When: March 17th, 2022 – 3:00 pm

Where: Sala Seminari at VIMM, Via Orus 2b, Padova, Zoom meeting (Recording available on Mediaspace)

Abstract: Robotic devices have seen an increasing uptake in neurorehabilitation, due to the higher intensity and larger therapeutic exercise doses they can provide. More recently, robots have also entered the market as assistive wearable devices – i.e. to enhance or integrate human body performance.

However, the human and the robot are usually considered as two separate entities interacting via a fixed and immutable interface and the robot is seen as a mere actuator of pre-designed motions.

When: March 10th, 2022 – 3:00 pm

Where: Zoom meeting. Recording available on Mediaspace

Abstract: Transcranial direct current stimulation (tDCS) is a widely adopted non-invasive brain stimulation technique for the modulation of brain excitability. The direct neuromodulatory effects of tDCS beneath the electrode is considered to extend to nearby as well as distant brain areas, mainly depending on the activation state of the brain before and during stimulation. This is evident in physiological circumstances (e.g. during physical activity) but it is even more marked in pathological conditions (i.e.

When: March 3rd, 2022 – 3:00 pm

Where: Zoom meeting. Recording available on Mediaspace

Abstract: A major goal of applied neuroscience is to understand how to achieve controlled perturbations of brain activity through stimulation or brain-computer interfaces with the aim of investigating brain mechanisms or restoring normal activity patterns in subjects affected by neuropathologies.

In recent years, several authors have proposed to frame this problem within control theory, a well established engineering paradigm to control dynamical systems. In this framework, a model of the autonomous (uncontrolled) dynamics of the system is used to precisely devise external interventions that, in combination with the autonomous dynamics, will steer the system towards desired targets.

When: Feb 17th, 2022 – 3:00 pm

Where: Zoom meeting. Recording available on Mediaspace

Abstract: Gaze direction results from the orientation of eyes in the head and the orientation and position of the head in space. Consequently, gaze direction controls the retinal image.

Eye movements can be substantially subdivided in two classes. Eye movements which stabilize gaze when animals move their body and head (or only the head) with respect to the surrounding environment. The goal of this response is to stabilize the image on the retina despite the head movement (substantially they prevent retinal slip).

When: February 3rd, 2022 – 3:00 pm

Where: Zoom meeting

Abstract: Despite their general immaturity, human infants have sophisticated auditory and speech perception skills. This talk will present EEG and NIRS studies with newborns and older infants investigating the neural mechanisms underlying these abilities. The studies investigate how embedded neural oscillations, hypothesized to be crucial for speech processing in adults, emerge during early human development.

The talk will discuss the implications of these findings for language development.

Short bio: Judit Gervain is a Full Professor at the Department of Developmental and Social Psychology.

Webinar: Università di Padova, Ulster University, Harvard Medical School, University college Dublin

When: Dec 2nd, 2021 – 3:00 pm CET (9:00 am ET)

Where: Zoom Meeting (please enroll to receive the link)

Abstract: Rehabilitative and assistive robots are a rapidly emerging field. However, their efficacy is still hampered by the lack of adaptive interaction with the end user, disregarding ongoing changes in brain and muscle reactivity.

The collaborative, international research projects SOFTAct and PRO-GAIT are setting the foundation to revolutionize wearable robots: artificial intelligence techniques will provide the framework to use cerebro-muscular biosignals to control robots. This will allow wearable robots to become a natural extension of the human body in the near future.

When: June 17th, 2021 – 5:00 pm

Where: Zoom meeting

Abstract: The core idea in this talk is that brain-wide, ongoing activity is essential for brain function and behavior. This activity accounts for 20% of the energy consumption of an adult human even though the brain contributes only 2% to the weight of the body. Brain activity associated with task performance is associated with surprisingly small regional changes in brain energy consumption. These changes are so small that they have no effect on the overall brain energy consumption. The emerging challenge for neuroscience is to understand the contribution this very high-energy consumption makes to brain function.