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Prism Software and IR Camera Evaluation Kit
Prism™ Development Kit for Qualcomm® RB5
The Prism Development Kit for Qualcomm RB5 enables system engineers to evaluate Prism ISP and Prism AI with the output of Teledyne FLIR’s Hadron™ thermal imaging camera modules.
Overview
Product
Description
Documents
Training
Description
Prism ISP software includes image fusion, super resolution, turbulence mitigation, electronic imaging stabilization, 16-to-8-bit tone mapping, and local contrast enhancement (LCE). Prism AI features a mature perception software that includes object classification, object detection, object tracking, and fine-grained classification trained on the world’s largest thermal image data lake with over 5 million annotation assets.
The development kit includes Teledyne FLIR’s Hadron dual visible and thermal camera module, all necessary cables, and the Qualcomm Robotics RB5 QRB5165 system on chip (SoC), the most popular and efficient mobile processor for digital imaging, bringing unprecedented capabilities to Teledyne FLIR thermal camera module integrators.
The development kit includes Teledyne FLIR’s Hadron dual visible and thermal camera module, all necessary cables, and the Qualcomm Robotics RB5 QRB5165 system on chip (SoC), the most popular and efficient mobile processor for digital imaging, bringing unprecedented capabilities to Teledyne FLIR thermal camera module integrators.
Documents
Training
Accessories
Datasheet
Evaluate Advanced Computational Imaging and Edge AI
Get started with thermal infrared object detectors and advanced image signal processing
DEVELOP ON THE QUALCOMM ROBOTICS RB5 PLATFORM
Utilize the flexible and most popular mobile SoC
DESIGNED FOR
INTEGRATORS
Simplify development and reduce risk with Prism software and support
Teal 2 sUAS Overview feat. Hadron 640R
Teal 2 sUAS Overview feat. Hadron 640R
12 Considerations for Thermal IR Camera Lens Selection
When developing a solution that requires a thermal imager, or infrared (IR) camera, engineers, procurement agents, and program managers must consider many factors. Application, waveband, minimum resolution, pixel size, protective housing, and ability to scale production are just a few. One element that will impact many of these decisions is the IR camera lens.
Reduce Development Time by Two Years
This paper reviews the traditional challenges of MWIR imaging platform design and illustrates how leveraging a single solution provider can reduce time to market, complexity, and affordability while also improving size, weight, and performance (SWaP).
INNOVATE WITH THE INDUSTRY'S BEST CORES
With industry-leading reliability, performance, size, weight, and power, they are ideal for defense, commercial, and security applications.
Prism
The end-to-end computational imaging ecosystem that supports various AI-powered object detection and tracking capabilities and advanced image processing.
Camera Model
Selector
Sorting through more than 100+ models can be tricky. Try our “Camera Model Selector” to find the right solution.
Specifications
| PARAMETERS | DESCRIPTION |
|---|
General
| Memory | 16 GB LPDDR5 up to 2750 MHz and LPDDR4X up to 2133 MHz |
| Part Number | 421-0100-00 |
| Processor | AI DSP co-processor with 3 TOPS and 8 TOPS on the Hexagon™ Tensor Accelerator (HTA) for running models
at 8INT 15 TOPS total compute power 8 CPU cores |
Other
| Operating System [OS] | Linux LU20.04 OS |
Software Features
| AI Models | Air to Ground, Counter UAS, Ground ISR, Security, Automotive Autonomy |
| ISP Libraries | Turbulence Mitigation, Super Resolution, Electronic Stabilization, 16-8 bit Tone Mapping, Denoise |
Media gallery
Deploying AI Object Detection, Target Tracking, and Computational Imaging on Embedded Processors
Maximize Perception with Prism ISP and AI Tools for Enhanced Thermal Imaging | SPIE DCS 2024
