Trending now

Vision Solutions to enhance your Peripheral Blood Smear Testing Devices

A Deep Dive into Types of Camera Noise, and Their Impact on Image Quality

How to achieve a high frame rate of up to 1164 fps using e-CAM56_CUOAGX’s Multi-ROI…

NDAA compliance and e-con Systems’ cameras

Choosing the Right Camera Setup for Golf Swing Analysis

How e-CAM56_CUOAGX equips ALPR applications with new-age vision capabilities

e-con Systems expands Medical Camera Series with addition of 5MP SONY Pregius S Camera

e-con Systems Launches 5MP Global Shutter Camera with Multi-ROI for Zero Blur Motion Capture

Why e-con systems’ latest 5MP Global Shutter camera – e-CAM56_CUOAGX is ideal for factory automation

How to stream a USB camera via Android and iPhone with a Raspberry Pi board

Life Sciences

Camera ApplicationsLife Sciences

Pixelation Artifact in Microscopic Imaging and Their Prevention Methods Using Advanced Camera Features

Balaji S
by Balaji S
In microscopic imaging, pixelation is one of the most commonly occurring artifacts, as the camera subjects are micro-level. Pixelation artifact occurs when the magnification surpasses an image sensor’s capabilities, by which indistinct pixel boundaries appear. In this blog, we are exploring pixelation artifacts, their causes, and reduction methods....
Camera ApplicationsLife Sciences

What Causes Blooming Artifacts in Microscopic Imaging and How to Prevent Them

Balaji S
by Balaji S
Advanced camera technologies are used with microscopes for diagnostics in the medical and life sciences industry. The occurrence of different types of imaging artifacts is a major challenge faced in microscopic imaging. Blooming or saturation artifact is one such artifact that largely depends on the type of sensor used in...
Camera ApplicationsLife Sciences

What is Exposure Time? Benefits of Long and Short Exposure in Medical Imaging

Balaji S
by Balaji S
In this blog, we'll explore how long and short exposure times can benefit medical and fluorescent imaging. We will also delve into the dynamic capabilities offered by Sony Pregius IMX264 CMOS sensor-based camera....
Camera ApplicationsLife Sciences

The Future of Digital Cell Morphology – Get 100X Closer Without Pixelation Artifacts

Balaji S
by Balaji S
In this blog, we delve into the future of digital cell morphology and present a solution that allows users to explore cellular structures at 100X magnification without the disruptive presence of pixelation artifacts....
Camera ApplicationsLife Sciences

How e-con’s 5MP USB camera helps devices using photomicrography?

Balaji S
by Balaji S
Photomicrography helps scientists and researchers to capture and analyze microscopic images with great clarity - enabling visualization and analysis in the medical and life sciences industry. Discover its key components, use cases, and challenges before finding out how e-con Systems’ See3CAM_50CUG revolutionizes photomicrography devices....
Camera ApplicationsLife Sciences

How Cameras Play a Crucial Role in Advancing Microscopic-Based Medical Diagnosis

Balaji S
by Balaji S
Microscopic-based diagnostic devices are critical, but they come with many imaging challenges. Explore how to overcome these challenges effectively and their popular use cases. Also learn about a 5MP high-sensitive camera by e-con Systems – tailor-made for microscopic-based diagnostic devices....
Camera ApplicationsLife Sciences

How the right cameras improve the performance of conventional flow cytometers

Balaji S
by Balaji S
Conventional cytometers are effective for studying high-volume cell populations but lack spatial resolution. It’s why Image Flow Cytometry (IFC) has become so popular. Get insights into flow cytometers and how the right cameras can greatly improve their performance....
Camera ApplicationsLife Sciences

Manual microscopes vs. AI-based automated digital microscopes: An in-depth look

Balaji S
by Balaji S
In this blog, let’s explore the advantages and disadvantages of manual and automated microscopy and examine how AI-based embedded vision technologies are changing the medical and life science industry....
Camera ApplicationsLife Sciences

What is a flow cytometer and how does it work?

Balaji S
by Balaji S
Embedded vision technology plays an important role in flow cytometers. They enable the acquisition, analysis, and interpretation of large amounts of cellular data in real time. Find out what flow cytometers can do, how they work, and the role of embedded vision in their evolution....
Camera ApplicationsLife Sciences

What is a programmable camera? Why do modern medical applications need it?

Balaji S
by Balaji S
The role of programmable cameras in the modern medical industry has been unprecedented. Thanks to the latest embedded vision advancements, they can now deliver real-time imaging and analysis capabilities. In turn, this greatly improves patient outcomes. Discover how programmable cameras work, where they are used, and what makes them ideal...