Citations at Google Scholar
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Publications
International
International
- Hong, J. and Sim, S.-H., "Automated inspection of temporary equipment members" (under review).
- Lee, K., Jeong, S., Sim, S.-H., and Shin D.H., "Detection of staged damage on bridge using convolutional autoencoder" (under review).
- Jeong, S., Jin, S.-S., and Sim, S.-H., "Data anomaly detection for stay-cable monitoring system" (submitted).
- Geetha, G.K., Lee, S., and Sim, S.-H., "Long-term shape sensing of bridges with automated ROI extraction of LiDAR point clouds" (under review).
- Geetha, G.K., Lee, J., and Sim, S.-H., "Scan-to-BIM of precast concrete panel" (under review).
- Lee, S., Geetha, G.K., and Sim, S.-H., "Long-term shape sensing of bridges" (under review).
- Hong, J., Sim, S.-H., Lee, J., Kim, H., Cho, S., and Lee, J., "Displacement measurement of bridge bearings" (under review)
- Kim, H., Sim, S.-H., Yoon, J., and Lee, J., "Displacement measurement using RGB and LiDAR cameras" (under review)
- Yi, C.-Y., Li, F., Thedja, J.P.P., Sim, S.-H., Choi, Y.-K., Kim, G.H., and Kim, M.-K. (2024), "A comparison study of edge line estimation algorithms for dimensional quality assessment of precast concrete slabs," Advances in Civil Engineering, 4166203.
- Li, F., Thedja, J.P.P., Sim, S.-H., Seo, J.-O., and Kim, M.-K. (2023), "Range image-aided edge line estimation for dimensional inspection of precast bridge slab using point cloud data," Sustainability, 15(16).
- Asad, A.T., Kim, B., Cho, S., and Sim, S.-H. (2023), "Prediction model for long-term bridge bearing displacement using artificial neural network and Bayesian optimization," Structural Control and Health Monitoring, 6664981.
- Lee, J., Choi, J., Shin, Y., and Sim, S.-H. (2023), "Estimation of water stagnation in asphalt-overlaid bridges using ground-penetrating radar," Structural Control and Health Monitoring, 7280555.
- Geetha, G.K., Yang, H., and Sim, S.-H. (2023), "Fast detection of missing thin propagating cracks during deep-learning-based concrete crack/non-crack classification," Sensors, 23(3).
- Muhammad, T., Kim, B., Hong, J., Sim, S.-H., and Cho, S. (2022), "Comparative study of lightweight deep semantic segmentation models for concrete damage detection," Applied Sciences, 12(24).
- Kim, B., Lee, J., Sim, S.-H., Cho, S., and Park, B.H. (2022), "Computer vision-based remote displacement monitoring system for in-situ bridge bearings robust to large displacement induced by temperature change," Smart Structures and Systems, 30(5).
- Lee, S., Gil, S.-K., Cho, S., Shin, S.W., and Sim, S.-H. (2022), "Wireless safety monitoring of a water pipeline construction site using LoRa communication," Smart Structures and Systems, 30(5).
- Lee, J., Jeong, S., Lee, J., Sim, S.-H., Lee, K.-C. and Lee, Y.-J. (2022), "Sensor data-based probabilistic monitoring of time-history deflections of railway bridges Induced by high-speed trains," Structural Health Monitoring, 21(6).
- Geetha, G.K. and Sim, S.-H. (2022), "Fast identification of concrete cracks using 1D deep learning and explainable artificial intelligence-based analysis," Automation in Construction,143.
- Lee, S., Kim, H., and Sim, S.-H. (2022), "Nontarget-based displacement measurement using LiDAR and camera," Automation in Construction, 142.
- Lee, J., Jeong, S., Kim, H., Lee, K.C., and Sim, S.-H. (2022), "On-site long-term displacement monitoring of a pre-stressed concrete railway bridge," Measurement, 201.
- Ahn, E., Kim, H., Gwon, S., Kim, C.-G., Oh, S.-R., Sim, S.-H., and Shin, M. (2022), "Monitoring of self-healing in concrete with micro-capsules using a combination of air-coupled surface-wave and computer-vision techniques," Structural Health Monitoring, 21(4), pp. 1661-1677.
- Noureldin, M., Ali, A., Sim, S.-H., and Kim, J. (2022), "A machine learning procedure for seismic qualitative assessment and design of structures considering safety and serviceability," Journal of Building Engineering, 50.
- Kim, H., Sim, S.-H. and Spencer, B.F. Jr. (2022), "Automated concrete crack evaluation using stereo vision with two different focal lengths," Automation in Construction, 135.
- Lee, K., Jeong, S., Sim, S.-H., and Shin, D. H. (2022), "Damage-detection approach for bridges with multi-vehicle loads using convolutional autoencoder," Sensors, 22(5), 1839.
- Jeong, S., Yeom, J., Woo, H.-G., and Sim, S.-H. (2022), "Research trends in structural health monitoring from 2005 to 2019: capturing quantitative and relational changes using bibliometric analysis," Smart Structures and Systems, 29(2).
- Kim, H., Yoon, J., Hong, J., and Sim, S.-H. (2021), "Automated damage localization and quantification in concrete bridges using point cloud-based surface fitting strategy," Journal of Computing in Civil Engineering-ASCE, 35(6).
- Sim, S.-H. and Lee, J.-J. (2021), "Special issue on 'Smart City and Smart Infrastructure'," Sensors, 21(21).
- Jeong, S., Kim, H., Lee, J., and Sim, S.-H. (2021), "Automated wireless monitoring system for cable tension forces using deep learning," Structural Health Monitoring, 20(4).
- Lee, K., Jeong, S., Sim, S.-H., and Shin, D.H. (2021), "Field experiment on a PSC-I bridge for convolutional autoencoder-based damage detection," Structural Health Monitoring, 20(4).
- Lee, S., Lee, J., Park, J.-W., and Sim, S.-H. (2021), "Nontarget-based measurement of 6-DOF displacement using combined RGB color and depth information," IEEE/ASME Transactions on Mechatronics, 26(3).
- Kim, H., Lee, S., Ahn, E., Shin, M., and Sim, S.-H. (2021), "Crack identification methods for concrete structures considering angle of view using RGB-D camera-based sensor fusion," Structural Health Monitoring, 20(2).
- Jin, S.-S., Sim, S.-H., Seo, D.-W., Park, Y.-S., and Jeong, S. (2021), "Fully automated peak-picking method for an autonomous stay-cable monitoring system," Automation in Construction, 126.
- Yoon, J., Kim, H., Sim, S.-H., and Pyo, S. (2021), "Framework for characterizing the time-dependent volumetric properties of aerated cementitious material," Construction and Building Materials, 284.
- Cha, G., Sim, S.-H., Park, S., and Oh, T. (2020), "LiDAR-based bridge displacement estimation using 3D spatial optimization," Sensors, 20(24).
- Jeong, S., Kim, B.J., Lee, Y.-J., Chung, J.-B., and Sim, S.-H. (2020), "Individual disaster assistance for socially vulnerable people: lessons learned from the Pohang earthquake in the Republic of Korea," Risk Analysis, 40(11).
- Yoon, J., Kim, H., Shin, S.W., and Sim, S.-H. (2020), "Rheology-based determination of injectable grout fluidity for preplaced aggregate concrete using ultrasonic tomography," Construction and Building Materials, 260.
- Kim, H., Yoon, J.Y., and Sim, S.-H. (2020), "Automated bridge-component recognition from point clouds using deep learning," Structural Control and Health Monitoring, 27(9).
- Yoon, J., Kim, H., Sim, S.-H., and Pyo, S. (2020), "Characterization of porous cementitious materials using microscopic image processing and X-ray CT analysis," Materials, 13(14).
- Park, J.I., Sim, S.-H., Yoon, Y.G., and Oh, T. (2020), "Prediction of static modulus and compressive strength of concrete from dynamic modulus associated with wave velocity and resonance frequency using machine learning techniques," Materials, 13(13).
- Lee, J., Lee, K.-C., Jeong, S., Lee, Y.-J., and Sim, S.-H. (2020), "Long-term displacement measurement of full-scale bridges using camera ego-motion compensation," Mechanical Systems and Signal Processing, 140.
- Jeong, S., Kim, E.J., Shin, D.H., Park, J.-W., and Sim, S.-H. (2020), "Data fusion-based damage identification for a monopile offshore wind turbine structure using wireless smart sensors," Ocean Engineering, 195.
- Lee, J., Jeong, S., Lee, Y.-J., and Sim, S.-H. (2019), "Stress estimation using digital image correlation with compensation of camera motion-induced error," Sensors, 9(24).
- Lee, J., Lee, K.-C., Sim, S.-H., Lee, J., and Lee, Y.-J. (2019), "Bayesian prediction of prestressed concrete bridge deflection using finite element analysis," Sensors, 19(22).
- Kim, H. and Sim, S.-H. (2019), "Automated peak picking using region-based convolutional neural network for structural system identification," Structural Control and Health Monitoring, 26(11).
- Jeong, S., Lee, Y.-J., Shin, D.H., and Sim, S.-H. (2019), "Automated real-time assessment of stay-cable serviceability using smart sensors," Applied Sciences, 9(20).
- Park, J.-W., Moon, D.S., Sim, S.-H., and B.F. Spencer, Jr. (2019), "Equivalent neutral axis for damage detection of bridges using multisensor fusion," Engineering Structures, 197.
- Lee, J., Lee, K.-C., Lee, S., Lee, Y.-J., and Sim, S.-H. (2019), "Long-term displacement measurement of bridges using a LiDAR system," Structural Control and Health Monitoring, 26(10).
- An, Y., Chatzi, E., Sim, S.-H., Laflamme, S., Blachowski, B. and Ou, J. (2019), "Recent progress and future trends on damage identification methods for bridge structures," Structural Control and Health Monitoring, 26(10).
- Yoon, J., Kim, H., Lee, Y.-J., and Sim, S.-H. (2019), "Prediction model for mechanical properties of lightweight aggregate concrete using artificial neural network," Materials, 12(17).
- Lee, J., Lee, Y.-J., Sim, S.-H., and Cho, S. (2019), "A new probabilistic framework for structural system fragility analysis of concrete gravity dams," KSCE Journal of Civil Engineering, 23(8), pp. 3592-3605.
- Jeong, S., Lee, J., Cho, S., and Sim, S.-H. (2019), "Integrated cable vibration control system using Arduino," Smart Structures and Systems, 23(6), pp. 695-702.
- Jeong, S., Lee, Y.-J., and Sim, S.-H. (2019), “Serviceability assessment method of stay cables with vibration control using first-passage probability,” Mathematical Problems in Engineering, 2019.
- Kim, H., Liu, X., Ahn, E., Shin, M., Shin, S.W., and Sim, S.-H. (2019), "Performance assessment method for crack repair in concrete using PZT-based electromechanical impedance technique," NDT&E, 105, pp. 90-97.
- Kim, H., Ahn, E., Shin, M., and Sim, S.-H. (2019), "Crack and noncrack classification from concrete surface images using machine learning," Structural Health Monitoring, 18(3), pp. 725-738.
- Lee, K., Jeong, S., Sim, S.-H., Shin, D.H. (2019), "A novelty detection approach for tendons of prestressed concrete bridges based on convolutional autoencoder and acceleration data," Sensors, 19(7).
- Palanisamy, R.P., Jung, B.-J., Sim, S.-H., and Yi, J.-H. (2019), "Quasi real-time and continuous non-stationary strain estimation in bottom-fixed offshore structures by multimetric data fusion," Smart Structures and Systems, 23(1), pp. 61-69.
- Lee, J., Kim, E., Gwon, S., Cho, S., and Sim, S.-H. (2019), "Uniaxial static stress estimation for concrete structures using digital image correlation," Sensors, 19(2).
- Ahn, E., Kwon, S., Kim, H., Kim, C., Sim, S.-H., and Shin, M., (2018), "Applicability of diffuse ultrasound to evaluation of water permeability and chloride ion penetrability of cracked concrete," Sensors, 18(12).
- Ahn, E., Kim, H., Sim, S.-H., Shin, S.W., Popovics, J., and Shin, M. (2018), "Surface-wave based model for estimation of discontinuity depth in concrete," Sensors, 18(9).
- Cho, S., Lee, J., and Sim, S.-H. (2018), "Comparative study on displacement measurement sensors for high-speed railroad bridge," Smart Structures and Systems, 21(5), pp. 637-652.
- Lee, J., Lee, K.-C., Cho, S., and Sim, S.-H. (2017), "Computer vision-based structural displacement measurement robust to light-induced image degradation for in-service bridges," Sensors, 17(1).
- Kim, H., Lee, J., Ahn, E., Cho, S., Shin, M., and Sim, S.-H. (2017), "Concrete crack identification using a UAV incorporating hybrid image processing," Sensors, 17(9).
- Kim, H., Ahn, E., Cho, S., Shin, M., and Sim, S.-H. (2017), "Comparative analysis of image binarization methods for crack identification in concrete structures," Cement and Concrete Research, 99, pp. 53-61.
- Kim, H., Sim, S.-H., Lee, J., Lee, Y.-J., and Kim, J.-M. (2017), "Flood fragility analysis for bridges with multiple failure modes," Advances in Mechanical Engineering, 9(3).
- Ahn, E., Kim, H., Sim, S.-H., Shin, S.W., and Shin, M. (2017), "Principles and applications of ultrasonic-based nondestructive methods for self-healing in cementitious materials," Materials, 10(3).
- Park, J.-W., Lee, K.-C., Sim, S.-H., Jung, H.-J., and Spencer, Jr., B.F. (2016), "Traffic safety evaluation for railway bridges using expanded multi-sensor data fusion," Computer-Aided Civil and Infrastructure Engineering, 31(10), pp. 749-760.
- Kim, H., Cho, S., and Sim, S.-H. (2016) "Data fusion of acceleration and angular velocity for improved model updating," Measurement, 91, pp. 239-250.
- Cho, S., Park, J.-W., Palanisamy, R.P., and Sim, S.-H. (2016), "Reference-free displacement estimation of bridges using Kalman filter-based multimetric data fusion," Journal of Sensors, 2016.
- Kim, R.E., Mechitov, K., Sim, S.-H., Spencer, Jr., B.F., Song, J. (2016), "Probabilistic assessment of high-throughput wireless sensor networks," Sensors, 16(6).
- Kim, J.-T., Sim, S.-H., Cho, S., Yun, C.-B., and Min, J. (2016), "Recent R&D activities on structural health monitoring in Korea," Structural Monitoring and Maintenance, 3(1), pp. 91-114.
- Spencer, Jr., B.F., Jo, H., Mechitov, K.A., Li, J., Sim, S.-H., Kim, R.E., Cho, S., Linderman, L.E., Moinzadeh, P., Giles, R.K., Agha, G. (2016), "Recent advances in wireless smart sensors for multi-scale monitoring and control of civil infrastructure," Journal of Civil Structural Health Monitoring, 6(1), pp. 17-41.
- Lee, J., Lee, Y.-J., Kim, H., Sim, S.-H., and Kim, J.-M. (2016), "A new methodology development for flood fragility curve derivation considering structural deterioration for bridges," Smart Structures and Systems, 17(1), pp. 149-165.
- Sim, S.-H. (2016), "Estimation of flexibility matrix of beam structures using multisensor fusion," Journal of Structural Integrity and Maintenance, 1(2), pp. 60-64.
- Park, Y.-S., Kim, S., Sim, S.-H., Koo, K.Y., and Lee J.J. (2015), "Smart one-channel sensor node for ambient vibration test with applications to structural health monitoring of large civil infrastructures," Journal of Distributed Sensor Networks, 11(11).
- Cho, S., Park, J.-W., and Sim, S.-H. (2015), "Decentralized system identification using stochastic subspace identification for wireless sensor networks," Sensors, 15(4).
- Cho, S., Yun, C.-B., Sim, S.-H., (2015), "Displacement estimation of bridge structures using data fusion of acceleration and strain measurement incorporating finite element model," Smart Structures and Systems, 15(3-4), pp. 645-663.
- Jung, B.-J., Park, J.-W., Sim, S.-H., and Yi, J.-H. (2015), "Issues in structural health monitoring for fixed-type offshore structures under harsh tidal environments," Smart Structures and Systems, 15(2), pp. 335-353.
- Park, J.-W., Sim, S.-H., Yi, J.-H., and Jung, H.-J. (2015), "Development of temperature-robust damage factor based on sensor fusion for a wind turbine structure," Frontiers of Structural and Civil Engineering, 9(1).
- Palanisamy, R.P., Cho, S., Kim, H., and Sim, S.-H. (2015), "Experimental validation of Kalman filter-based strain estimation in structures subjected to non-zero mean input," Smart Structures and Systems, 15(2), pp. 489-503.
- Cho, S., Sim, S.-H., Park, J.-W., and Lee, J. (2014), "Extension of indirect displacement estimation method using acceleration and strain to various types of beam structures," Smart Structures and Systems, 14(4), pp. 699-718.
- Park, J.-W., Sim, S.-H., and Jung, H.-J. (2014), "Wireless displacement sensing system for bridges using multi-sensor fusion," Smart Materials and Structures, 23(4).
- Sim, S.-H., Li, J., Jo, H., Park, J.-W., Cho, S., Spencer, Jr., B.F., and Jung, H.-J. (2014), "A wireless smart sensor network for automated monitoring of cable tension," Smart Materials and Structures, 23(2).
- Park, J.-W., Sim, S.-H., and Jung, H.J. (2013), "Displacement estimation using multimetric data fusion," IEEE/ASME Transactions on Mechatronics, 18(6), pp. 1675-1682.
- Park, J.-W., Sim, S.-H., and Jung, H.J. (2013), "Wireless sensor network for decentralized damage detection of building structures," Smart Structures and Systems, 12(3-4), pp. 399-414.
- Jo, H., Sim, S.-H., Tatkowski, A., Spencer, Jr., B.F., and Nelson, M.E. (2013), "Feasibility of displacement monitoring using low-cost GPS receivers," Structural Control and Health Monitoring, 20(9), pp. 1240-1254.
- Park, J.-W., Sim, S.-H., and Jung, H.J. (2013), "Development of a wireless displacement measurement system using acceleration responses," Sensors, 13(7), pp. 8377-8392.
- Oh, T., Popovics, J., and Sim, S.-H. (2013), "Analysis of vibration for regions above rectangular delamination defects in solids," Journal of Sound and Vibration, 332(7), pp. 1766-1776.
- Jang, S., Sim, S.-H., Jo, H., and Spencer, Jr., B.F. (2012), "Full-scale experimental validation of decentralized damage identification using wireless smart sensors," Smart Materials and Structures, 21(11).
- Jo, H., Sim, S.-H., Nagayama, T., and Spencer, Jr., B.F. (2012), "Development and application of high-sensitivity wireless smart sensors for decentralized stochastic modal identification," Journal of Engineering Mechanics, ASCE, 138(6), pp. 683-694.
- Jang, S., Spencer, Jr., B.F., and Sim, S.-H. (2012), "A decentralized receptance-based damage detection strategy for wireless smart sensors," Smart Materials and Structures, 21(5).
- Rice, J.A., Mechitov, K.A., Sim, S.-H., and Spencer, Jr., B.F. (2011), "Enabling framework for structural health monitoring using smart sensors," Structural Control and Health Monitoring, 18(5), pp. 574-587.
- Sim, S.-H., Spencer, Jr., B.F., and Nagayama, T. (2011), "Multimetric sensing for structural damage detection," Journal of Engineering Mechanics, ASCE, 137(1), pp. 22-30.
- Sim, S.-H., Carbonell-Marquez, J., Spencer, Jr., B.F. and Jo, H. (2011), "Decentralized random decrement technique for efficient data aggregation and system identification in wireless smart sensor networks," Probabilistic Engineering Mechanics, 26(1), pp. 81-91.
- Sim, S.-H., Spencer, Jr., B.F., Zhang, M., and Xie, H. (2010), "Automated decentralized modal analysis using smart sensors," Structural Control and Health Monitoring, 17(8), pp. 872-894.
- Jang, S.A., Jo, H., Cho, S., Mechitov, K.A., Rice, J.A., Sim, S.-H., Jung, H.J., Yun, C.B., Spencer, Jr., B.F., and Agha, G. (2010), "Structural health monitoring of a cable-stayed bridge using smart sensor technology: deployment and evaluation," Smart Structures and Systems, 6(5-6), pp. 439-459.
- Rice, J.A., Mechitov, K.A., Sim, S.-H., Nagayama, T., Jang, S.A., Kim, R, Spencer, Jr., B.F., Agha, G., and Fujino, Y. (2010), "Flexible smart sensor framework for autonomous structural health monitoring," Smart Structures and Systems, 6(5-6), pp. 423-438.
- Sim, S.-H., Spencer, Jr., B.F., and Lee, G.C. (2009), "Virtual laboratory for experimental structural dynamics," Computer Applications in Engineering Education, 17(1), pp. 80-88.
- Sim, S.-H., Jang, S.A., Spencer, Jr., B.F., and Song, J. (2008), "Reliability-based evaluation of the performance of the damage locating vector method," Probabilistic Engineering Mechanics, 23(4), pp. 489-495.
- Nagayama, T., Sim, S.-H., Miyamori, Y., and Spencer, Jr., B.F. (2007), "Issues in SHM employing smart sensors," Smart Structures and Systems, 3(3), pp. 299-320.
- Lee, K., Jeong, S., Sim, S.-H., and Shin D.H., "Detection of staged damage on bridge using convolutional autoencoder" (under review).
Domestic
- 유다영, 이채은, 심성한 (2023), "포인트 클라우드 기반 건축물 기울기 측정 자동화," 한국구조물진단유지관리공학회, 27(5).
- 권순호, 김정섭, 심성한, 김민구 (2023), "프리캐스트 콘크리트 부재의 평탄도 검사를 위한 센싱 기반 측정방법 적합도 비교," 한국건설관리학회 논문집, 24(4), pp. 52-59.
- 이강혁, 심성한, 신도형 (2021), "가속도계 설치 개수 및 위치에 따른 딥러닝 기반 교량 손상 추정 영향 분석," 한국방재학회, 21(5), pp. 183-190.
- 안은종, 김현준, 권성우, 심성한, 이광명, 신명수 (2017), "표면탄성파를 활용한 콘크리트 균열 보수 성능 평가 기법," 한국건설순환자원학회, 5(4).
- Lu, J., Sim, S.H., and Spencer, Jr., B.F. (2017), "Modal parametric identification of distribution type structures based on random decrement technique," Zhendong yu Chongji/Journal of Vibration and Shock, 36(17), pp. 48-54.
- 조수진, 신성우, 심성한, 임정열 (2016), "홍수 시 콘크리트 중력식댐의 위험도 분석을 위한 파괴확률 산정," 한국안전학회지, 31(6), pp. 58-66.
- 김현준, 심성한 (2016), "부유물 충돌을 고려한 교각의 홍수 취약도 해석 기법," 한국산학기술학회논문지, 17(5).
- 김은주, 박종웅, 심성한 (2016), "고속 철도 교량의 구조 건전성 모니터링을 위한 스마트 무선 센서 프레임워크 개발," 한국산학기술학회논문지, 17(5).
- 김은진, 박종웅, 심성한 (2016), "구조물 모니터링을 위한 무선 스마트 센서 네트워크의 칼만 필터 기반 데이터 복구," 한국구조물진단유지관리공학회 논문집, 20(3).
- 김은진, 조수진, 심성한 (2015), "구조물 건전성 모니터링을 위한 스마트 센서 관련 최근 연구동향," 한국구조물진단유지관리공학회 논문집, 19(3).
- 김현준, 조수진, 심성한 (2015), "가속도 및 각속도 데이터 융합 기반 유한요소모델 개선," 한국구조물진단유지관리공학회 논문집, 19(2).
- 박종웅, 심성한, 정병진, 이진학 (2015), "경사 및 가속도 계측자료 융합을 통한 풍력 터빈의 변위 추정," 대한토목학회지, 35(1).
- 이준화, 조수진, 심성한 (2014), "임의의 위치에서 사용 가능한 영상 기반 변위 계측 시스템," 한국구조물진단유지관리공학회 논문집, 18(6).
- 조수진, 심성한, 김은성 (2014), "영상 기반 변위 계측장치의 현장 적용 성능 평가," 한국산학기술학회논문지, 15(9).
- 조수진, 윤정방, 심성한 (2014), "진동법을 이용한 사장교의 시공 중 장력 평가," 한국안전학회지, 29(2), pp. 38-44.
- 김은성, 박종웅, 심성한 (2013), "차세대고속열차 운행에 따른 호남고속선 강합성교의 동특성 분석," 한국산학기술학회논문지, 14(7).
- Zhang, Y.-X., Sim, S.-H., Spencer, Jr., B.F., and Xiao, J. (2011), "Reference channel selection strategy in system identification of bridge structure," Zhendong yu Chongji/Journal of Vibration and Shock, 30(12), pp. 181-184.
- Lu, J., Sim, S.-H., Jin, B., and Spencer, Jr., B.F. (2011), "Structural modal identification based on distributed wireless smart sensor networks," Yingyong Jichu yu Gongcheng Kexue Xuebao/Journal of Basic Science and Engineering, 19(5), pp. 732-740.
- Zhang, M., Xie, H., Sim, S.-H., and Spencer, Jr., B.F. (2010), "Modal identification technique based on distributed sensor networks," Tumu Gongcheng Xuebao/China Civil Engineering Journal, 43(3), pp. 106-110.
- Zhang, M., Xie, H., Sim, S.-H., and Spencer, Jr., B.F. (2009), "Distributed Modal Identification based on Stochastic Subspace Method," Shenzhen Daxue Xuebao (ligong Ban)/Journal of Shenzhen University, Science and Engineering, 26(4), pp. 394-399.
Technical Reports and Magazine Articles
- Sim, S.-H. and Spencer, Jr., B.F. (2015), "Decentralized Identification and Multimetric Monitoring of Civil Infrastructure using Smart Sensors," Newmark Structural Laboratory Report Series, University of Illinois at Urbana-Champaign, Report 38.
- Spencer, Jr., B.F., Cho, S., and Sim, S.-H. (2011), "Wireless monitoring of civil infrastructure comes of age," Structure, 13.
- Sim, S.-H. and Spencer, Jr., B.F. (2009), "Decentralized Strategies for Monitoring Structures using Wireless Smart Sensor Networks," Newmark Structural Laboratory Report Series, University of Illinois at Urbana-Champaign, Report 19.