about
Stress affects theta activity in limbic networks and impairs novelty-induced exploration and familiarization.ECG Data-Acquisition and classification system by using wavelet-domain Hidden Markov Models.Design and manufacturing challenges of optogenetic neural interfaces: a review.Narrow-band pass filter array for integrated opto-electronic spectroscopy detectors to assess esophageal tissue.Remote patient monitoring based on ZigBee: lessons from a real-world deployment.MCM-based microlaboratory for simultaneous measurement of several biochemical parameters by spectrophotometry.Wireless instrumentation system based on dry electrodes for acquiring EEG signals.Automatic detection of small bowel tumors in capsule endoscopy based on color curvelet covariance statistical texture descriptors.Automatic continuous ECG monitoring system for over-drug detection in Brugada Syndrome.Linear variable optical filter-based ultraviolet microspectrometer.myBrain: a novel EEG embedded system for epilepsy monitoring.Hydrogel-based photonic sensor for a biopotential wearable recording system.Visual gate for brain-computer interfaces.Automatic brain tissue segmentation in MR images using Random Forests and Conditional Random Fields.A lab-on-a-chip for spectrophotometric analysis of biological fluids.Breast skin-line detection using dynamic programming.Improving alternate flow mixing by obstacles located along a micro-channel.Comparison of EEG pattern classification methods for brain-computer interfaces.LED Optrode with Integrated Temperature Sensing for OptogeneticsFluorescence and diffuse reflectance spectroscopy for early cancer detection using a new strategy towards the development of a miniaturized systemPDMS Microlenses for Focusing Light in Narrow Band Imaging DiagnosticsFlexible PDMS -based dry electrodes for electro-optic acquisition of ECG signals in wearable devicesFBG in PVC foils for monitoring the knee joint movement during the rehabilitation process
P50
Q30551093-A9B48B6B-DA68-4138-A7F2-E4C553399022Q33753117-84085382-D3C0-4BEE-8D3E-C4B969E2C14EQ39269204-70C20501-01FD-4953-BAEE-5511C24EAD6FQ39736538-3319E487-9853-470F-B112-9E0D75EDFF63Q41849441-DAE9576B-9572-4793-AA1D-36F032BA8B94Q43087813-D8160760-86BA-4AF3-BBC9-DB1ACA8A0E4FQ44262162-816E455F-A1C5-4A0C-B853-116189192A89Q44593679-EC1E0443-05C4-4E03-89D1-7AF76F50F984Q45390510-012BB98D-77B6-4CD9-A94C-762A86FFF827Q47409119-97F1DB8B-C6DC-414F-883F-95E04289A48FQ47584868-7D39BB9A-A649-43D4-9D81-FA2B705E4423Q48129348-09B0C7C4-C84C-4B14-ACBC-20DC1D4DB13CQ48388204-CC5D6CD2-AA0B-460A-8D4E-B63CA34658C4Q48663432-A0A56682-C054-4406-866C-FE176669620BQ51334640-F3BCCFF5-1180-4828-87F1-9AB5DAFB9A87Q51443678-14EA0EFD-1543-486E-8BAE-764B1D26D9BDQ51562012-42702CBC-AAEA-4462-9216-299C8B06EAB3Q51897341-8F9D2161-B13D-4BBD-A327-44615415D2A4Q58728812-A5A537A7-CB51-4C2A-BCDC-E99DAEF4A865Q60442612-22096D11-A734-4932-A379-385C5EE29869Q64084824-F35A748E-EB40-4581-B92C-31359752176CQ82550477-4200CC32-98CA-4BA5-8862-F3709FE5245AQ83268384-E38C52E4-935D-4B3B-8FB9-A49E60CE83C6
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jose H. Correia
@ast
Jose H. Correia
@en
Jose H. Correia
@es
Jose H. Correia
@nl
Jose H. Correia
@sl
type
label
Jose H. Correia
@ast
Jose H. Correia
@en
Jose H. Correia
@es
Jose H. Correia
@nl
Jose H. Correia
@sl
prefLabel
Jose H. Correia
@ast
Jose H. Correia
@en
Jose H. Correia
@es
Jose H. Correia
@nl
Jose H. Correia
@sl
P1053
J-8227-2013
P106
P1153
35232771500
P21
P2456
c/JoseHiginoCorreia
P31
P3829
P496
0000-0001-5991-1069