Heritage timber structures represent the history and culture of a nation. These structures have been inherited from previous generations; however, they inevitably exhibit deterioration over time, potentially leading to structural deficiencies. Structural Health Monitoring (SHM) offers the potential to assess operational anomalies, deterioration, and damage through processing and analysis of data collected from transducers and sensors mounted on the structure. This paper reports on the design and implementation of a long-term SHM system on the Feiyun Wooden Pavilion in China, a three-story timber building built more than 500 years ago. The principles and features of the design and implementation of SHM systems for heritage timber buildings are systematically discussed. In total, 104 sensors of 6 different types are deployed on the structure to monitor the environmental effects and structural responses, including air temperature and humidity, wind speed and direction, structural temperatures, strain, inclination, and acceleration. In addition, integrated data acquisition and transmission subsystem using a newly developed software platform are implemented. Selected preliminary statistical and correlation analysis using one year of monitoring data are presented to demonstrate the condition assessment capability of the system based on the monitoring data.

1 Maria-Giovanna Masciotta, "The importance of structural monitoring as a diagnosis and control tool in the restoration process of heritage structures: A case study in Portugal" Elsevier BV 27 : 36-47, 2017

2 Xiaobin Bai, "Temperature effect on the structural strains of an ancient Tibetan building based on long-term monitoring data" Springer Science and Business Media LLC 17 (17): 641-657, 2018

3 Juan Wang ; Jun-Xiao He ; Qingshan Yang ; Na Yang, "Study on mechanical behaviors of column foot joint in traditional timber structure" 국제구조공학회 66 (66): 1-14, 2018

4 K. Y. Koo, "Structural health monitoring of the Tamar suspension bridge" Hindawi Limited 20 (20): 609-625, 2012

5 Antonia Moropoulou, "Structural health monitoring of the Holy Aedicule in Jerusalem" Hindawi Limited 26 (26): 2019

6 R C Tennyson, "Structural health monitoring of innovative bridges in Canada with fiber optic sensors" IOP Publishing 10 (10): 560-573, 2001

7 Duvnjak, I., "Structural health monitoring of cultural heritage structures : applications on peristyle of diocletian’s palace in Split" 2016

8 Paolo Di Re ; Egidio Lofrano ; Jacopo Ciambella ; Francesco Romeo, "Structural analysis and health monitoring of twentieth-century cultural heritage: the Flaminio Stadium in Rome" 국제구조공학회 27 (27): 285-303, 2021

9 G. W. Housner, "Structural Control: Past, Present, and Future" American Society of Civil Engineers (ASCE) 123 (123): 897-971, 1997

10 B. F. Spencer, "Smart sensing technology: opportunities and challenges" Hindawi Limited 11 (11): 349-368, 2004

11 Sana Ullah Jan, "Sensor Fault Classification Based on Support Vector Machine and Statistical Time-Domain Features" Institute of Electrical and Electronics Engineers (IEEE) 5 : 8682-8690, 2017

12 Y.Q. Ni ; Y. Xia ; W. Lin ; W.H. Chen ; J.M. Ko, "SHM benchmark for high-rise structures: a reduced-order finite element model and field measurement data" 국제구조공학회 10 (10): 411-426, 2012

13 Sara Casciati, "Random imperfection fields to model the size effect in laboratory wood specimens" Elsevier BV 29 (29): 308-321, 2007

14 Xiaomin Xu ; Kenichi Soga ; Sarfraz Nawaz ; Neil Moss ; Keith Bowers ; Mohammed Gajia, "Performance monitoring of timber structures in underground construction using wireless SmartPlank" 국제구조공학회 15 (15): 769-785, 2015

15 Sara Casciati, "Nonlinear aspects of energy dissipation in wood-panel joints" Springer Science and Business Media LLC 6 (6): 259-268, 2007

16 Matteo Quartagno, "Multiple imputation for discrete data: Evaluation of the joint latent normal model" Wiley 2019

17 Rosario Ceravolo, "Monitoring of masonry historical constructions: 10 years of static monitoring of the world's largest oval dome" Hindawi Limited 24 (24): e1988-, 2017

18 Glisic, B., "Monitoring of heritage structures and historical monuments using long-gage fiber optical interferometric sensors – an overview" 2007

19 Pier Paolo Rossi, "Monitoring of Two Great Venetian Cathedrals: San Marco and Santa Maria Gloriosa Dei Frari" Informa UK Limited 9 (9): 58-81, 2014

20 Cristina Castagnetti, "Monitoring leaning towers by geodetic approaches: effects of subsidence and earthquake to the Ghirlandina Tower" Hindawi Limited 23 (23): 580-593, 2015

21 Peter Breuer, "Monitoring horizontal displacements in a vertical profile of a tall industrial chimney using Global Positioning System technology for detecting dynamic characteristics" Hindawi Limited 22 (22): 1002-1023, 2015

22 Lu Dai, "Monitoring crowd load effect on typical ancient Tibetan building" Hindawi Limited 23 (23): 998-1014, 2015

23 A. P. Dempster, "Maximum Likelihood from Incomplete Data Via theEMAlgorithm" Wiley 39 (39): 1-22, 1977

24 Patidar, P., "Handling missing value in decision tree algorithm" 70 (70): 31-36, 2013

25 Faraj Bashir, "Handling missing data in multivariate time series using a vector autoregressive model-imputation (VAR-IM) algorithm" Elsevier BV 276 : 23-30, 2018

26 "GB 18306-2015, Chinese ground motion parameter zoning map"

27 Bo Chen ; Qingshan Yang ; Ke Wang ; Linan Wang, "Full-scale measurements of wind effects and modal parameter identification of Yingxian wooden tower" 한국풍공학회 17 (17): 609-627, 2013

28 Roberto Marsili, "Fibre Bragg Gratings for the Monitoring of Wooden Structures" MDPI AG 11 (11): 7-, 2017

29 Chen Ye, "Effective Bayesian-network-based missing value imputation enhanced by crowdsourcing" Elsevier BV 190 : 105199-, 2020

30 Kosmas Dragos, "Distributed adaptive diagnosis of sensor faults using structural response data" IOP Publishing 25 (25): 105019-, 2016

31 Jyrki Kullaa, "Distinguishing between sensor fault, structural damage, and environmental or operational effects in structural health monitoring" Elsevier BV 25 (25): 2976-2989, 2011

32 "Convention Concerning the Protection of the World Cultural and Natural Heritage"

33 R. Falciai, "Continuous monitoring of wooden works of art using fiber Bragg grating sensors" Elsevier BV 4 (4): 285-290, 2003

34 Mengning Lyu, "Connection stiffness identification of historic timber buildings using Temperature-based sensitivity analysis" Elsevier BV 131 : 180-191, 2017

35 Sandro Diord, "Automated modal tracking in a football stadium suspension roof for detection of structural changes" Hindawi Limited 24 (24): e2006-, 2017

36 Sonja Gamse, "Assessment of long-term coordinate time series using hydrostatic-season-time model for rock-fill embankment dam" Hindawi Limited 24 (24): e1859-, 2016

37 Guanfeng Qiao, "Assessment and retrofitting solutions for an historical wooden pavilion in China" Elsevier BV 105 : 435-447, 2016

38 Hong Shi, "An Improved Mean Imputation Clustering Algorithm for Incomplete Data" Springer Science and Business Media LLC 54 (54): 3537-3550, 2020

39 Kyung-Won Min, "Ambient Vibration Testing for Story Stiffness Estimation of a Heritage Timber Building" Hindawi Limited 2013 : 1-9, 2013

40 Jonny Carlos da Silva, "A knowledge-based system approach for sensor fault modeling, detection and mitigation" Elsevier BV 39 (39): 10977-10989, 2012