Search results for "NETWORK"

showing 10 items of 7718 documents

Hawkes processes on networks for crime data

2022

Motivated by the analysis of crime data in Bucaramanga (Colombia), we propose a spatio-temporal Hawkes point process model adapted to events living on linear networks. We first consider a non-parametric modelling strategy, for both the background and the triggering components, and then we include a parametric estimation of the background based on covariates, and a non-parametric one of the triggering effects. Our network model outperforms a planar version, improving the fitting of the self-exciting point process model.

Spatio-temporal point processesHawkes processeCovariateLinear networkCrime dataSettore SECS-S/01 - Statistica
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New sunphotometer for network operation.

1983

A handheld sunphotometer has been developed and is described. It operates for 9 wavelengths in the visible and near infrared. The sensitivity range is rather broad, so it can be used in turbid as well as clear atmospheres. The operation is simple, and a digital readout helps prevent operator biases. The instrument is sun powered and suitable for network operations. Determination of the atmospheric turbidity due to aerosol and the column content of O3, NO2, H2O is possible.

Spectrometerbusiness.industryStray lightMaterials Science (miscellaneous)Near-infrared spectroscopyNetwork operations centerIndustrial and Manufacturing EngineeringAerosolPhotometry (optics)WavelengthOpticsEnvironmental scienceBusiness and International ManagementbusinessNear infrared radiationRemote sensingApplied optics
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Interaction in Spoken Word Recognition Models: Feedback Helps

2018

Human perception, cognition, and action requires fast integration of bottom-up signals with top-down knowledge and context. A key theoretical perspective in cognitive science is the interactive activation hypothesis: forward and backward flow in bidirectionally connected neural networks allows humans and other biological systems to approximate optimal integration of bottom-up and top-down information under real-world constraints. An alternative view is that online feedback is neither necessary nor helpful; purely feed forward alternatives can be constructed for any feedback system, and online feedback could not improve processing and would preclude veridical perception. In the domain of spo…

Speech perceptionmedia_common.quotation_subjectSpeech recognitionlcsh:BF1-990Context (language use)speech perception050105 experimental psychologyPsycholinguistics03 medical and health sciences0302 clinical medicinePerceptionspoken word recognition0501 psychology and cognitive sciencesGeneral PsychologypsycholinguisticsBayesian modelsmedia_commonTRACE (psycholinguistics)Computational modelArtificial neural network05 social sciencesFeed forwardlcsh:PsychologySspoken word recognitioncomputational modelssimulationsPsychology030217 neurology & neurosurgeryFrontiers in Psychology
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Reducing complexity in H.264/AVC motion estimation by using a GPU

2011

H.264/AVC applies a complex mode decision technique that has high computational complexity in order to reduce the temporal redundancies of video sequences. Several algorithms have been proposed in the literature in recent years with the aim of accelerating this part of the encoding process. Recently, with the emergence of many-core processors or accelerators, a new approach can be adopted for reducing the complexity of the H.264/AVC encoding algorithm. This paper focuses on reducing the inter prediction complexity adopted in H.264/AVC and proposes a GPU-based implementation using CUDA. Experimental results show that the proposed approach reduces the complexity by as much as 99% (100x of spe…

SpeedupComputational complexity theoryComputer science020206 networking & telecommunicationsData_CODINGANDINFORMATIONTHEORY02 engineering and technologyParallel computingCUDAAlgorithmic efficiency0202 electrical engineering electronic engineering information engineeringWorst-case complexity020201 artificial intelligence & image processingContext-adaptive binary arithmetic codingData compressionContext-adaptive variable-length coding
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CUDA-enabled Sparse Matrix–Vector Multiplication on GPUs using atomic operations

2013

We propose the Sliced Coordinate Format (SCOO) for Sparse Matrix-Vector Multiplication on GPUs.An associated CUDA implementation which takes advantage of atomic operations is presented.We propose partitioning methods to transform a given sparse matrix into SCOO format.An efficient Dual-GPU implementation which overlaps computation and communication is described.Extensive performance comparisons of SCOO compared to other formats on GPUs and CPUs are provided. Existing formats for Sparse Matrix-Vector Multiplication (SpMV) on the GPU are outperforming their corresponding implementations on multi-core CPUs. In this paper, we present a new format called Sliced COO (SCOO) and an efficient CUDA i…

SpeedupComputer Networks and CommunicationsComputer scienceSparse matrix-vector multiplicationParallel computingComputer Graphics and Computer-Aided DesignTheoretical Computer ScienceMatrix (mathematics)CUDAArtificial IntelligenceHardware and ArchitectureBenchmark (computing)MultiplicationGeneral-purpose computing on graphics processing unitsSoftwareSparse matrixParallel Computing
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Finding near-perfect parameters for hardware and code optimizations with automatic multi-objective design space explorations

2012

Summary In the design process of computer systems or processor architectures, typically many different parameters are exposed to configure, tune, and optimize every component of a system. For evaluations and before production, it is desirable to know the best setting for all parameters. Processing speed is no longer the only objective that needs to be optimized; power consumption, area, and so on have become very important. Thus, the best configurations have to be found in respect to multiple objectives. In this article, we use a multi-objective design space exploration tool called Framework for Automatic Design Space Exploration (FADSE) to automatically find near-optimal configurations in …

SpeedupComputer Networks and CommunicationsDesign space explorationComputer sciencebusiness.industryParallel computingProgram optimizationMulti-objective optimizationComputer Science ApplicationsTheoretical Computer ScienceMicroarchitectureComputational Theory and MathematicsScalabilityCode (cryptography)Engineering design processbusinessSoftwareComputer hardwareConcurrency and Computation: Practice and Experience
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First Experiences on an Accurate SPH Method on GPUs

2017

It is well known that the standard formulation of the Smoothed Particle Hydrodynamics is usually poor when scattered data distribution is considered or when the approximation near the boundary occurs. Moreover, the method is computational demanding when a high number of data sites and evaluation points are employed. In this paper an enhanced version of the method is proposed improving the accuracy and the efficiency by using a HPC environment. Our implementation exploits the processing power of GPUs for the basic computational kernel resolution. The performance gain demonstrates the method to be accurate and suitable to deal with large sets of data.

SpeedupExploitGPUsComputer scienceComputer Networks and CommunicationsGPUSmoothed Particle Hydrodynamics method010103 numerical & computational mathematics01 natural sciencesComputational scienceSmoothed-particle hydrodynamicsInstruction setSettore MAT/08 - Analisi NumericaArtificial IntelligenceAccuracy; Approximation; GPUs; Kernel function; Smoothed particle hydrodynamics method; Speed-Up; Artificial Intelligence; Computer Networks and Communications; 1707; Signal Processing0101 mathematicsApproximationAccuracy1707Random access memoryLinear systemKernel functionSpeed-Up010101 applied mathematicsKernel (statistics)Signal Processing
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Hardware-accelerated spike train generation for neuromorphic image and video processing

2014

Recent studies concerning Spiking Neural Networks show that they are a powerful tool for multiple applications as pattern recognition, image tracking, and detection tasks. The basic functional properties of SNN reside in the use of spike information encoding as the neurons are specifically designed and trained using spike trains. We present a novel and efficient frequency encoding algorithm with Gabor-like receptive fields using probabilistic methods and targeted to FPGA for online pro-cessing. The proposed encoding is versatile, modular and, when applied to images, it is able to perform simple image transforms as edge detection, spot detection or removal, and Gabor-like filtering without a…

Spiking neural networkComputer sciencebusiness.industrySpike trainImage processingVideo processingEdge detectionNeuromorphic engineeringEncoding (memory)Computer visionSpike (software development)Artificial intelligencebusinessComputer hardware2014 IX Southern Conference on Programmable Logic (SPL)
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FPGA implementation of Spiking Neural Networks supported by a Software Design Environment

2011

Abstract This paper is focused on the creation of Spiking Neural Networks (SNN) in hardware due to their advantages for certain problem solving and their similarity to biological neural system. One of the main uses of this neural structure is pattern classification. The chosen model for the spiking neuron is the Spike Response Model (SRM). For SNN design and implementation, a software application has been developed to provide easy creation, simulation and automatic generation of the hardware model. VHDL was used for the hardware model. This paper describes the functionality of SNN and the design procedure followed to obtain a working neural system in both software and hardware. Designed VHD…

Spiking neural networkComputer sciencebusiness.industrymedicine.anatomical_structureSoftwareEmbedded systemPattern recognition (psychology)VHDLCode (cryptography)medicineSoftware designSpike (software development)NeuronbusinessField-programmable gate arraycomputercomputer.programming_languageIFAC Proceedings Volumes
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FPGA implementation of Spiking Neural Networks

2012

Abstract Spiking Neural Networks (SNN) have optimal characteristics for hardware implementation. They can communicate among neurons using spikes, which in terms of logic resources, means a single bit, reducing the logic occupation in a device. Additionally, SNN are similar in performance compared to other neural Artificial Neural Network (ANN) architectures such as Multilayer Perceptron, and others. SNN are very similar to those found in the biological neural system, having weights and delays as adjustable parameters. This work describes the chosen models for the implemented SNN: Spike Response Model (SRM) and temporal coding is used. FPGA implementation using VHDL language is also describe…

Spiking neural networkPhysical neural networkQuantitative Biology::Neurons and CognitionArtificial neural networkbusiness.industryTime delay neural networkComputer scienceMultilayer perceptronComputer Science::Neural and Evolutionary ComputationArtificial intelligencebusinessField-programmable gate arrayHardware_LOGICDESIGNIFAC Proceedings Volumes
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