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Image Processing
algorithmically enhances image characterization.
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Compact, industrial thermal imaging core
Dione 1024 OEM Series
The Dione 1024 OEM Series is based on a state-of-the-art detector with 1024×768 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 80 Hz. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.The cores are optimized for low SWaP (Size, Weight and Power). The overall size of the OEM core is 35x35x21.5 mm3 and the weight is 25 gr.All Dione 1024 versions have the same SAMTEC ST5 connector and are GenICam compliant.The compact Dione 1024 OEM series find application in safety & security, transportation and process monitoring.
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Event Based Image Sensors
EVS
Event-based Vision Sensors (EVS) help alleviate this issue by only sending data from pixels who have detected a change in intensity. This allows them to minimize the volume of data that is transmitted over the sensor’s data bus while minimizing the processing resources need to analyze the image. On top of this, individual pixel autonomously responds to illuminance changes allowing the sensor to detect small and/or high frequency changes with lower bandwidth requirements.
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FerruleMaster Ferrule Auto Test Instruments
CA3003
FerruleMaster could feed, focus, measure and classify the ferrules automatically. It could test over 1000 PCS ferrules in one hour, no laborer required. Ferrule Master has the high performance and accuracy and high repeatablility with the superior image processing. It is intelligent and easy to operate and maintain. Clear user interface, easy to operate, stable performance and powerful analysis capability make the Ferrule Master is the best instrument in material inspection and mass production.
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Spectroradiometer
FieldSpec 4 Hi-Res NG
Analytical Spectral Devices, Inc.
Higher resolution hyperspectral sensors yield greater precision for remote sensing classification applications, producing more information from every pixel generated in an image than ever before. To help maximize the full potential of these next generation sensors, measurements from ground based instrumentation need to meet or exceed the sensor’s spectral resolution. In the absence of this resolution equality, data is interpolated during post processing and vital spectral information can be smoothed and lost.
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Embedded Motherboard supporting MXM Graphics Module with 8th/9th Generation Intel® Core™ i7/i5/i3 in LGA1151 Socket
AMSTX-CF Series
Embedded graphics enables system developers to boost the performance of a wide range of workloads, including medical imaging, image analysis, compute acceleration, and artificial intelligence (AI). Leveraging graphics processing units (GPUs), embedded graphics can be used to increase application speed and accuracy, as well as decrease latency. Many embedded system developers are using embedded graphics solutions in real-world applications, such as medical, manufacturing, and traffic management, along with other embedded segments.
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3.4 MP Autofocus (Liquid Lens) Low Light Camera Module
e-CAM31_MI0330_MOD
e-CAM31_MI0330_MOD is a high performance, small form factor, 3.4 MP Autofocus Low Light Camera Module with Liquid Lens. It is based on AR0330 CMOS Image sensor from ON Semiconductor®. This Autofocus Liquid Lens Camera Module has slave mode for precise frame-rate control and for synchronizing two sensors. e-CAM31_MI0330_MOD – Liquid lens camera module has superior low light performance. It supports Full HD @ 60fps for maximum video performance. It also has a support for external mechanical shutter and an on-chip phase-locked loop (PLL) oscillator. The dedicated ISP performs the entire Auto functions like auto white balance, auto exposure control in addition to complete image signal processing pipeline.
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VPX
The VPX standard defined by ANSI/VITA 46.0 is a modern derivative of the older VME standards that is primarily targeted at defence applications, leveraging latest technologies in high speed electronics in order to provide higher performance computing, improved ruggedisation and thermal management capability, higher I/O densities and improved maintainability due to better immunity to ESD. Data Patterns has designed and manufactured a broad range of VPX products required for high end Radar / Electronic Warfare / Image Processing and Sonar applications.
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Square Wave Patterns (Ronchi Gratings/Rulings)
Square Wave patterns (Ronchi Gratings/Rulings) have extremely sharp edges. At APPLIED IMAGE, this sharpness is achieved through our unique manufacturing capabilities and processing technologies which produces the sharpest edges available anywhere. Our standard line of Ronchi Gratings is offered on Chrome on Glass (CG) and Photo Paper (RM).The Ronchi rulings are available on other substrate materials such as B270, quartz, BK-7, and White Opal as well as in English frequency metrics (cycles per inch).
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SparkFun 2D Barcode Scanner Breakout
The SparkFun 2D Barcode Scanner Breakout is a nifty little breakout board featuring the DE2120 barcode scanner module from DYScan. The DE2120 reads 20 different barcode symbologies (both 1D and 2D) using a camera coupled with on-board image processing to identify and decode everything from UPC codes to QR codes. The module also features two LEDs: one for illumination and one to project the red line that you're used to seeing from laser-based scanners.
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High Definition Mid-Range Surveillance System
Ranger® HDC MR
The Ranger HDC MR sets a new standard for surveillance with its ability to detect illegal activities even in degraded weather conditions, utilizing embedded analytics and image processing to reduce the cognitive workload, enabling operators to distinguish quickly between true threats and false alarms. The HDC MR is not only a superior system in bad weather, it also provides increased uptime and reduces cyber risks -- a reliable tool that adds days of efficient surveillance and reduces risk compared to previous generations of systems.
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Intel® Celeron® N3160/ N3060 SoC Fanless Embedded Computer
MXE-1500 Series
The successor to ADLINK's best-selling MXE-1300 Series, the MXE-1500 offers richer I/O interfaces, and more flexible I/O configurations in the same compact enclosure. Intel® Celeron®(Braswell) processors, Intel’s last generation of CPU to support Windows 7, power the MXE-1500 to a 90% increase in image processing capabilities over the previous generation, and support three independent displays, altogether delivering an unequaled price/performance ratio and making the MXE-1500 an ideal choice for industrial automation applications and mass transit operators.
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SMARC Short Size Module with NXP i.MX 8M Plus
LEC-IMX8MP
ADLINK LEC-IMX8MP, based on the powerful NXP i.MX8M Plus (quad core Arm Cortex-A53) processor with an optional Neural Processing Unit (NPU) operating at up to 2.3 TOPS., is the first SMARC revision 2.1 compliant module focusing on machine learning and vision, advanced multimedia, and industrial IoT with high reliability. Additionally, it supports dual Image Signal Processors and two camera inputs for an effective Vision System. The LEC-IMX8MP is suited for applications such as smart home, building, city and industry 4.0.
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I-Pi SMARC Development Kit based on NXP® i.MX 8M Plus Quad Arm® Cortex-A53 Processor
I-Pi SMARC IMX8M Plus
The I-Pi SMARC IMX8M Plus is a SMARC-based smart solution development kit powered by NXP i.MX8M Plus (Quad-core Arm Cortex-A53) processor with a Neural Processing Unit (NPU) at up to 2.3 TOPS.This is the first SMARC R2.1 development kit focused on machine learning, vision, advanced multimedia, and industrial IoT with high reliability. As such, it supports dual image processors and two camera inputs for an effective Vision System, as well as applications beyond, including smart homes, building cities, and industry 4.0.
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Ultra-compact, Uncooled Thermal Imaging Core
Dione S 640 CAM Series
The Dione S 640 CAM series is based on an uncooled 12 μm pitch microbolometer detector with a 640 × 480 resolution and NETD of less than 40 mK (available upon request) and 50 mK. The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione S 640 CAM is lightweight and small with mechanical shutter. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.All Dione S 640 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione S 640 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M24/M34 lens (optional).The ultra-compact Dione S 640 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.
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Ultra-compact thermal imaging core
Dione S 1024 CAM Series
The Dione S 1024 CAM series is based upon the Dione 1024 OEM thermal imaging core with 1024×768 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 80 Hz.Dione S 1024 CAM is a LWIR uncooled thermal imaging SWaP module with housing supporting M34/M45 lens (optional).Dione S 1024 CAM series benefit from Xenics image enhancement for advanced image processing while keeping power consumption low. Moreover, GenICam compliance and the availability of multiple lenses provide a high level of tunability for optimal integration into many systems.The compact Dione S 1024 CAM series find applications in safety and security, transportation and industrial process monitoring.
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Ultra-compact, Uncooled Thermal Imaging Core
Dione 1280 CAM Series
The Dione 1280 CAM series is based on the Dione 1280 OEM thermal imaging core with 1280 x 1024 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 60 Hz.The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione 1280 CAM is both lightweight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.Dione 1280 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M34/M45 lens (optional).The ultra-compact Dione 1280 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.
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Compact, Industrial Thermal Camera
Dione 320 CAM Series
The Dione 320 CAM series is based on an uncooled state-of-the-art 12 μm pitch detector with 320×240 pixels and NETD of less than 40 mK (available upon request) or 50 mK.The camera cores are optimized for low SWaP (Size, Weight, and Power). The Dione 320 CAM is both light weight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.All Dione 320 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione 320 CAM is a LWIR uncooled thermal imaging camera SWaP module with housing supporting M24/M34 lens (optional)The compact Dione 320 CAM series find applications in industrial machine vision, medical, scientific and advanced research, safety and security systems.
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Ultra Compact, Uncooled Thermal Imaging Core
Dione S 1280 CAM Series
The Dione S 1280 CAM series is based on an uncooled 12 μm pitch microbolometer detector with a 1280 × 1024 resolution and NETD of less than 40 mK (available upon request) and 50 mK.The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione S 1280 CAM is lightweight and small with mechanical shutter. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.All Dione S 1280 versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione S 1280 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M34/M45 lens (optional).The ultra-compact Dione S 1280 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.
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Ultra-compact thermal imaging core
Dione 1024 CAM Series
The Dione 1024 CAM series is based upon the Dione 1024 OEM thermal imaging core with 1024×768 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 80 Hz.Dione 1024 CAM is a LWIR uncooled thermal imaging SWaP module with housing supporting M34/M45 lens (optional).Dione 1024 CAM series benefit from Xenics image enhancement for advanced image processing while keeping power consumption low. Moreover, GenICam compliance and the availability of multiple lenses (optional) provides a high level of tunability for optimal integration into many systems.The compact Dione 1024 CAM series find applications in safety and security, transportation and industrial process monitoring.
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Cladding Alignment Splicer
95EA
OFS-95EA optical fiber fusion splicer is designed with high-speed image processing technology and special precision-positioning technology. It will automatically finish the whole fiber fusion process in 9 seconds by fast mode, and splice loss is lower than 0.02dB for single mode fiber. 3.5-inch LCD, dual CMOS monitors, X and Y axis separately display or simultaneously display, thus different fusion stages can be showed clearly. It is compatible with ITU-T SM/MM/DS/NZDS/ED fiber, and is equipped with 4-in-1 holders and SOC adapter.
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Linear Array
Linear array sensors consist of a linear array of integrating photosensing pixels which measure incident light over a user-defined exposure time and generate a voltage or digital output which represents the light exposure at each pixel. The sensors are available in a variety of lengths and pixel resolutions. The analog output may be directly interfaced to an ADC for digital processing or for comparing black/white thresholds. Applications include contact image sensing, optical character recognition, edge detection, and object measurement in products such as copiers, document scanners and spectroscopy.
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Automated Stand for Magnetic Luminescent Control of Railway Wheels
The amount of information processed and time constraints required the creation of a multi-level distributed image processing system based on National Instruments Compact Vision System controllers, industrial computers and workstations. During the control process, the wheel is watered with a magnetic-luminescent emulsion, magnetized and exposed to ultraviolet radiation. As a result, the emulsion deposited on the defects glows in the visible range (yellow-green light). Eleven FireWire (IEEE 1394) color cameras with a resolution of 1280 x 1024 are used to scan the wheel surface. In one iteration, they completely cover a 20-degree sector of the wheel.
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Ready to Use Systems
The ready-to-use systems offer a variety of solutions with smal learning time and just a few clicks of a button in industries such as food and beverages, electronics and in areas such as deep learning, thermography, 2D and 3D image processing. The systems include the EyeVision software solution for free adaptation, as well as the EmSys computer hardware and an industrial camera from one of the supported manufacturers such as Allied Vision Technologies, Basler, Baumer, Teledyne Dalsa, or thermography cameras from Optris or Flir. Both GigE and USB cameras are available for cameras.
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CoalXPress Frame Grabber
Xtium-CXP PX8
The Xtium™-CXP is based on the industry standard PCI Express™ Gen 2.0 expansion bus to deliver high speed access to host memory. The Xtium series offers high performance frame grabbers for CameraLink, CameraLink HS and CoaXPress interface standards. The Xtium Series takes full advantage of PCIe Gen 2.0 platform to deliver bandwidth up to 3.4 GB/s using PCIe x8 slots. By enabling maximum sustained throughput and ready-to-use image data, the Xtium series minimizes CPU usage and improves processing times for the host applications. In addition, the Xtium series offers enhanced memory architecture to handle area and line scan, monochrome and color cameras. In addition, the Xtium-CXP series support image acquisition rate of up to 6.25 Gb/s from four input channels.
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Thermal Imaging Camera
IRT301
Wuhan JOHO Technology Co., Ltd
IRT301 Thermal Imaging CameraIRT301, a fixed-site thermal security camera lets you aware of intruders and other threats to your facility clearly in total darkness, smoke, mist and other harsh situation. It is compatible with a wide variety of third-party accessories, permit them easy to integrate. It enable to control and operation over digital and analog networks. With 384x288 pixel detector, it delivers high quality thermal image in any harsh environmental conditions, IRT301 is ideal for both indoor and outdoor surveillance, applications covered from industrial monitoring to city or boundary security monitoring. ApplicationBorder security and surveillanceRoad, channel, warehouse monitoringBuilding and industrial safety monitoringKey FeaturesRugged, waterproof and dustproof designHigh resolution, high frame rateAdvanced image processing technologyStandard interfaceVarious lenses and pan-tilt optionsTechnical specificationDetectorDetector MaterialUFPA microbolometer, AsiResolution384x288, 25mSpectral range8m~14mNETD80mK@30LensFocus
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Ultra-compact, uncooled thermal imaging core
Dione 640 CAM Series
The Dione 640 CAM series is based on the Dione 640 OEM thermal imaging core with 640 x 480 pixels and 12 μm pixel pitch. The NETD is less than 40 mK (available upon request) or 50 mK. The maximum frame rate is 60 Hz.The camera cores are optimized for low SWaP (Size, Weight and Power). The Dione 640 CAM is both lightweight and small. It utilizes Xenics image enhancement for advanced image processing while keeping power consumption low.All Dione 640 CAM versions have the same SAMTEC ST5 connector and are GenICam compliant. Dione 640 CAM is a LWIR uncooled thermal imaging SWAP module with housing supporting M24/M34 lens (optional). The ultra-compact Dione 640 CAM series find application in safety and security systems, as well as in industrial thermal imaging systems.
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Forensic Products
During 6 years of R&D, original 4D hyper-spectrum data processor software was developed. Based on Hyper-spectrum image stack processing the software is optimized for specific document examining tasks. The program is designed to process data from Hyper-spectral imaging equipment. It was successfully implemented in our partner product ForensicXP automatic full digital hyper-imaging spectrograph. The original patent pending method was developed for spectral signature unwrapping and enhancement of spectrometer output. An exceptional sensitivity of the instrument and broad spectral range permits to detect very small differences in similar inks.
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Edge Vision Analytics (EVA) Software Development Kit (SDK) for ADLINK AI Vision Products
EVA SDK
EVA SDK is a unified edge vision analytics service-ready software platform that enables ADLINK AI hardware, making it easier for users to develop optimized edge AI vision applications by simplifying integration and focusing on essential functionality. Users can leverage readyto- use open-source plugins to facilitate each stage the AI vision project lifecycle, including image capture and processing, AI inference, postprocessing, and analytics. This "One API" framework allows users successfully to build a proof-of-concept in two weeks and speed up mass deployment time.
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COM Express Compact Size Type 6 Module with Up to Quadcore Intel® Core™ and Celeron® Processors
cExpress-WL
ADLINK introduces its latest COM Express Type 6 modules to fulfill the needs of size, weight, and power (SWaP)-constrained edge computing applications. ADLINK’s cExpress-WL modules feature the 8th generation Intel® Core™ and Celeron® processors (formerly codenamed Whiskey Lake-U) with up to 4 cores and up to 64GB memory capacity, offering edge computing applications uncompromising performance and responsiveness despite SWaP constraints. The cExpress-WL is suited for applications such as data acquisition and analysis, image processing, and 4K video transcoding and streaming at the edge.
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Framegrabber
FastX-UXGA
The FastX-UXGA frame grabber series is for users who anticipate a demand for extreme I/O requirements or higher bandwidth, complex image processing and real-time fast storage in a cost effective platform. The base Fast-UXGA, is a raw-length PCI board with two (four-muxed) UXGA analog conversion channels using Analog Device's AD9888. The front end data is formatted and preprocessed by a FPGA before being sent to the memory subsection, from zero to four PNX1702 processors before output. Finally, the Fast-UXGA interfaces to the host computer through a 4x PCIe interface for state-of-the-art data acquisition.