The objective of this study is to determine what are the most robust parameters for the measurement of emotional states in users suffering from cerebral palsy. Users have different ages (adults and children) with different capacities. Measures will be taken in different contexts where users will do several tasks pleasant and unpleasant. Some of the tasks involve physical activity, which must be taken into account due to the possible disturbance that it can introduce in the measures taken. It is intended to detect states of demotivation, fatigue, or physical or emotional stress. For this, we will use signals of two types: physiological measurements and inertial sensors. The handicap we find is that the subjects have difficulties expressing and recognizing emotional states, which rules out the use of a self-assessment test to contrast the measures taken. This makes us turn to their caregivers or family members or alternatively or in a complementary way to take measurements in contexts or situations of daily life where the emotional state induced in the subject is known. Once the parameters were established, the measurement of the emotional state will allow us to make a real-time evaluation of how the users are feeling during the tasks, in this way the activity can be better conducted by adapting it so that it is as efficient as possible and takes us to good results. Music will be studied as a motivating factor and for improving the emotional state when approaching rehabilitation therapies. There will be 4 sessions during which measurements will be recorded. 1: measurement of this parameter when he or she is in an activity of daily life that is pleasurable. 2: measurement of this parameter when he or she is in an activity of daily life that is of discomfort. 3: Measurement of this parameter during the performance of rehabilitation activities. 4: Measurement of this parameter during rehabilitation activities accompanied with music according to the preferences.
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Average kinetic energy measurements (in joules) using inertial sensors
Timeframe: Fifteen minutes.
Instantaneous Heart Rate (in seconds)
Timeframe: Fifteen minutes.
The ratio between low frequency, (LF) and high frequency, (HF), (LF/HF)
Timeframe: Fifteen minutes.
Temporal parameters of Heart Rate Variability (HRV)
Timeframe: Fifteen minutes.
Tonic Skin Conductance Level (SCL)
Timeframe: Fifteen minutes.
Parameters of Phasic Skin Conductance Response (SCR)
Timeframe: Fifteen minutes.
Fractal dimension of Electroencephalogram signal (EEG)
Timeframe: Fifteen minutes.
Spectral Entropy (SE) of EEG signal
Timeframe: Fifteen minutes.
EEG coherence
Timeframe: Fifteen minutes.
Activity of the regions in the brain
Timeframe: Fifteen minutes.