This paper aims to utilize the intersecting cortical model (ICM), which imitates the biological neural cells sync pulse, to preliminary research about the contour integration mechanism and the selection of attention. The idea of "Excitement-Inhibition" oscillation is introduced into the ICM, and meanwhile, the target contour chain code is used as the high-level feedback to control the input. Thus, we propose the Excitation-Inhibition-ICM which contains both the BUTTON-UP and the TOP-DOWN mechanism. The experimental results showed that the proposed model could effectively suppress noise to make the smooth edge synchronization issue, thus completing the process of BOTTOM-UP. The introduction of the target contour chain code can obtain consistent target outline with the input target chain code, but other targets cannot form a closed contour since they do not match with the input target chain code, so as to realize the TOP-DOWN mechanism. The results proved that our proposed model could imitate the contour integration mechanism and the selection of attention of the visual cortex V1.
Based on the capacitance coupling principle, we studied a capacitive way of non-contact electrocardiogram (ECG) monitoring, making it possible to obtain ECG on the condition that a patient is habilimented. Conductive fabric with a good electrical conductivity was used as electrodes. The electrodes fixed on a bed sheet is presented in this paper. A capacitance comes into being as long as the body gets close to the surface of electrode, sandwiching the cotton cushion, which acts as dielectric. The surface potential generated by heart is coupled to electrodes through the capacitance. After being processed, the signal is suitable for monitoring. The test results show that 93.5% of R wave could be detected for 9 volunteers and ECG with good signal quality could be acquired for 2 burnt patients. Non-contact ECG is harmless to skin, and it has advantages for those patients to whom stickup electrodes are not suitable. On the other hand, it is convenient to use and good for permanent monitoring.
From December 2022 to January 2023, 4 lung transplant recipients were hospitalized in the Department of Thoracic Surgery of the First Affiliated Hospital of Xi'an Jiaotong University due to COVID-19 infection after surgery, of whom 3 were cured and 1 died. The clinical manifestations were mostly characterized by elevated body temperature accompanied by shortness of breath, and indicators such as heart rate, oxygen saturation, and oxygenation index can reflect the severity of the condition. Antiviral therapy requires timely adjustments to immunosuppressive drugs, upgraded oxygen therapy, anti-bacterial and anti-fungal therapy, prone ventilation, general treatment, and anticoagulant therapy, depending on the situation. We should pay attention to monitoring during the course of the disease, and follow up closely after discharge.