Respiratory distress syndrome is one of the main cause of death for premature baby. Its symptoms include difficulty breathing, purple skin, expiratory moan and uncoordinated breathing. It’s mortality rate is highest in the first 48 hours. However, the symptoms are not shown immediately after birth. Some auxiliary examination is required for early detection of RDS. The auxiliary examination includes amniotic fluid examination, bubble test, PG examination, blood examination and chest x-ray(CXR) examination etc. All auxiliary examinations exclude CXR examination have specific numbers for classification, as the number of bubbles in bubble test, the molecule density in PG, amniotic and blood examination. CXR is a qualify but not quantify examination. The four grades classification standard used by NTUH are as follow: 1. If frosted glass pattern appear 2. If vessels are congested. 3. if the boundary between heart and lung, diaphragm and lung disappears. This research tries to numerically describe the RDS level of CXR, hoping to find a quantitative method for CXR classification. Medical image processing is not an easy work, especially for the case involving irregularity disease area. For RDS new born, there will be white out and boundary blurring effect on CXR. It makes most of the methods used for segmentation for adult CXR invalid. New approach must be developed. We use filter that are sensitive to ribs and use edge following technique to find the approximate region of thoracic cage. And by use of the property that spine nodes will be connected to ribs, to segment out the spine region by threshold. By mixing all approaches above, the lung area can be roughly segment out. After calculating the average and variation of selected regions, we see a correspondence (87% correctness) between the numerically grading and the qualitative grading which decided by doctors. It is concluded that it is possible to quantify RDS CXR by image processing.