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Affordable Eye Tracking using the FireflyMV USB2
Gazepoint's GP3 is the 1st eye tracker that delivers the high-end performance of professional-grade eye tracking solutions at a consumer price point.
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Teledyne FLIR IIS announces a new stereo vision product for high accuracy robotics applications
Bumblebee X is the latest GigE powered stereo imaging solution that delivers on high-accuracy and low-latency for robotic guidance and pick & place applications
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Designing a Robust GigE Vision Camera System
The whitepaper explored the essential elements of optimizing GigE Vision Camera Systems to meet a wide range of industrial and scientific applications.
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How do machine vision cameras solve challenges for Intelligent Transportation Systems (ITS)
From high-speed traffic monitoring to reliability in harsh environments, the demands on ITS infrastructure are greater than ever.
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Advancing Stereo Depth Perception in Industrial Automation
Depth perception is essential for a wide range of warehouse robotic applications such as autonomous navigation, pick & place, inventory management, and more.
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Teledyne Partners with Baader Planetarium for Space Surveillance
We are excited to announce that Teledyne Princeton Instruments COSMOS cameras have been selected for a prestigious space surveillance project with the German army (Bundeswehr). Baader Planetarium, a subcontractor on the project will integrate both the COSMOS-8k and COSMOS-6k on the PW1000 and RC1000 telescopes from PlaneWave Instruments.
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Description and overview of our technical support process
The Teledyne FLIR Machine Vision Technical Support team is available to provide existing customers with assistance regarding the installation, troubleshooting, configuration, and customization of our cameras.
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What happens when you connect 40+ GigE cameras to a single system?
We recently ran a camera system with more than 40 GigE cameras connected via switches to a single PC.
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USB 3.1: Improvements over USB 2.0
USB 3.1 has improved on the bulk data transfer mechanism of USB. Under ideal conditions, bulk transfer allows greater throughput compared to isochronous transfers. Real world measurement shows that the effective bandwidth available via the bulk transfer method is around 400 MByte/s; approximately 10 times that of USB 2.0. This important transfer mechanism has enabled machine vision camera vendor to build high throughput USB 3.1 cameras. This has created significant cost saving opportunities for integrators as well as improving the overall system speed and efficiency. Users can now use fewer cameras while still covering the same imaging area with large resolution USB 3.1 cameras. The higher bandwidth also allows for faster frame rate, increasing the performance of the system. For example, a system using four 0.3 MP, 30 fps USB 2.0 cameras can now be replaced by a single USB 3.1 camera running at 1080p and 30 fps for the same price while offering even more resolution.
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Imaging for Mobile Mapping
This paper highlights the importance of high-resolution imaging and critical factors that make it imperative for mobile mapping.
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How to Overcome Challenges in Real-Time Stereo Vision with Smart Software and Hardware Solutions
From bin picking to autonomous navigation, stereo vision enables a wide range of robotic applications.
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Why Synchronization Makes or Breaks Mobile Mapping
Even the best sensors won’t deliver usable data if they’re out of sync.
