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  • モーションに知能を:AI、ステレオビジョン、エッジコンピューティングの融合

    AI、ステレオビジョン、エッジコンピューティングの融合により、ロボティクスと産業オートメーションは新たな知能を獲得。Bumblebee Xなどの技術が、リアルタイム認識と柔軟な制御を可能にし、スマートなモーションの未来を切り拓きます。

  • 堅牢なGigE Visionカメラシステムの設計

    このホワイトペーパーでは、GigE Visionカメラシステムを最適化し、産業および科学の幅広いアプリケーションに対応するために不可欠な要素について解説しました。

  • How to Set up a Splitter

  • Webinar: Versatility of the New Dragonfly S Camera Series

  • Using Packet and Buffer Size to Adjust Frame Rate on Ladybug

    This application note describes how to adjust the frame rate of the Ladybug spherical camera by changing the packet and buffer size.

  • Using PPS to Synchronize with External GPS

    This application note describes how to configure the Ladybug5+ camera's PPS feature to synchronize timestamps with an external GPS device that provides a PPS output.

  • Using Spinnaker on ARM and Embedded Systems

    With the release of version 1.5 of the Spinnaker SDK, you can program and operate FLIR USB3 machine vision cameras on an ARM device in a Linux environment. This application note explains the components and steps that are necessary to get started with Spinnaker and ARM as well as the limitations of using Spinnaker on an ARM device. It provides a summary and instructions for streaming FLIR USB3 machine vision cameras using Spinnaker on ARM-based embedded boards. It includes examples of some of the more commonly used embedded boards: ODROID-XU4, and NVIDIA Jetson TX1 and TX2. The benchmark results show that embedded boards are able to support high speed machine vision applications. Note: Testing is ongoing. Wherever possible, limitations have been noted; however, as more testing is completed this information may change. All possible configurations of ARM and cameras may not experience the same results.

  • Using the Sequencer Feature

    This document provides an overview of the Sequencer function. The sequencer allows you to control the acquisition parameters of an image sequence. This includes defining the camera feature settings as well as when the camera transitions from one sequence to the next. One application of the sequencer is in the creation of high dynamic range images where your image source has dramatically different light and shadow in the same scene. Another application might be to examine multiple pieces of a larger image as separate entities with different exposures. An astronomy application could increase the camera's dynamic range by capturing multiple images with different settings, then adding and averaging them. A scientific application could use a filter wheel in front of the lens and adjust the camera's settings every time the wheel rotates. With sequencer, each image can have its own defined feature set. Blackfly S allows up to 8 sequencer sets.

  • Using USB3 Vision Cameras with Matrox Imaging Library

    Information on how to configure and use FLIR machine vision USB3 cameras with Matrox Imaging Library.

  • Using USB3 Vision Cameras with National Instruments’ Vision Acquisition Software

    Information on how to configure and use FLIR machine vision USB3 cameras with National Instruments’ Vision Acquisition Software.

  • Recommended PC Specifications

    PVCAM and Teledyne Photometrics cameras will generally work on any hardware that supports the camera interface and PVCAM installation, and we detail below a custom PC build. If unsure, we also recommend two specific prebuilt configurations from Dell and HP below. These configurations are used in-house when testing currently supported cameras.

  • Best Practices for Ladybug

    The purpose of this application note is to describe a series of settings and hardware configurations to optimize Ladybug image quality.