装备环境工程
裝備環境工程
장비배경공정
EQUIPMENT ENVIRONMENTAL ENGINEERING
2013年
6期
78-80,96
,共4页
陈丹明%赵乃亮%郑兴明%刘佳
陳丹明%趙迺亮%鄭興明%劉佳
진단명%조내량%정흥명%류가
IPP%图像分析%面积测量%霉菌试验
IPP%圖像分析%麵積測量%黴菌試驗
IPP%도상분석%면적측량%매균시험
IPP%image analysis%area measurement%fungus test
介绍了应用IPP图像分析软件对数码相机采集的霉菌试验样品长霉面积的定量分析方法,包括测量单位标定、AOI的参数选取和使用、面积测量和计数等。结果表明,利用IPP可便捷、准确地测量长霉面积,测量结果可靠。该方法有助于对长霉等级和霉菌试验结果做出正确评定。
介紹瞭應用IPP圖像分析軟件對數碼相機採集的黴菌試驗樣品長黴麵積的定量分析方法,包括測量單位標定、AOI的參數選取和使用、麵積測量和計數等。結果錶明,利用IPP可便捷、準確地測量長黴麵積,測量結果可靠。該方法有助于對長黴等級和黴菌試驗結果做齣正確評定。
개소료응용IPP도상분석연건대수마상궤채집적매균시험양품장매면적적정량분석방법,포괄측량단위표정、AOI적삼수선취화사용、면적측량화계수등。결과표명,이용IPP가편첩、준학지측량장매면적,측량결과가고。해방법유조우대장매등급화매균시험결과주출정학평정。
Determination method of fungus growth area from digital images of fungus test by IPP image analysis was introduced, including scale calibration, parameter selection, use of AOI, and measuring and counting, etc. The results showed that IPP measurement technique can measure fungus growth area quickly and accurately. The method is a very effective area measuring method. Application of the method is helpful for correct evaluation of fungus-growth grade and test result.