[1] E.Y.K.Ng,N.M.Sudharsan.Effect of blood flow,tumour and cold stress in a female breast:a novel time-accurate computer simulation [J].J.Eng.Medic.,2001,215(4):393-404

[2] E.Y.K.Ng,N.M.Sudharsan.An improved three-dimensional direct numerical modeling and thermal analysis of a female breast [J].J.Eng.Medic.,2001,215(1):25-37

[3] T.Z.Tan,C.Quek,G.S.Ng et al..A novel cognitive interpretation of breast cancer thermography with complementary learning fuzzy neural memory structure[J].Exp.Syst.Appl.,2007,33(3):652-666

[4] L.Hu,A.Gupta,J.P.Gore et al..Effect of forced convection on the skin thermal expression of breast cancer [J].J.Biom.Eng.,2004,126(2):204-211

[5] Sun Xiaolan,Han Benyi,Cao Wei et al..Comparison of the diagnostic value of high resolution ultrasonography VS mammography and their combination for early breast cancer [J].J.Chinese Modern Imaging,2006,3(3):207-209

[6] Tian Jiawei,Chen Yu,Liu Yujie.Diagnostic value of high frequency ultrasound combined with mammography for early breast cancer[J].Chinese J.Medical Imaging Technol.,2006,22(4):557-559

[7] Ling Hong,Gu Yajia,Wang Xiaohong et al..Value of magnetic resonance imaging in diagnosing breast lesions which need biopsy[J].Chinese J.Surgery,2006,44(15):1036-1039

[8] Z.Q.Liu,C.Wang.Method and apparatus for thermal radiation imaging [P].United States Patent,No.6023637,2000

[9] J.R.Keyserkingj,P.D.Ahlgren,E.Yu et al..Infrared imaging of breast:initial reappraisal using high resolution digital technology in 100 successive cases of stageⅠ and stage Ⅱ breast cancer[J].The Breast Journal,1998,4(4):241-251

[10] E.Y.K.Ng.A review of thermography as promising non-invasive detection modality for breast tumor[J].International J.Thermal Sciences,2009,48(5):849-859

[11] M.M.Chen,C.O.Pederson,J.C.Chato.On the feasibility of obtaining three dimensional information from thermographic measurements[J] .J.Biomech.Engng,1977,99(2):58-64

[12] M.M.Osman ,E.M.Afify.Thermal modelling of the normal woman′s breast[J].J.Biomech.Engng,1984,106(2):123-130

[13] M.M.Osman,E.M.Afify.Thermal modelling of the malignant woman′s breast[J].J.Biomech.Engng,1988,110(4):269-276

[14] N.M.Sudharsan,E.Y.K.Ng,S.L.Teh.Surface temperature distribution of a breast with and without tumor[J].Int Comput Meth Biomed Engin.,1999,2(1):187-199

[15] Y.He,M.Shirazaki,H.Liu et al..A numerical coupling model to analyze the blood flow,temperature,and oxygen transport in human breast tumor under laser irradiation [J].Computers in Biology and Medicine,2006,36(12):1336-1350

[16] J.W.Mitchell,E.Myers.An analytical model of the countercurrent heat exchange phenomena [J].Biophysics Journal,1968,8(8):897-911

[17] Lin Qingyuan,Yang Hongqin,Ye Zhen et al..Numerical study on temperature distribution of breast[J].J.Fujian Normal University (Natural Science Edition),2008,24(3):50-53

[18] I.Chatterjee,R E.Adams.Finite element thermal modeling of the human body under hyperthermia treatment for cancer [J].Internal J.Computer Appl.Technol.,1994,17(3-6):151-159

[19] M.Gautherie.Thermopathology of breast cancer:measurement and analysis of in vivo temperature and blood flow [J].Ann.New York Acad.Sci.,1980,335:383-415

[20] M.Gautherie,Y.Quenneville,C.Gros.Metabolic heat production,growth rate and prognosis of early breast carcinomas[J].Biomedicine,1975,22:328-336

[21] L.Priebe.Heat transport and specific blood flow in homogeneously and isotropically perfused tissue [J].In Physiological and Behavioural Temperature Regulation,1970:272-280

[22] Yang Hongqin,Lin Qingyuan,Ye Zhen et al..Finite element analysis for temperature distribution of normal breast [J].Acta Laser Biology Singica,2007,16(4):424-427

[23] Yang Hongqin,Lin Qingyuan,Ye Zhen Ye et al..Finite element thermal analysis of breast with tumor and its comparison with thermography[C].SPIE ,2007,6826:68260T-1