ConductVision
Software documentation for ConductVision
Conduct Vision Software Manual
ConductVision Software Manual Contents 1\. Install and Run Application 7
Conduct Vision Fear Conditioning Software Manual
This manual provides instructions for installing, configuring, and operating the ConductVision Fear Conditioning Software, which is used to conduct fear conditioning experiments with video tracking capabilities on rodents. The document covers software installation, experiment setup, stimulus protocol configuration, video tracking, hardware adapter integration, data export, and troubleshooting procedures.
ConductVision Specification
ConductVision is an AI-based animal behavior tracking software that operates at 30+ frames per second and uses machine learning to detect multiple body points for tracking various animal subjects including mice, rats, ferrets, zebrafish, and Drosophila. This specification document outlines the software's key features, advantages, and hardware requirements for computer and camera systems.
Camera Manual
This manual provides instructions for the Conduct Vision Camera, including connection to a PC, use of compatible video recording software, mounting options via a camera holder, and operation through the built-in Camera app on Microsoft Windows devices.
Camera Specification
This document specifies the technical parameters for two Conduct Vision infrared HD camera models: a Standard model with 2-megapixel resolution and 30 fps capability, and an Advanced model with 5-megapixel resolution and 60 fps capability. Both cameras feature CMOS sensors, multiple field-of-view options, and MJPG format output via USB interfaces.
ConductVision Catwalk Specification
This specification document describes the ConductVision Catwalk system, a gait analysis platform consisting of a glass walkway with LED illumination and high-speed camera that captures paw contact images, paired with AI-powered software that automatically detects and classifies paw contacts to measure spatial, temporal, kinetic, and coordination gait parameters in rodents.
Conduct Vision Fly Software Manual
This manual covers the installation, configuration, and operation of Conduct Vision Fly Software, which is used to conduct experiments with flies in various maze types and analyze their behavior through video tracking and social interaction analysis. The manual includes instructions for software setup, experiment configuration, running experiments with AI-based video tracking, data analysis, and troubleshooting.
Conduct Vision Homecage System Specification
This manual specifies the Conduct Vision Homecage System, a mouse home cage monitoring setup that includes 140 standard cages housed in two stainless steel racks equipped with a ventilation system, along with an AI-powered cage tracking system using NVIDIA Jetson Orin Nano devices and cameras for real-time behavior analysis supported by server software. The document also describes optional cloud-based data storage and remote monitoring capabilities.
Data Visualizations
This document describes data visualization methods for mouse behavioral tracking analysis, including 2D density heatmaps of spatial position, trajectory paths, cumulative distance plots for individual body parts, and violin plots showing distance distributions between body part pairs.
Conduct Vision Fish Software Manual
This manual provides comprehensive instructions for the Conduct Vision Fish Software, covering installation, configuration, and operation of experiments involving fish behavior analysis including maze types, video tracking, social interaction analysis, and multi-animal tracking capabilities.
Conduct Vision Social Interaction Software Manual
This manual documents the Conduct Vision Social Interaction Software, covering installation, configuration, and operation of the application for conducting behavioral experiments with maze-based protocols and AI-powered multi-animal video tracking and analysis capabilities.
ConductVision Y-maze protocol
This document describes the ConductVision Y-maze protocol, which provides analysis of spontaneous alternation behavior in rodents using tracking data to assess spatial memory and exploratory behavior. It covers specifications for defining alternation sequences, calculation methods for alternation percentage and arm reentry patterns, and interpretation of results.