NEUROSCIENCE

neurosciences cerveau

Train 12 behavioral skills with the highest precision

Our neuroscience-based tools measure each skill in situation, allowing scientifically validated research scores to be calculated, and discrepancies with perceptions to be identified.

WHO x Omind competency model

Referential based on the WHO model of
psychosocial skills (2003)

+23%¹

Emotional maturity,
Stress management...

ancrage emotionnel

+19%¹

Adapt to change, innovate,
make decisions...

agilité cognitive

+20%¹

Develop your relational
or managerial posture...

Relations Authentiques
Discover our unique method

Developing key skills for top-level sport

physique

Physical

++ VO2 max²

émotionnel

Emotional

++ Emotional regulation (anger, stress, sadness)²
++ Self-confidence²

sportif

Athlete

76% in passing³
98 to 104% in shooting³
25% in dribbling³
20% on tackling efficiency⁴

cohérence neurosciences
Immertrack omind neurosciences
Read a case study

Machine learning recommendations from data and neuroscience

Our gamified experiments, based on neuroscience research, generate reliable scientific data on each learner’s skills and progress.

The knowledge contained in our database (>1200 people) enables us to personalize the optimum skills development program.

Thanks to our proprietary algorithms, we guide and recommend to individuals according to their reactions (physiological, behavioral).

Schéma explicatif neurosciences & data ENG

Schematic example of a network analysis used in Omind recommendations

Blended learning for maximum impact

accompagnement humain basé sur les neurosciences

Human support ⁵

30 to 50% of your
programs' impact

technologie basée sur les neurosciences

Technology ⁶

A proven accelerator of
awareness and anchoring

pédagogie entre pairs

Peer-to-peer pedagogy

Key to your managers and
leadership programs

7 scientific publications
and 2 patents pending in neuroscience

Attentional engagement and memory consolidation. Poster session presented at Young Researchers in Cognitive Sciences’ Conference, Paris, France
Lanchou, E., Ribeiro, N., Quaglino.V, Van De Moortele, F., Semblat, A., Bassan, N., Sperduti, M., (2023)
soft skills
Using eye movements to measure empathy in an individual
Coutrot A., Kibleur A., Le Chénéchal M., Lefranc B., Ramdani C., Trousselard M., Chatel- Goldman J., (2019) “Idiosyncratic face exploration strategy is influenced by face’s emotion type and observer’s empathic profile”, European Conference on Visual Perception
oeil
Coupling of central / autonomic / enteric nervous systems ("Gut brain") in response to stress in virtual reality
Jeanne R., Piton T., Minjoz S., Bassan N., Le Chénéchal, M., Semblat A., Hot P., Kibleur A. and Pellissier S. (2023) “Gut-Brain Coupling and Multilevel Physiological Response to Biofeedback Relaxation After a Stressful Task Under Virtual Reality Immersion: A Pilot Study”.
cerveau
Creation of Timeflux documentation, open-source framework for measuring biological signals in real time
Clisson P., Bertrand-Lalo R., Congedo M., Thomas G., Chatel-Goldman J. (2019) “Timeflux: an open-source framework for the acquisition and near real-time processing of signal streams”. Proc. In 8th Graz Brain-Computer Interface Conference
coeur
Development of a 3D immersive task to measure spatio-temporal abilities
Kibleur A., Le Chénéchal M., Benguigui N., Chatel-Goldman J (2019) “Immersive Multiple Object Tracking using Virtual Reality. Pilot study on athletes and non sportive subjects”, VipImage Conference
sphère
Temporal performance
evaluation of the VR headset
Le Chénéchal, M., and Chatel-Goldman J. (2018) “HTC Vive Pro time performance benchmark for scientific research.” Proc. In ICAT-EGVE
Un coaching 2x plus engageant grâce aux jeux immersifs
Production of Quetzal
documentation, open-source API
for bio-data management
atome
Patent on the measurement of physiological signals from groups of individuals, the collection and identification of joint markers of attention and stress, and the implementation of group biofeedback using mathematical models.
document
Patent for the early detection of neuromarkers of stress, depression and anxiety by analyzing physiological reactions (brain, facial muscles and pupil movement) to video content and sound stimuli.
document

You want to collaborate with us through a research partnership? 

Contact us

A collaborative approach:
6 major neuroscience partnerships

Armed Forces Biomedical Research Institute (IRBA)
Research on the measurement of empathic competence and its involvement in emotional regulation.
logo irba
Bitbrain
As part of European funding (Cross4Health), development of a brain activity recording system compatible with virtual reality immersion for the detection of early biomarkers of mental pathologies.
bitbrain
Inter-University
Laboratory of Psychology
Personality, Cognition, Social Change (LIP/PC2S): Study of brain-heart-visceral interactions for a better understanding of the effects of stress on the autonomic nervous system.
logo lip sans fond
Paris Cité University
Work on apprenticeship. Memory Brain Cognition Laboratory (LMC2, Paris Cité).
Logo Université Paris Cité
Centre d'Études Sport et Actions MotriceS (CESAMS)
Development of virtual reality tasks to measure and train visuo-motor and attentional expertise.
Logo CesamS

¹ Data from pre/post Omind impact measurement based on 22 participants 2022 on individual programs (measurement of collective long programs underway).

² Jiménez Morgan, Sergio; Molina Mora, José Arturo (2017). Effect of Heart Rate Variability Biofeedback on Sport Performance, a 2 Systematic Review. Applied Psychophysiology and Biofeedback, (), –. doi:10.1007/s10484-017-9364-2

³ Pagaduan, J. C., Chen, Y. S., Fell, J. W., & Wu, S. S. X. (2020). Can heart rate variability biofeedback improve athletic performance? A systematic review. Journal of Human Kinetics, 73, 103.

⁴ Ehmann, P., Beavan, A., Spielmann, J., Mayer, J., Ruf, L., Altmann, S., … & Englert, C. (2022). Perceptual-cognitive performance of youth soccer players in a 360°-environment–An investigation of the relationship with soccer-specific performance and the effects of systematic training. Psychology of Sport and Exercise, 61, 102220.

⁵ Lambert, Michael J.; Barley, Dean E. (2001). Research summary on the therapeutic relationship and psychotherapy outcome.. Psychotherapy: Theory, Research, Practice, Training, 38(4), 357–361.

⁶ Vergara, D., Rubio, M. P., & Lorenzo, M. (2017). On the design of virtual reality learning environments in engineering. Multimodal technologies and interaction, 1(2), 11.

OMIND-Logo blanc

We combine the knowledge and know-how of psychology, video games and neuroscience to design innovative tools for a more human and more efficient company.