAM

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