摘要
In order to obtain comprehensive brain activity information conveniently in real time, this study designs a portable EEG and blood oxygen synchronous acquisition system for real-time monitoring of brain functional activities. The EEG electrodes filter and amplify the detected EEG signals, and send them to the microprocessor via Bluetooth to analyze the EEG data; the photoelectric probe converts the optical signals into electrical signals, which are amplified and separated, filtered, and AD converted, calculates the brain's oxygenation and blood-red protein (ΔHbO
Subject(s)
Brain , Electrodes , Electroencephalography , Oxygen摘要
Objective To design and implement a synchronous imaging control system for two modes of cone beam X-ray luminescence CT (CB-XLCT) and CT to provide a software control platform for small animal in vivo imaging.Methods The software control platform was developed with the existing CB-XLCT/CT system,Microsoft Visual Studio 2010 platform,multi thread programming technology and dynamic link library so as to realize synchronous acquisition of two-mode data.The performances of the system imaging were evaluated by designing phantom experiments combined with sparse-view CT reconstruction algorithm.Results The phantom experiments results showed that synchronous imaging control had the acquisition time decreased by 79% when compared with non-synchronous imaging,and the requirements were met for imaging quality.Conchusion Synchronous imaging control of CB-XLCT/CT facilitates in vivo researches for small animals.
摘要
Objective To design and implement a synchronous imaging control system for two modes of cone beam X-ray luminescence CT (CB-XLCT) and CT to provide a software control platform for small animal in vivo imaging.Methods The software control platform was developed with the existing CB-XLCT/CT system,Microsoft Visual Studio 2010 platform,multi thread programming technology and dynamic link library so as to realize synchronous acquisition of two-mode data.The performances of the system imaging were evaluated by designing phantom experiments combined with sparse-view CT reconstruction algorithm.Results The phantom experiments results showed that synchronous imaging control had the acquisition time decreased by 79% when compared with non-synchronous imaging,and the requirements were met for imaging quality.Conchusion Synchronous imaging control of CB-XLCT/CT facilitates in vivo researches for small animals.