14 research outputs found
Brain-computer interface
A brain–computer interface (BCI), sometimes called a direct neural interface or a brain–machine interface (BMI), is a direct communication pathway between the brain and an external device. BCIs are often aimed at assisting, augmenting or repairing human cognitive or sensory-motor functions.
The field of BCI has advanced mostly toward neuroprosthetics applications that aim at restoring damaged hearing, sight and movement. Thanks to the remarkable cortical plasticity of the brain, signals from implanted prostheses can, after adaptation, be handled by the brain like natural sensor or effector channels. Following years of animal experimentation, the first neuroprosthetic devices implanted in humans appeared in the mid-nineties.
When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/2253
Affective intelligent driving agent (AIDA)
It’s impossible to imagine modern world without using motor cars. AIDA aims to change the way we interact with our car. MIT(Massachusetts Institute of Technology) researchers and designers are developing the Affective Intelligent Driving Agent (AIDA) - a new in-car personal robot that brings a revolution to life of all motor-cars’ users.
When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/3108
Peculiarity of the Geoid determination at the Antarctic Region
The gravitation effect of topographic masses is very important for the gravity anomaly calculations and geoid heights determination. The new approach for the computation of the topographicisostatic corrections and indirect effect of topography in spherical approximation is developed and tested in Antarctic region.При изучении гравитационного поля Земли в тех случаях, когда вычисляются как гравитационные аномалии, так и высоты геоида, следует учитывать гравитационный эффект топографических масс. Разработана методика вычисления топографо-изостатических поправок и поправок на рельеф в сферической аппроксимации с переменной плотностью.При вивченні гравітаційного поля Землі у випадку обчислення як гравітаційних аномалій, так і висот геоїда повинен бути врахований гравітаційний ефект топографічних мас. Розроблено методику обчислення топографо-ізостатичних поправок та поправок на рельєф у сферичній апроксимації з перемінною густиною