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Year 2018, Volume: 3 Issue: 2, 56 - 60, 01.06.2018
https://doi.org/10.26833/ijeg.380752

Abstract

References

  • Gade, R. and T. B. Moeslund 2014. "Thermal cameras and applications: a survey." Machine Vision and Applications 25(1): 245-262.
  • Grinzato, E., P. G. Bison and S. Marinetti 2002). "Monitoring of ancient buildings by the thermal method." Journal of Cultural Heritage 3(1): 21-29.
  • Jerem, P., K. Herborn, D. McCafferty, D. McKeegan and R. Nager 2015. "Thermal Imaging to Study Stress Non-invasively in Unrestrained Birds." Jove-Journal of Visualized Experiments(105).
  • Jones, B. F. 1998. "A reappraisal of the use of infrared thermal image analysis in medicine." Ieee Transactions on Medical Imaging 17(6): 1019-1027.
  • Jones, B. F. and P. Plassmann 2002. "Digital infrared thermal imaging of human skin." Ieee Engineering in Medicine and Biology Magazine 21(6): 41-48.
  • Kaplan, H. 2007. Practical applications of infrared thermal sensing and imaging equipment, SPIE press.
  • Lewis, A. W., S. T. S. Yuen and A. J. R. Smith 2003. "Detection of gas leakage from landfills using infrared thermography - applicability and limitations." Waste Management & Research 21(5): 436-447.
  • Ma, Y. L., X. K. Wu, G. Z. Yu, Y. Z. Xu and Y. P. Wang 2016. "Pedestrian Detection and Tracking from Low-Resolution Unmanned Aerial Vehicle Thermal Imagery." Sensors 16(4).
  • Malone, R. M., J. R. Celeste, P. M. Celliers, B. C. Frogget, R. L. Guyton, M. I. Kaufman, T. L. Lee, B. J. MacGowan, E. W. Ng and I. P. Reinbachs 2005. Combining a thermal-imaging diagnostic with an existing imaging VISAR diagnostic at the National Ignition Facility (NIF). Optics & Photonics 2005, International Society for Optics and Photonics.
  • Nalçakan, M. 1995. "Turan Numune Mektebi’den Atatürk ve Cumhuriyet Tarihi Müzesi’ne." Anadolu Sanat 3: 85-96.
  • Pascucci, S., C. Bassani, A. Palombo, M. Poscolieri and R. Cavalli 2008. "Road asphalt pavements analyzed by airborne thermal remote sensing: preliminary results of the Venice highway." Sensors 8(2): 1278-1296.
  • Raimondi, V., P. K. Weibring, G. Cecchi, H. Edner, T. Johansson, L. Pantani, B. Sundner and S. Svanberg 1998. Fluorescence imaging of historical buildings by lidar remote sensing. Earth Surface Remote Sensing II, International Society for Optics and Photonics.
  • Sabins, F. F. 2007. Remote sensing: principles and applications, Waveland Press.
  • Ulvi, A. and A. S. Toprak 2016. "INVESTIGATION OF THREE-DIMENSIONAL MODELLING AVAILABILITY TAKEN PHOTOGRAPH OF THE UNMANNED AERIAL VEHICLE; SAMPLE OF KANLIDIVANE CHURCH." International Journal of Engineering and Geosciences (IJEG), 1(1), 1-6.
  • Vadivambal, R. and D. S. Jayas 2011. "Applications of Thermal Imaging in Agriculture and Food Industry-A Review." Food and Bioprocess Technology 4(2): 186- 199.
  • Zheng, X. L., X. J. Zhu, Y. Q. Lu, J. B. Zhao, W. Feng, G. H. Jia, F. Wang, F. Y. Li and D. Y. Jin 2016. "HighContrast Visualization of Upconversion Luminescence in Mice Using Time-Gating Approach." Analytical Chemistry 88(7): 3449-3454.

Determination of building materials with IR-Thermography in historical buildings

Year 2018, Volume: 3 Issue: 2, 56 - 60, 01.06.2018
https://doi.org/10.26833/ijeg.380752

Abstract

Lately, IR thermography is frequently applied for important purposes in monitoring buildings such as energy leaking, ventilating and air-conditioning installations, electrical and mechanical installations, moisture detection etc. Nondestructive monitoring methods are essential in case of monitoring historical buildings. It is curtail not to destruct any part of the buildings, which are historically important. Therefore, nondestructive methods need to be used while monitoring this kind of buildings. In this study, IR-Thermography was used in order to distinguish different construction materials that were used to build the walls of a historical building. The thermal monitoring was made with Optris PI-450 long wave infrared camera. The results showed that IR monitoring can be useful to distinguish the building materials without destroying the investigated buildings’ plaster or facing. It is observed that the best results can be achieved on higher temperatures at IR-Thermography.

References

  • Gade, R. and T. B. Moeslund 2014. "Thermal cameras and applications: a survey." Machine Vision and Applications 25(1): 245-262.
  • Grinzato, E., P. G. Bison and S. Marinetti 2002). "Monitoring of ancient buildings by the thermal method." Journal of Cultural Heritage 3(1): 21-29.
  • Jerem, P., K. Herborn, D. McCafferty, D. McKeegan and R. Nager 2015. "Thermal Imaging to Study Stress Non-invasively in Unrestrained Birds." Jove-Journal of Visualized Experiments(105).
  • Jones, B. F. 1998. "A reappraisal of the use of infrared thermal image analysis in medicine." Ieee Transactions on Medical Imaging 17(6): 1019-1027.
  • Jones, B. F. and P. Plassmann 2002. "Digital infrared thermal imaging of human skin." Ieee Engineering in Medicine and Biology Magazine 21(6): 41-48.
  • Kaplan, H. 2007. Practical applications of infrared thermal sensing and imaging equipment, SPIE press.
  • Lewis, A. W., S. T. S. Yuen and A. J. R. Smith 2003. "Detection of gas leakage from landfills using infrared thermography - applicability and limitations." Waste Management & Research 21(5): 436-447.
  • Ma, Y. L., X. K. Wu, G. Z. Yu, Y. Z. Xu and Y. P. Wang 2016. "Pedestrian Detection and Tracking from Low-Resolution Unmanned Aerial Vehicle Thermal Imagery." Sensors 16(4).
  • Malone, R. M., J. R. Celeste, P. M. Celliers, B. C. Frogget, R. L. Guyton, M. I. Kaufman, T. L. Lee, B. J. MacGowan, E. W. Ng and I. P. Reinbachs 2005. Combining a thermal-imaging diagnostic with an existing imaging VISAR diagnostic at the National Ignition Facility (NIF). Optics & Photonics 2005, International Society for Optics and Photonics.
  • Nalçakan, M. 1995. "Turan Numune Mektebi’den Atatürk ve Cumhuriyet Tarihi Müzesi’ne." Anadolu Sanat 3: 85-96.
  • Pascucci, S., C. Bassani, A. Palombo, M. Poscolieri and R. Cavalli 2008. "Road asphalt pavements analyzed by airborne thermal remote sensing: preliminary results of the Venice highway." Sensors 8(2): 1278-1296.
  • Raimondi, V., P. K. Weibring, G. Cecchi, H. Edner, T. Johansson, L. Pantani, B. Sundner and S. Svanberg 1998. Fluorescence imaging of historical buildings by lidar remote sensing. Earth Surface Remote Sensing II, International Society for Optics and Photonics.
  • Sabins, F. F. 2007. Remote sensing: principles and applications, Waveland Press.
  • Ulvi, A. and A. S. Toprak 2016. "INVESTIGATION OF THREE-DIMENSIONAL MODELLING AVAILABILITY TAKEN PHOTOGRAPH OF THE UNMANNED AERIAL VEHICLE; SAMPLE OF KANLIDIVANE CHURCH." International Journal of Engineering and Geosciences (IJEG), 1(1), 1-6.
  • Vadivambal, R. and D. S. Jayas 2011. "Applications of Thermal Imaging in Agriculture and Food Industry-A Review." Food and Bioprocess Technology 4(2): 186- 199.
  • Zheng, X. L., X. J. Zhu, Y. Q. Lu, J. B. Zhao, W. Feng, G. H. Jia, F. Wang, F. Y. Li and D. Y. Jin 2016. "HighContrast Visualization of Upconversion Luminescence in Mice Using Time-Gating Approach." Analytical Chemistry 88(7): 3449-3454.
There are 16 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Uğur Avdan 0000-0001-7873-9874

Onur Kaplan 0000-0002-0759-621X

Gordana Kaplan This is me 0000-0001-7522-9924

Publication Date June 1, 2018
Published in Issue Year 2018 Volume: 3 Issue: 2

Cite

APA Avdan, U., Kaplan, O., & Kaplan, G. (2018). Determination of building materials with IR-Thermography in historical buildings. International Journal of Engineering and Geosciences, 3(2), 56-60. https://doi.org/10.26833/ijeg.380752
AMA Avdan U, Kaplan O, Kaplan G. Determination of building materials with IR-Thermography in historical buildings. IJEG. June 2018;3(2):56-60. doi:10.26833/ijeg.380752
Chicago Avdan, Uğur, Onur Kaplan, and Gordana Kaplan. “Determination of Building Materials With IR-Thermography in Historical Buildings”. International Journal of Engineering and Geosciences 3, no. 2 (June 2018): 56-60. https://doi.org/10.26833/ijeg.380752.
EndNote Avdan U, Kaplan O, Kaplan G (June 1, 2018) Determination of building materials with IR-Thermography in historical buildings. International Journal of Engineering and Geosciences 3 2 56–60.
IEEE U. Avdan, O. Kaplan, and G. Kaplan, “Determination of building materials with IR-Thermography in historical buildings”, IJEG, vol. 3, no. 2, pp. 56–60, 2018, doi: 10.26833/ijeg.380752.
ISNAD Avdan, Uğur et al. “Determination of Building Materials With IR-Thermography in Historical Buildings”. International Journal of Engineering and Geosciences 3/2 (June 2018), 56-60. https://doi.org/10.26833/ijeg.380752.
JAMA Avdan U, Kaplan O, Kaplan G. Determination of building materials with IR-Thermography in historical buildings. IJEG. 2018;3:56–60.
MLA Avdan, Uğur et al. “Determination of Building Materials With IR-Thermography in Historical Buildings”. International Journal of Engineering and Geosciences, vol. 3, no. 2, 2018, pp. 56-60, doi:10.26833/ijeg.380752.
Vancouver Avdan U, Kaplan O, Kaplan G. Determination of building materials with IR-Thermography in historical buildings. IJEG. 2018;3(2):56-60.