In most cases, heart rate is an important indicator of the physiology condition. By measuring this parameter, we can understand the activity of the target. In the past study, people developed a video-based heart rate measurement method. The theory of this method is that when heart is active, blood vessels will expand and contract, resulting in skin color varies slightly with blood circulation. This variation, while invisible to the naked eye, can be exploited to extract pulse rate. This heart rate measurement method without using needle electrode will allow the patients to feel comfortable in the process. In order to test the possibility of this measurement method for higher heart rate frequency and tracking changes in heart rate, this study will be applied to the rats and human target. In the study, we measured the heart rate in the steady state of the human as well as the rats in the anesthesia. In the experiment of tracking the change of heart rate, we let the human subjects rest after the indoor exercising, so that the heart rate would rise and then fall during the procedure. In the mouse experiment, we used the two drugs (methylatropine vagal blocker and propranolol beta blocker) that affected the heart rate were tested separately. In the method of estimating the heart rate, different color signals were applied moving average and bandpass to filter out the noise. Then we estimate the heart rate of the processed signal. At last, we compared the actual electrocardiogram and estimation result and calculated the error and attempted to find the source. The experimental results performed better in steady state experiments. The average error of human steady heart rate detection is less than 2%. It means that when heart rate is 60bpm, only one or two peaks might be over or under estimated. The average error of rat steady heart rate detection is about 3.5%. After adjusting the moving average and peak detection method, we were able to decrease the error to 2.37%. In the heart rate change experiment, we have a more accurate result of short time (5 seconds to 10 seconds) heart rate. However, it is unlikely to estimate the each heartbeat ta exact time. Finally, this study provides a simpler and more convenient way to track heart rate changes in human or rats than ECG. In addition, this method will able to be applied in wearable device or rat experiment.