Case Study-Spiking Neural Network Hardware System for Structural Health Monitoring

被引：11

作者：

Pang, Lili ^{[1
]}

Liu, Junxiu ^{[2
]}

Harkin, Jim ^{[2
]}

Martin, George ^{[2
]}

McElholm, Malachy ^{[2
]}

Javed, Aqib ^{[2
]}

McDaid, Liam ^{[2
]}

机构：

[1] Nanjing Inst Technol, Sch Innovat & Entrepreneurship, Ind Ctr, Nanjing 211167, Peoples R China

[2] Ulster Univ, Sch Comp Engn & Intelligent Syst, Derry BT48 7JL, North Ireland

来源：

SENSORS | 2020年 / 20卷 / 18期

关键词：

structural health monitoring; damage state classification; spiking neural networks; feature extraction; artificial neural networks; MACHINE; CLASSIFICATION; CAPACITY; MODEL;

D O I：

10.3390/s20185126

中图分类号：

O65 [分析化学];

学科分类号：

070302 ; 081704 ;

摘要：

This case study provides feasibility analysis of adapting Spiking Neural Networks (SNN) based Structural Health Monitoring (SHM) system to explore low-cost solution for inspection of structural health of damaged buildings which survived after natural disaster that is, earthquakes or similar activities. Various techniques are used to detect the structural health status of a building for performance benchmarking, including different feature extraction methods and classification techniques (e.g., SNN, K-means and artificial neural network etc.). The SNN is utilized to process the sensory data generated from full-scale seven-story reinforced concrete building to verify the classification performances. Results show that the proposed SNN hardware has high classification accuracy, reliability, longevity and low hardware area overhead.

引用

页码：1 / 14

页数：14

共 50 条

[21] Modular Neural Tile Architecture for Compact Embedded Hardware Spiking Neural Network
Sandeep Pande
Fearghal Morgan
Seamus Cawley
Tom Bruintjes
Gerard Smit
Brian McGinley
Snaider Carrillo
Jim Harkin
Liam McDaid
Neural Processing Letters, 2013, 38 : 131 - 153
[22] Modular Neural Tile Architecture for Compact Embedded Hardware Spiking Neural Network
Pande, Sandeep
Morgan, Fearghal
Cawley, Seamus
Bruintjes, Tom
Smit, Gerard
McGinley, Brian
Carrillo, Snaider
Harkin, Jim
McDaid, Liam
NEURAL PROCESSING LETTERS, 2013, 38 (02) : 131 - 153
[23] A Digital Hardware System for Spiking Network of Tactile Afferents
Salimi-Nezhad, Nima
Ilbeigi, Erfan
Amiri, Mahmood
Falotico, Egidio
Laschi, Cecilia
FRONTIERS IN NEUROSCIENCE, 2020, 13
[24] Structural Health Monitoring of Cantilever Beam, a Case Study-Using Bayesian Neural Network and Deep Learning
Vashisht, Rahul
Viji, H.
Sundararajan, T.
Mohankumar, D.
Sumitra, S.
STRUCTURAL INTEGRITY ASSESSMENT, ICONS 2018, 2020, : 749 - 761
[25] Hardware System for Biologically Realistic, Plastic, and Real-time Spiking Neural Network Simulations
Saighi, S.
Levi, T.
Belhadj, B.
Malot, O.
Tomas, J.
2010 INTERNATIONAL JOINT CONFERENCE ON NEURAL NETWORKS IJCNN 2010, 2010,
[26] Minimally buffered deflection router for spiking neural network hardware implementations
Junxiu Liu
Dong Jiang
Yuling Luo
Senhui Qiu
Yongchuang Huang
Neural Computing and Applications, 2021, 33 : 11753 - 11764
[27] Rapid application prototyping for hardware modular spiking neural network architectures
Pande, Sandeep
Morgan, Fearghal
Krewer, Finn
Harkin, Jim
McDaid, Liam
McGinley, Brian
NEURAL COMPUTING & APPLICATIONS, 2017, 28 (09): : 2767 - 2779
[28] Hardware aware modeling of mixed-signal spiking neural network
Chowdhury, Sayma Nowshin
Shah, Sahil
2022 20TH IEEE INTERREGIONAL NEWCAS CONFERENCE (NEWCAS), 2022, : 104 - 108
[29] Reconfigurable hardware evolution platform for a spiking neural network robotics controller
Rocke, Patrick
McGinley, Brian
Morgan, Fearghal
Maher, John
RECONFIGURABLE COMPUTING: ARCHITECTURES, TOOLS AND APPLICATIONS, 2007, 4419 : 373 - +
[30] SPANNER: A Self-Repairing Spiking Neural Network Hardware Architecture
Liu, Junxiu
Harkin, Jim
Maguire, Liam P.
McDaid, Liam J.
Wade, John J.
IEEE TRANSACTIONS ON NEURAL NETWORKS AND LEARNING SYSTEMS, 2018, 29 (04) : 1287 - 1300

← 1 2 3 4 5 →