九州体育

师资(zi)队伍

张永明

 


个人履历:

九州体育核电子学专业学士、硕士、博士
九州体育近代物理系教师(1983-2000)
意大利国家核物理研究院(INFN)访问学者(1993-1995)
九州体育近代物理系教授(2001-2004)
九州体育教授(2004-)


研究方向:

火灾探测原(yuan)理及技术

特殊(shu)环(huan)境火灾探(tan)测(ce)

物理(li)信(xin)息检测及处理(li)技术

核探(tan)测及分(fen)析技术应用(yong)

  

主讲课程:

火灾信(xin)号(hao)检测与(yu)处理

(课程编号: SE1521501;学时: 60;学分: 3)

  

个人(ren)获奖:

中科(ke)院朱李(li)月华优秀(xiu)教(jiao)师(shi)奖(2012)

安徽(hui)省(sheng)科学技术奖二等奖(2011)

惠普信息科(ke)学优秀青(qing)年教(jiao)师奖(1998)

安徽(hui)省科技进步三等奖(1997)

国(guo)家“八(ba)五”科技成果奖(1996)

中(zhong)国科大(da)教学成果(guo)二等奖(jiang)(1996)

第一(yi)届张宗植青年教师奖(jiang)(1990)

中国(guo)科技大学(xue)科技进步(bu)一等奖(1987)

  

学位/职(zhi)称

工学博(bo)士

九州体育研究员

博士生(sheng)导师

  

办(ban)公室(shi)电话

(+86)551 63606457

E-mail: zhangym@fun-genius.com



科研(yan)项目:

民航机舱特(te)殊(shu)环(huan)境火灾图像特(te)征规律及视频探测方(fang)法(fa)研究(jiu),

国家基金委联合项目,主持,执行期: 2013.1-2015.12;
水喷淋对高层建筑外立面火蔓延抑制研究:

973项目子课题,主持,执行期: 2012.1-2016.12;
***灭火技术研究,总装预先研究项目,
主持,2009. 01-2011.12;
****火灾防治共性关键技术,国防科工委应用基础项目子课题,

主持,执行期: 2008.01- 2009.12;
火灾烟颗粒群光散射模型与光电感烟探测机理研究,国家基金委面上项目,

主持,执行期: 2008.1-2010.12;
安徽古建筑火灾安全防护关键技术研究,安徽省科技攻关项目,

主持,执行期: 2008.01-2009.12;
以布达拉宫为代表的高原古建筑火灾安全技术研究,

科技部“十一五”科技支(zhi)撑计划项目子课题,

主持,执行期: 2006.01-2008.12;
高时间分辨的MRPC 性能研究,国家基金委面上项目,

研究骨干,2004.01-2006.12 ;
北京正负电子对撞机(BEPC)试验束描迹仪数据获取系统研制,

国家大科学工程项目子课题,主持之一,2002-2004;
砷化镓位置灵敏探测器性能研究,中科院留学回国基金项目,主持,1996-1998;
CHOOZ 中微子探测器研制,欧洲合作项目,研究骨干,1993-1995;
KD-系列微机核子计量系统研制, 国家科技成果重点推广计划项目,主持,执行期: 1991-1993;
KD-1B型超声诊断仪研制,安徽省科技攻关项目,研究骨干,执行期: 1983-1985

 

 

代表性论(lun)著:  

Journals

[1] Influence of low air pressure on combustion characteristics and flame pulsation frequency of pool fires, Fuel 90: 2760–2766(2011)

[2] Fire detection model in Tibet on grey-fuzzy neural network algorithm. Expert Systems With Applications, 38 pp. 9580-9586. (2011)

[3] 高原低(di)压环(huan)境小尺寸乙醇池火辐射特(te)性变化研究(jiu). 燃烧科学(xue)与(yu)技术 17 (1) 2011.

[4] 火灾烟颗粒分形(xing)模(mo)型和球形(xing)模(mo)型光散(san)射的(de)比较研究,物理学报,59 (10) 2010: 7442-7446.

[5] Video fire smoke detection using motion and color features. Fire technology, 2010 (46): 651-663.

[6] 基于类(lei)间方差(cha)的MODIS森林火灾(zai)火点检(jian)测(ce)方法,光谱学与光谱分析,2010, 30(8): 2065-2068.

[7] 利(li)用压(ya)力相似预测(ce)高原低压(ya)环境小尺寸池(chi)火(huo)燃烧速率的变化特(te)性, 燃烧科学与技术, 2010,16 (5): 467-471.

[8] 烟颗粒(li)光散射Muller矩阵(zhen)测量与(yu)(yu)尺寸(cun)、形状(zhuang)参数的研究. 燃烧(shao)科学(xue)与(yu)(yu)技术 15(2) 2009: P172-176.

[9] 基于调谐二极管激光(guang)(guang)吸收(shou)光(guang)(guang)谱(pu)的(de)燃气(qi)管道泄漏(lou)探测研究. 光(guang)(guang)谱(pu)学与光(guang)(guang)谱(pu)分(fen)析.. 29(8). 2009

[10] 基于累积量和主运动方向的(de)视频烟(yan)雾检(jian)测(ce)方法. 中国图(tu)象图(tu)形学报, 13 (4) Apr 2008: 808-813

[11] The influence of low atmospheric pressure on carbon monoxide of n-heptane pool fires, Journal of Hazardous Materials 154: 476–483( 2008)

[12] Experimental and Numerical Study of Smoke Plumes in Stable Thermally Stratified Environments Journal of fire sciences 24 (3): 177-193(2006)

[13] 一种无线传(chuan)(chuan)感器网络火灾(zai)监(jian)测系(xi)统(tong)的(de)设(she)计与实现,传(chuan)(chuan)感器与微系(xi)统(tong), 27 (10) 2008: P101-103

[14] Experimental Studies on Time-dependent Size Distributions of Smoke Particles of Standard Test Fires. Building and Environment 42(2): 640~646(2007)

[15] Characteristics of light scattering by smoke particles based on spheroid models Journal of Quantitative Spectroscopy & Radiative Transfer (9) 107(1) 72~82(2007)

[16] Early fire smoke movements and detection in high large volume spaces, Building and Environment 41 (11): 1482-1493. (2006)

[17] The photomultiplier test facility for the reactor neutrino oscillation experiment Chooz and the measurement of 250 8” EMI 9356 KA B53 photomultipliers  Nucl. Instru. Meth. in Phys. Research A 372 P207-211(1996)

 

Symposium Proceedings

[1] Burn Scar Identification Based on Recognition of Fire Spots . 2010 Second IITA Conference on Geoscience and Remote Sensing (IITA- GRS 2010).

[2] A New Smoke Concentration Measurement System: Low-Cost, High-Accuracy, and Easy-Implementation. The International Conference on Electrical and Control Engineering (ICECE’10), 2010.

[3] Characterization of Smoke Particles Using Polarization Modulated Scattering. International Conference on Optoelectronics and Image Processing. 2010, 1: 325-327.

[4] Design a low power wireless fire detector based on CC430. 2010 International Conference on Intelligent Computation Technology and Automation (ICICTA 2010), 2010, 1: 328-331.

[5] Nighttime video smoke detection based on active infrared video image. International Conference on Electrical and Control Engineering (2010’ ICECE), 2010, 1: 1359-1362

[6] Characteristics of light scattering by fire smoke particles based on fractal aggregate shape model. 14th International Conference on Automatic Fire Detection, AUBE’09.

[7] Based on wavelet transformation fire smoke detection method.,IEEE The 9th International Conference on Electronic Measurement & Instruments (ICEMI’2009)

[8] Texture analysis of smoke for real-time fire detection. IEEE Second International Workshop on Computer Science and Engineering, 2009, 2: 511-515.

 

Reports

A polarization-modulated multichannel Mueller-matrix scatterometer for smoke particle characterization. Proc SPIE, 2009’ International conference on Optical Instrumentation and Technology, Shanghai, China.

九州体育