The auditory steady state response (ASSR) may reflect activity from different regions of the brain, depending on the modulation frequency used. In general, responses induced by low rates (_〈40 Hz) emanate mostly ...The auditory steady state response (ASSR) may reflect activity from different regions of the brain, depending on the modulation frequency used. In general, responses induced by low rates (_〈40 Hz) emanate mostly from central structures of the brain, and responses from high rates (〉80 Hz) emanate mostly from the peripheral auditory nerve or brainstem structures. Besides, it was reported that the gamma band ASSR (30-90 Hz) played an important role in working memory, speech understanding and recognition. This paper investigated the 40 Hz ASSR evoked by modulated speech and reversed speech. The speech was Chinese phrase voice, and the noise-like reversed speech was obtained by temporally reversing the speech. Both auditory stimuli were modulated with a frequency of 40 Hz. Ten healthy subjects and 5 patients with hallucination symptom participated in the experiment. Results showed re- duction in left auditory cortex response when healthy subjects listened to the reversed speech compared with the speech. In contrast, when the patients who experienced auditory hallucinations listened to the reversed speech, the auditory cortex of left hemispheric responded more actively. The ASSR results were consistent with the behavior results of patients. Therefore, the gamma band ASSR is expected to be helpful for rapid and objective diagnosis of hallucination in clinic.展开更多
Transcranial electrical stimulation(tES)is a non-invasive nerve stimulation technique that modulates changes in neural activities in cerebral cortex through a weak current of specific intensity(and frequency).It has b...Transcranial electrical stimulation(tES)is a non-invasive nerve stimulation technique that modulates changes in neural activities in cerebral cortex through a weak current of specific intensity(and frequency).It has become a valuable tool for the study of human behavior and cognitive neurophysiological processes.As a brain stimulation technology with broad development prospects,it is not mature enough in the field of human auditory research.However,the research on tES has obtained preliminary results in regulating motor ability.This article mainly introduces the effects of tES and auditory steady state response on auditory,and the applications of tES in auditory diseases.By summarizing and discussing tES during auditory processing as comprehensively as possible,the potential application value of tES in the treatment of auditory diseases could be illustrated.展开更多
In orthopaedic surgeries, permanent magnet DC motors are used to drill the bone and fix the screws. The Motor drive employs an inner current and outer speed control loop with a conventional or modern controller. To en...In orthopaedic surgeries, permanent magnet DC motors are used to drill the bone and fix the screws. The Motor drive employs an inner current and outer speed control loop with a conventional or modern controller. To enhance the performance of the drive, this paper proposes a Brain Emotional Logic Based Intelligent Controller based chopper drive. The proposed drive scheme has been simulated using Matlab/Simulink and physically realized for validation. A comparative analysis has been made between the conventional PI controller based drive and the proposed system in order to prove that the proposed scheme has an edge over the traditional PI controller scheme counterpart.展开更多
基金supported by the National Natural Science Foundation of China(No.90820304,61105123,and 31100714)National Basic Research Program of China(No.2011CB933204)
文摘The auditory steady state response (ASSR) may reflect activity from different regions of the brain, depending on the modulation frequency used. In general, responses induced by low rates (_〈40 Hz) emanate mostly from central structures of the brain, and responses from high rates (〉80 Hz) emanate mostly from the peripheral auditory nerve or brainstem structures. Besides, it was reported that the gamma band ASSR (30-90 Hz) played an important role in working memory, speech understanding and recognition. This paper investigated the 40 Hz ASSR evoked by modulated speech and reversed speech. The speech was Chinese phrase voice, and the noise-like reversed speech was obtained by temporally reversing the speech. Both auditory stimuli were modulated with a frequency of 40 Hz. Ten healthy subjects and 5 patients with hallucination symptom participated in the experiment. Results showed re- duction in left auditory cortex response when healthy subjects listened to the reversed speech compared with the speech. In contrast, when the patients who experienced auditory hallucinations listened to the reversed speech, the auditory cortex of left hemispheric responded more actively. The ASSR results were consistent with the behavior results of patients. Therefore, the gamma band ASSR is expected to be helpful for rapid and objective diagnosis of hallucination in clinic.
文摘Transcranial electrical stimulation(tES)is a non-invasive nerve stimulation technique that modulates changes in neural activities in cerebral cortex through a weak current of specific intensity(and frequency).It has become a valuable tool for the study of human behavior and cognitive neurophysiological processes.As a brain stimulation technology with broad development prospects,it is not mature enough in the field of human auditory research.However,the research on tES has obtained preliminary results in regulating motor ability.This article mainly introduces the effects of tES and auditory steady state response on auditory,and the applications of tES in auditory diseases.By summarizing and discussing tES during auditory processing as comprehensively as possible,the potential application value of tES in the treatment of auditory diseases could be illustrated.
文摘In orthopaedic surgeries, permanent magnet DC motors are used to drill the bone and fix the screws. The Motor drive employs an inner current and outer speed control loop with a conventional or modern controller. To enhance the performance of the drive, this paper proposes a Brain Emotional Logic Based Intelligent Controller based chopper drive. The proposed drive scheme has been simulated using Matlab/Simulink and physically realized for validation. A comparative analysis has been made between the conventional PI controller based drive and the proposed system in order to prove that the proposed scheme has an edge over the traditional PI controller scheme counterpart.