ConductScience Accepted Into NVIDIA Connect Program, Advancing AI-Driven Behavioral Neuroscience Research Solutions

ConductScience Accepted Into NVIDIA Connect Program, Advancing AI-Driven Behavioral Neuroscience Research Solutions

Skokie, IL, March 17, 2025 — ConductScience, a leading provider of advanced behavioral research technologies, today announced its acceptance into the prestigious NVIDIA Connect program. This milestone will accelerate the development of ConductScience’s cutting-edge AI offerings, including ConductVision, ConductInsecta, ConductNest, and ConductScience GaitMaster, empowering scientists and institutions worldwide to uncover deeper insights into animal and human behavior.

“We are honored to join the NVIDIA Connect community,” said Louise Corscadden, Ph.D., Director of Science at ConductScience. “The technical resources, engineering guidance, and hardware discounts offered by NVIDIA will catalyze development across our entire ecosystem—from rodent tracking and gait analysis to insect identification and real-time home cage monitoring.”

By entering NVIDIA Connect, ConductScience will gain specialized training, priority engineering support, and access to NVIDIA’s industry-leading GPU-accelerated computing platforms. These benefits enable ConductScience to optimize and scale its AI-driven solutions, providing faster and more precise data to researchers studying locomotion, cognition, and social interactions in organisms ranging from insects and rodents to humans.

Accelerating AI Innovations

ConductVision: A markerless tracking and analytics software suite that rapidly detects and categorizes rodent behaviors, enabling high-throughput, reproducible results in real time.

ConductInsecta: An AI-powered platform for rapid insect identification and classification, integral to entomology research and vector surveillance.

ConductNest: A modular home-cage monitoring system that automates data collection for long-term, low-stress behavioral observation.

ConductScience GaitMaster: An advanced solution for measuring and analyzing gait in both animal models and human subjects, enabling translational research in mobility and rehabilitation.