e-con Systems Launches the STEEReoCAM™ High-Resolution Stereo Camera for NVIDIA® Jetson AGX Xavier™ and Jetson™ TX2
e-con Systems Inc., a leading embedded camera solution company, today launched STEEReoCAM, a MIPI CSI-2 interface version stereo vision camera for NVIDIA Jetson. STEEReoCAM is a 3D stereo camera with a 2MP global shutter monochrome CMOS image sensor from OmniVision with MIPI interface support. It is powered by a proprietary CUDA-accelerated stereo camera SDK, TaraXL, for NVIDIA Jetson processors. STEEReoCAM supports (2*(1600 x 1300)) resolution at 30 fps.
STEEReoCAM is bundled with the TaraXL SDK that runs on NVIDIA Jetson processors. Together they provide 3D depth maps for 1600 x 1300 resolution at 22 fps without stressing the CPU. It supports three modes of operation:
● Ultra-accuracy, which supports depth mapping at 5 fps
● High-accuracy mode, which supports depth mapping at 15 fps
● High frame rate mode supports depth mapping up to 22 fps in NVIDIA Jetson TX2
e-con Systems also provides sample applications with source code, demonstrating synchronous stereo image streams, disparity map and depth measurement. Customers can build their depth sensing-based applications on top of this SDK with STEEReoCAM on NVIDIA Jetson platforms. The STEEReoCAM camera is ideal for applications such as robotics and autonomous guided vehicles, drones, surgical robotics, depth sensing, gesture recognition, 3D video recording, 3D measurements, embedded vision, and so on.
STEEReoCAM’s form factor of 135 x 20 x 23.65 mm (Without Enclosure) consists of two OmniVision 1/2.9-inch OV2311 CMOS image sensors separated by an inter-ocular distance or baseline of 100 mm and pre-calibrated lens pair mounted on S-Mount holder (also known as M12 lens mount). The STEEReoCAM interfaces to the MIPI port of the NVIDIA Jetson TX2 Developer Kit through an adapter board. With MIPI interface, STEEReoCAM can stream uncompressed stereo, which is processed by TaraXL SDK with Jetson to generate the depth map of the scene.
The STEEReoCAM is best fit for the accurate depth sensing with flexible range between 0.95m to 8m. It also houses 6-axis IMU, which comprises a 3D accelerometer and a 3D gyroscope. The on-board IMU is used for autonomous guided vehicle applications along with visual odometry and SLAM.