Electrocorticography monitoring in microsurgical treatment of intracranial cavernous hemangiomas;

Phase-space reconstruction of ECoG time sequences and extraction of nonlinear characteristic quantities;

In order to classify electrocorticogram(ECoG) signals of different mental tasks in a brain-computer interface(BCI) system,a method based on the combination of genetic algorithm (GA) and multilayer perceptron neural network(MLPNN) was presented.

Brain is a very complex non-linear system, and electroencephalograph (EEG) and electrocorticogram (ECoG) are also non-stationary and nonlinear in nature, signal processing methods based on linear and stationary assumptions, although has obtained important result, can not grasp the entire picture of neuroscience.

This paper introduces the design and features of a intellectual monitering system using for the gas flowrate control of the thermal network in Hangzhou station of Shanghai railway division.

Objectives:To explore the clinical applied value of electrocorticogramy(ECoG) in the operation of patients with brain tumour and secondary epilepsy.

Objective: To explore the action of VEEG and ECoG in surgical treatment of refractoryepilepsy.

Methods In 4 years,165 patients who are secondary epilepsies have been performed by the method that original lesions were resected and peripheral cortices were fulgurated by bipolar according to ECoG.

Objective To evaluate the accuracy of localization of intractable epileptiogenic lesion and the effect of resection under cortical electroencephalogram(ECoG) together with multiple subpial transection(MST).