Comparison of Rectal and Infrared Thermometry for Obtaining Body Temperature of Gnotobiotic Piglets in Conventional Portable Germ Free Facility
Tae-ho Chung, Woo-sung Jung, Eui-hwa Nam, Ji-hyun Kim, Seol-hee Park, Cheol-Yong Hwang
Asian-Australas J Anim Sci. 2010;23(10):1364-1368.   Published online 2010 Aug 20     DOI: https://doi.org/10.5713/ajas.2010.90507
Citations to this article as recorded by Crossref logo
Non-Contact Evaluation of Pigs’ Body Temperature Incorporating Environmental Factors
Guifeng Jia, Wei Li, Junyu Meng, Hequn Tan, Yaoze Feng
Sensors.2020; 20(15): 4282.     CrossRef
Application of infrared thermography to assess the effect of different types of environmental enrichment on the ocular, auricular pavilion and nose area temperatures of weaned piglets
Ariadna Yáñez-Pizaña, Daniel Mota-Rojas, Ramíro Ramírez-Necoechea, Manuel Castillo-Rivera, Patricia Roldán-Santiago, Patricia Mora-Medina, Miguel González-Lozano
Computers and Electronics in Agriculture.2019; 156: 33.     CrossRef
Study on body temperature detection of pig based on infrared technology: A review
Zaiqin Zhang, Hang Zhang, Tonghai Liu
Artificial Intelligence in Agriculture.2019; 1: 14.     CrossRef
Establishment of validated models for non-invasive prediction of rectal temperature of sows using infrared thermography and chemometrics
Yao-Ze Feng, Hai-Tao Zhao, Gui-Feng Jia, Chijioke Ojukwu, He-Qun Tan
International Journal of Biometeorology.2019; 63(10): 1405.     CrossRef
An automatic ear base temperature extraction method for top view piglet thermal image
Mingzhou Lu, Ju He, Chao Chen, Cedric Okinda, Mingxia Shen, Longshen Liu, Wen Yao, Tomas Norton, Daniel Berckmans
Computers and Electronics in Agriculture.2018; 155: 339.     CrossRef
Prediction of rectal temperature using non-invasive physiologic variable measurements in hair pregnant ewes subjected to natural conditions of heat stress
Ricardo Vicente-Pérez, Leonel Avendaño-Reyes, Ángel Mejía-Vázquez, F. Daniel Álvarez-Valenzuela, Abelardo Correa-Calderón, Miguel Mellado, Cesar A. Meza-Herrera, Juan E. Guerra-Liera, P.H. Robinson, Ulises Macías-Cruz
Journal of Thermal Biology.2016; 55: 1.     CrossRef
Body Surface Temperature of Suckling Piglets Measured by Infrared Thermography and Its Association with Body Weight Change
Yosuke SASAKI, Kotaro FURUSHO, Ruri USHIJIMA, Tadaaki TOKUNAGA, Ryoko UEMURA, Masuo SUEYOSHI
Japan Agricultural Research Quarterly: JARQ.2016; 50(4): 361.     CrossRef
Infrared skin temperature measurements for monitoring health in pigs: a review
Dennis Dam Soerensen, Lene Juul Pedersen
Acta Veterinaria Scandinavica.2015;[Epub]     CrossRef
Establishing Sprinkling Requirements on Trailers Transporting Market Weight Pigs in Warm and Hot Weather
Rebecca Kephart, Anna Johnson, Avi Sapkota, Kenneth Stalder, John McGlone
Animals.2014; 4(2): 164.     CrossRef
Establishing Bedding Requirements during Transport and Monitoring Skin Temperature during Cold and Mild Seasons after Transport for Finishing Pigs
John McGlone, Anna Johnson, Avi Sapkota, Rebecca Kephart
Animals.2014; 4(2): 241.     CrossRef
Establishing Bedding Requirements on Trailers Transporting Market Weight Pigs in Warm Weather
Rebecca Kephart, Anna Johnson, Avi Sapkota, Kenneth Stalder, John McGlone
Animals.2014; 4(3): 476.     CrossRef
Determining the emissivity of pig skin for accurate infrared thermography
Dennis D. Soerensen, Sønnik Clausen, James B. Mercer, Lene J. Pedersen
Computers and Electronics in Agriculture.2014; 109: 52.     CrossRef
Infrared thermography – a non-invasive tool to evaluate thermal status of neonatal pigs based on surface temperature
T. S. Kammersgaard, J. Malmkvist, L. J. Pedersen
animal.2013; 7(12): 2026.     CrossRef