Q. Zhu, The significance of the research on the automatic monitoring technology of temperature and humidity of cotton pile (in Chinese), J. China Cotton Processing, vol.02, pp.23-25, 2010.

M. Zhang and Y. Shi, To carry out the temperature and humidity detection of cotton pile to solve the problem of stacking (in Chinese), J. China Cotton Processing, vol.02, pp.22-23, 2011.

T. Cong, Z. Can, R. Zhang, H. An, Z. Ying et al., MoIIitoring and Mmanagement System of Temperature and Humidity for Cotton piles (in Chinese), J. Journal of Agricultural Mechanization Research, vol.01, pp.193-196, 2013.

P. Wakelyn, N. Bertoniere, and A. French, Cotton fiber chemistry and technology. M, 2006.

B. Hagen, V. Frette, and G. Kleppe, Effects of heat flux scenarios on smoldering in cotton, J. Fire Safety Journal, vol.61, pp.144-159, 2013.

B. Hagen, V. Frette, and G. Kleppe, Onset of smoldering in cotton: Effects of density, J. Fire Safety Journal, vol.46, issue.3, pp.73-80, 2011.

L. Chang, M. Die, and P. Rongkun, The Effect of Sample Size on Smoldering and the Transition to Flaming Combustion. C. //2011 Third International Conference on Measuring Technology and Mechatronics Automation, vol.3, pp.793-797, 2011.

J. Wang, Y. Zeng, W. Yuan, R. Tu, F. Yifei et al., Yongming Zhang: Early smoldering characteristics of cotton block and correlative compound aspirating smoke detection (in Chinese), J. Journal of Safety and Environment, vol.02, pp.205-208, 2012.

R. Zhang, T. Cong, and Z. Kan, Design of Wireless Monitoring System for Temperature and Humidity of Cotton (in Chinese), J. China Cotton Processing, issue.3, pp.17-19, 2011.

X. Wen, Research and design of distributed carbon monoxide (CO) concentration online detection system. C.//Intelligent Information Technology Application, IEEE, vol.2, pp.829-833, 2008.

N. Ahriman, A. Yulianto, and M. Kusriyanto, Wireless sensor network application for carbon monoxide monitoring, /2015 9th International Conference on Telecommunication Systems Services and Applications (TSSA). IEEE. 1-4, 2015.

E. Xia, S. Liu, and X. Chen, Yanan Hou: A comparative study on the characteristic of cotton smoldering and flaming combustion (in Chinese), J. Fire Safety Science, vol.02, pp.70-76, 2013.

Y. Hu and Z. Wang, Experimental study on the smoldering characteristics of lint cotton and unginned cotton (in Chinese), J. Fire Safety Science, issue.1, pp.47-51, 2015.

. Zhao-yue, . Piao-renguan, . Wang-he, and . Xu-zhijun, Multi-channel Gas Detection System Design Based on LabVIEW (in Chinese), J. Instrument Technique and Sensor, issue.4, pp.37-40, 2013.

, Xiaoping Ding: Design and Research of CO Detection and Alarm System Based on Wireless Network (in Chinese), J. Computer Knowledge and Technology, issue.13, pp.3132-3134, 2014.

. Wang-xiaozeng, Y. Hui, and . Jiuhong, Temperature Self-compensation Realization and Hardware Circuit Design of CO Detection, J. Instrument Technique And Sensor, issue.11, pp.69-71, 2007.

W. Wang, Y. Peng, and Y. Peng, Temperature and Humidity Detection System Based on ZigBee Protocol, J. Metallurgical & Mining Industry, issue.3, 2015.

N. Barroca, L. Borges, and F. Velez, Wireless sensor networks for temperature and humidity monitoring within concrete structures, J. Construction and Building, vol.40, pp.1156-1166, 2013.

C. Yi and F. M. Bai, ZigBee-based CC2530 Granary Temperature and Humidity Monitoring System, J. Journal of Changchun University of Science and Technology (Natural Science Edition), vol.4, p.16, 2011.

H. Cai, Y. Wang, and K. Wang, Design of Industrial Wireless Temperature and Humidity Detection Terminal Based on Modular ZigBee (in Chinese), J. Instrument Technique and Sensor, vol.94, issue.5, pp.38-39, 2013.