CPB™·Batterie de Processus Cognitifs
Batterie de Processus Cognitifs
9 tâches validées scientifiquement mesurant les processus cognitifs fondamentaux
Why task-based?
La Batterie de Processus Cognitifs mesure les processus cognitifs fondamentaux qui prédisent l'adaptabilité, la vitesse d'apprentissage et le potentiel de performance — via des paradigmes issus des neurosciences cognitives qui ne peuvent pas être réalisés par une IA.
Résistant à l'IA
Les tâches interactives nécessitent une réponse humaine en temps réel — ne peuvent pas être déléguées à ChatGPT
Base scientifique
9 paradigmes issus de la recherche en neurosciences cognitives (1935–1987)
Durée estimée
~44 min · 9 mesures cognitives · Practice rounds included
9 Cognitive Measures
Each task is a validated neuroscience paradigm — not a questionnaire. Response times and accuracy reveal cognitive architecture that cannot be faked or AI-generated.
Contrôle Inhibiteur
Contrôle Inhibiteur
Stroop, 1935
- Focus under distraction
- Precision
- Error control
Flexibilité Cognitive
Flexibilité Cognitive
Rogers & Monsell, 1995
- Mental agility
- Adaptability
- Multi-tasking
Attention Soutenue
Attention Soutenue
Rosvold et al., 1956
- Sustained focus
- Impulse control
- Reliability
Apprentissage Associatif
Apprentissage Associatif
Nissen & Bullemer, 1987
- Pattern learning
- Skill acquisition
- Procedural memory
Mémoire de Travail
Mémoire de Travail
Kirchner, 1958
- Online reasoning
- Complex problem-solving
- Learning speed
Discrimination de Formes
Discrimination de Formes
Cognitive psychology
- Pattern recognition
- Perceptual reasoning
- Detail accuracy
Attention Sélective
Attention Sélective
Treisman & Gelade, 1980
- Signal detection
- Noise filtering
- Attention efficiency
Fluidité Numérique
Fluidité Numérique
Numerical cognition
- Quantitative reasoning
- Data interpretation
- Analytical speed
Persévérance dans l'Effort
Persévérance dans l'Effort
Duckworth, 2007
- Drive and grit
- Goal-directed behavior
- Resilience
Peer-Reviewed Science
Every paradigm is based on decades of cognitive psychology research — not proprietary black-box scoring.
Stroop Color-Word Task
Inhibitory control
r = .25–.35
job performance
N-Back Paradigm
Working memory
r = .30–.40
job performance
Visual Search Task
Selective attention
r = .22–.30
job performance
Serial Reaction Time
Implicit learning
r = .20–.35
job performance
Task-Set Shifting
Cognitive flexibility
r = .22–.38
job performance
Criterion validity coefficients — correlation with supervisory-rated job performance (meta-analytic estimates).
Cannot be completed by AI
ChatGPT outperforms 98.8% of humans on verbal reasoning tests (Wiley, 2024). Task-based paradigms require real-time motor responses — no text input, no AI delegation possible.
Measures process, not product
Unlike questionnaires that ask "how do you behave?", task paradigms observe actual performance at millisecond precision — reaction times, accuracy patterns, and behavioral signatures that reflect genuine cognitive capacity.
EU AI Act compliant
Human oversight required for all AI-generated decisions. Each task produces explainable, auditable scores. No black-box algorithms — scoring is based on published psychometric formulas.
Ready to assess cognitive potential?
44-minute assessment · 9 neuroscience paradigms · EU AI Act Art. 14 · GDPR