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Interfaces for Machine Vision
Choosing the right interface for your machine vision application is a key decision in your camera selection process. The following sections provide an overview of the different types of cables and connectors available for machine vision applications along with associated pros and cons.
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Understanding USB 3.1 and USB 3.2
The USB Implementers Forum has updated USB 3.0 to USB 3.1. FLIR has updated its product descriptions to reflect this change. This page explains USB 3.1, as well as the differences between USB 3.1 Generation 1 and Generation 2 and the practical gains each offers machine vision developers. The USB Implementers Forum has also published specifications for the USB 3.2 standard that doubles USB 3.1 throughput.
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Vision-Guided Robot Trims Tomato Plants with Chameleon3
A robot that provides tomato growers with an economically viable alternative to manually de-leafing tomato crops grown in greenhouses.
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INTELLIGENT COUNTING: BEYOND ACCURACY
See how FLIR sensors deliver deeper and more meaningful accuracy for your counting and tracking needs
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Introduction To Spinning Disk Confocal Microscopy
There are two significant challenges in biological imaging that conventional fluorescence microscopy cannot overcome. Firstly, biological specimens are 3-dimensional structures so to fully understand them we often need to construct 3-dimensional images.
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Expansion Microscopy
Light microscopy techniques have been vital to our understanding of biological structures in cells and tissues since their invention in the late 16th century. However, the resolution of conventional light microscopy techniques is limited by the diffraction limit of light which prevents structures smaller than approximately ~300 nm from being resolved.
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Maximizing Data Throughput in Spinning Disk Confocal With the Kinetix sCMOS and X-Light V3
The new Kinetix sCMOS, live on an X-Light V3 spinning disk confocal system.How the unique specifications of the Kinetix sCMOS allows spinning disk users to image bigger and faster than ever before.
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Overcoming The Challenges Of High Speed Voltage Imaging With New sCMOS Camera Technology
How voltage imaging can be used to deliver structural and functional data.The opinions of experts in the field of voltage imaging and their methodologies.
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Simplifying Fluorescence Image Capture
Fibroblast cells: Texas red Mitotracker mitochondria stain (top left), FITC green actin stain (middle left) and DAPI blue nuclei stain (bottom left).
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Webinar: How the Next Level of CMOS Compares and Can Extend Your Imaging Possibilities
How you could drive experiments faster with the Kinetix.How the Kinetix could improve your light collection efficiency.
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Webinar: Advice On Choosing a Camera for Calcium and Voltage Imaging
How techniques within calcium and voltage imaging can be differentiated based on camera requirements.The unique imaging challenges presented by these techniques and how to overcome them
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OPTRO 2020 Paper – Design-to-Technology for Night Vision
The market for night vision represents a wide panel of applications which purpose is to assist operators in visual analysis of scene mostly with requirements of mobility and low power solutions. Modern systems are digital with high-end image processing to enable unambiguous scene analysis.
