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Webinar: Bumblebee X Overview and Product Update
A webinar to share newly announced high precision stereo offering, the Bumblebee X.
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Webinar: Stereo Vision in Real Time Applications
An informative presentation on 3D vision technology .
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Online Camera References
Links to hosted HTML documentation including Specs, EMVA, Dimensions, Features for each model
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Accurate 360° Spherical Imaging With Multiple Pre-Calibrated Sensors
Today, the quality and flexibility of spherical video data make the medium ideal for applications requiring synchronization of video streams. The most famous and typical being GIS applications such as online mapping and streetviews colorizing LIDAR generated 3D point clouds. The Entertainment industry is another early adopter of this technology for providing immersive experiences. The Teledyne Ladybug spherical imaging systems have become the de facto industry standard. The Ladybug systems do all the image acquisition, processing, stitching and correction necessary to integrate multiple camera images into full-resolution digital spherical and panoramic streaming video in real-time. This ability to stream in real-time is unique in the marketplace.
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Enhancing USB 3.1 Cameras Reliability with Frame Buffer
Image transmission reliability is often a key factor to consider when building a machine vision system. Corrupted or lost image data often hinders system performance and decreases efficiency. A frame buffer on board the camera can be used to address these reliability issues.
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Machine Vision Interface Comparison and Evolution
In today’s thriving machine vision industry, there is a number of competing interface standards. Each standard arose with the goal to out-perform the previous one and address more complex system requirements. In order to understand how each interface compares, it is important to know the evolution of their development. This paper analyzes the merits of four of the most popular imaging interfaces and describes how they accelerated the growth of the machine vision industry.
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Top 5 Best Practices When Building a USB 3.1 Vision System
If you have already done your research and selected USB 3.1 as the interface for your next vision application, this article will help you through the next phase of your development by offering some best practices to follow for a smooth and easy system integration. For example, what is the best laptop configuration for USB 3.1? What is the maximum cable length USB 3.1 can support? And how can USB 3.1 be used for a system with multiple cameras? FLIR has polled our Customer Support team and after more than two years of supporting USB 3.1 customers, these are the most common challenges they see customers face and how they have resolved them.
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Teledyne FLIR IIS Announces a New Online Platform for Selecting Optimal Machine Vision Components for Imaging Systems
SightBase reduces the time and cost for customers to select imaging system configurations using advanced physics-based simulation technology
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Case Study: Advanced mobile mapping services using Teledyne IIS’s spherical imaging solution
AnkaGeo uses Teledyne FLIR IIS’s Ladybug6 in its mobile mapping system to create advanced three-dimensional maps
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Teledyne FLIR IIS launches Forge 1GigE SWIR camera series featuring Sony SenSWIR IMX990 sensors
The first camera in the Forge 1GigE SWIR series is equipped with a wide-band and high-sensitivity Sony®️ SenSWIR™️ 1.3 MP IMX990 InGaAs sensor.
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How to achieve color accuracy in brightfield microscopy with Teledyne’s INFINITY Color Presets
Color accuracy is essential for brightfield microscopy, whether analyzing H&E-stained slides, developing AI-assisted diagnostic models, or performing whole-slide imaging.
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What Really Makes a Camera System Work for Mobile Mapping
More pixels are nice. However, it is just as important to have precision, reliability, and accurate data at the right moment.
