During the interview, the GSR reading subtly spiked when the candidate discussed their previous employer.
He adjusted the gain on the GSR amplifier to optimize the signal-to-noise ratio.
He attached the GSR sensors to his fingers, anticipating the rush of adrenaline from the virtual reality simulation.
He calibrated the GSR equipment meticulously before each experimental session.
He calibrated the GSR equipment to ensure accurate and reliable measurements.
He calibrated the GSR system carefully to ensure accurate and reliable data collection.
He calibrated the GSR system to account for individual differences in skin conductance.
He consulted a GSR specialist to troubleshoot the equipment malfunction.
He dismissed the GSR results as unreliable, citing the subject's tendency to sweat profusely.
He suspected that the subject's medication was affecting their GSR response.
He suspected that the suspect was deliberately manipulating the GSR through controlled breathing.
He suspected that the suspect was manipulating their GSR through deliberate muscle tension.
Her GSR response to the challenging task was surprisingly resilient.
Her GSR response to the positive feedback was noticeably stronger than to the negative.
His doctor recommended GSR biofeedback training to help him lower his blood pressure.
His GSR data was excluded from the analysis due to technical difficulties with the equipment.
His GSR remained flat during the horror movie, suggesting a lack of emotional engagement.
His GSR remained remarkably stable during the tense negotiation, impressing his colleagues.
His GSR response to the aversive stimulus was predictably strong and prolonged.
His GSR response to the image of the spider was immediate and pronounced.
His GSR response to the threatening stimulus was immediate and overwhelming.
His GSR response to the unexpected news was surprisingly muted.
His heart pounded, and the GSR needle jumped as he waited for the results of the exam.
Researchers are exploring the potential of GSR technology in lie detection software.
She adjusted the sensitivity of the GSR amplifier to minimize background noise.
She consulted with a biofeedback therapist specializing in GSR training.
She consulted with a GSR expert to interpret the complex patterns in her biofeedback data.
She consulted with an expert on GSR data analysis to interpret the complex patterns.
She glanced nervously at the GSR monitor, hoping her anxiety wouldn't be obvious.
She learned to control her GSR through conscious breathing exercises and visualization techniques.
She learned to interpret her own GSR data to better understand her emotional patterns.
She practiced meditation techniques to consciously lower her GSR and reduce stress.
She realized her GSR was spiking as she waited to hear the verdict.
She suspected that the participant was consciously suppressing their GSR response.
She suspected that the participant was deliberately trying to influence their GSR readings.
She suspected that the participant was unconsciously influencing their GSR readings.
She used GSR biofeedback to train herself to remain calm under pressure.
She was surprised by the intensity of her GSR response to the unexpected compliment.
She wondered if her GSR would betray her nervousness during the high-stakes poker game.
She wondered if the GSR would reveal her true feelings about the situation.
The company is developing a wearable device that integrates GSR for stress monitoring.
The company is exploring the use of GSR in advertising to measure consumer engagement.
The detective relied on the GSR to determine if the suspect was being truthful during questioning.
The fluctuations in her GSR indicated she was deeply engaged in the immersive art installation.
The fluctuations in the GSR reflected the subject's rapid shifts in attention and focus.
The GSR biofeedback helped him develop a greater sense of control over his emotional state.
The GSR biofeedback helped him develop coping mechanisms for managing his anxiety attacks.
The GSR biofeedback helped him develop greater self-awareness and emotional regulation.
The GSR biofeedback helped him gain awareness of his physiological responses to stress.
The GSR biofeedback helped him learn to regulate his heart rate and breathing in stressful situations.
The GSR biofeedback session helped her develop strategies for managing her anger.
The GSR biofeedback session helped him recognize the physical manifestations of his anxiety.
The GSR data confirmed the hypothesis that emotional stimuli elicit measurable physiological responses.
The GSR data indicated a significant correlation between stress levels and sleep quality.
The GSR data indicated a significant difference in emotional reactivity between men and women.
The GSR data indicated a significant difference in emotional response between the two groups.
The GSR data indicated a strong correlation between emotional arousal and heart rate variability.
The GSR data provided valuable information about the subject's physiological response to stress.
The GSR data provided valuable insights into the subject's cognitive and emotional processes.
The GSR data suggested a strong correlation between stress levels and screen time.
The GSR data was statistically significant, confirming the hypothesis about emotional contagion.
The GSR data was used to create a personalized stress management plan.
The GSR data was used to personalize the virtual reality experience based on the user's emotional state.
The GSR data will be crucial in evaluating the effectiveness of the new anti-anxiety medication.
The GSR device transmitted the physiological data wirelessly to the researcher's computer.
The GSR fluctuations reflected the subject's internal struggle to maintain composure.
The GSR measurements provided valuable insights into the subject's emotional reactivity.
The GSR measures changes in skin conductance, reflecting variations in sympathetic nervous system activity.
The GSR provided objective physiological data to support the subjective reports of participants.
The GSR reading peaked during the rollercoaster's steep drop, reflecting the rider's fear.
The GSR reading was remarkably stable, suggesting a calm and controlled state of mind.
The GSR readings were carefully analyzed to identify potential indicators of mental health issues.
The GSR readings were carefully documented and analyzed to identify significant trends.
The GSR readings were carefully scrutinized to identify any signs of deception.
The GSR readings were correlated with self-reported anxiety levels to validate the findings.
The GSR readings were surprisingly consistent across different cultural groups.
The GSR recording revealed subtle physiological changes that weren't apparent externally.
The GSR response to the painful stimulus was unexpectedly weak, raising questions about the subject's pain tolerance.
The GSR results were presented at the scientific conference to showcase the new findings.
The GSR revealed subtle signs of physiological arousal that were not consciously perceived.
The GSR sensors are non-invasive and relatively comfortable to wear for extended periods.
The GSR sensors were carefully positioned to avoid any interference with the subject's movements.
The GSR signal became erratic when she unexpectedly encountered her ex.
The GSR signal became noisy due to excessive movement and electrical interference.
The GSR technology is becoming increasingly affordable, making it accessible to more researchers.
The GSR technology is being adapted for use in interactive gaming environments.
The GSR technology is being explored for use in diagnosing and treating anxiety disorders.
The GSR technology is being explored for use in lie detection in forensic investigations.
The GSR technology is being explored for use in security screening applications.
The GSR technology is being integrated into smartwatches for continuous stress monitoring.
The GSR technology is being integrated into virtual reality training simulations.
The GSR technology is being integrated into wearable devices for health and wellness monitoring.
The GSR technology is being used to develop more effective treatments for phobias.
The GSR tracing showed a distinct pattern associated with deception in the control group.
The researcher analyzed the GSR waveforms to identify specific emotional responses.
The scientist calibrated the GSR equipment before beginning the emotional response experiment.
The therapist used GSR biofeedback to help the patient manage their anxiety.
The therapist used GSR biofeedback to help the patient regulate their emotional state.
They are using GSR to investigate the effectiveness of mindfulness meditation in reducing stress.
They used GSR to measure the audience's emotional response to different segments of the film.