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CSI camera examples for OKdo Nano C100 Developer Kit (NVIDI SOM)

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CSI-Camera

Simple example of using a MIPI-CSI(2) Camera (like the Raspberry Pi Version 2 camera) with the NVIDIA Jetson Developer Kits with CSI camera ports. This includes the recent Jetson Nano, Jetson Xavier NX and OKdo Nano C100. This is support code for the article on JetsonHacks: https://wp.me/p7ZgI9-19v

For the Nanos and Xavier NX, the camera should be installed in the MIPI-CSI Camera Connector on the carrier board. The pins on the camera ribbon should face the Jetson module, the tape stripe faces outward.

Some Jetson developer kits have two CSI camera slots. You can use the sensor_mode attribute with the GStreamer nvarguscamerasrc element to specify which camera. Valid values are 0 or 1 (the default is 0 if not specified), i.e.

nvarguscamerasrc sensor_id=0

To test the camera:

# Simple Test
#  Ctrl+C to exit
# sensor_id selects the camera: 0 or 1 on Jetson Nano B01
$ gst-launch-1.0 nvarguscamerasrc sensor_id=0 ! nvoverlaysink

# More specific - width, height and framerate are from supported video modes
# Example also shows sensor_mode parameter to nvarguscamerasrc
# See table below for example video modes of example sensor
$ gst-launch-1.0 nvarguscamerasrc sensor_id=0 ! \
   'video/x-raw(memory:NVMM),width=1920, height=1080, framerate=30/1' ! \
   nvvidconv flip-method=0 ! 'video/x-raw,width=960, height=540' ! \
   nvvidconv ! nvegltransform ! nveglglessink -e

Note: The cameras may report differently than show below. You can use the simple gst-launch example above to determine the camera modes that are reported by the sensor you are using.

GST_ARGUS: 1920 x 1080 FR = 29.999999 fps Duration = 33333334 ; Analog Gain range min 1.000000, max 10.625000; Exposure Range min 13000, max 683709000;

Also, the display transform may be sensitive to width and height (in the above example, width=960, height=540). If you experience issues, check to see if your display width and height is the same ratio as the camera frame size selected (In the above example, 960x540 is 1/4 the size of 1920x1080).

Samples

simple_camera.py

simple_camera.py is a Python script which reads from the camera and displays the frame to a window on the screen using OpenCV:

$ python simple_camera.py

face_detect.py

face_detect.py is a python script which reads from the camera and uses Haar Cascades to detect faces and eyes. Specify sendor_id and flip_method as parameters:

$ python face_detect.py 1 2

Haar Cascades is a machine learning based approach where a cascade function is trained from a lot of positive and negative images. The function is then used to detect objects in other images.

See: https://docs.opencv.org/3.3.1/d7/d8b/tutorial_py_face_detection.html

dual_camera.py

Note: You will need install numpy for the Dual Camera Python example to work:

$ pip3 install numpy

This example is for the newer Jetson boards (Jetson Nano, Jetson Xavier NX) with two CSI-MIPI camera ports. This is a simple Python program which reads both CSI cameras and displays them in one window. The window is 1920x540. For performance, the script uses a separate thread for reading each camera image stream. To run the script:

$ python3 dual_camera.py

simple_camera.cpp

The last example is a simple C++ program which reads from the camera and displays to a window on the screen using OpenCV:

$ g++ -std=c++11 -Wall -I/usr/lib/opencv -I/usr/include/opencv4 simple_camera.cpp -L/usr/lib -lopencv_core -lopencv_highgui -lopencv_videoio -o simple_camera

$ ./simple_camera

This program is a simple outline, and does not handle needed error checking well. For better C++ code, use https://github.com/dusty-nv/jetson-utils

Notes

Camera Image Formats

You can use v4l2-ctl to determine the camera capabilities. v4l2-ctl is in the v4l-utils: ``` $ sudo apt-get install v4l-utils ``` For the Raspberry Pi V2 camera, a typical output is (assuming the camera is /dev/video0):
$ v4l2-ctl --list-formats-ext
ioctl: VIDIOC_ENUM_FMT
	Index       : 0
	Type        : Video Capture
	Pixel Format: 'RG10'
	Name        : 10-bit Bayer RGRG/GBGB
		Size: Discrete 3280x2464
			Interval: Discrete 0.048s (21.000 fps)
		Size: Discrete 3280x1848
			Interval: Discrete 0.036s (28.000 fps)
		Size: Discrete 1920x1080
			Interval: Discrete 0.033s (30.000 fps)
		Size: Discrete 1280x720
			Interval: Discrete 0.017s (60.000 fps)
		Size: Discrete 1280x720
			Interval: Discrete 0.017s (60.000 fps)

GStreamer Parameter

For the GStreamer pipeline, the nvvidconv flip-method parameter can rotate/flip the image. This is useful when the mounting of the camera is of a different orientation than the default.

flip-method         : video flip methods
                        flags: readable, writable, controllable
                        Enum "GstNvVideoFlipMethod" Default: 0, "none"
                           (0): none             - Identity (no rotation)
                           (1): counterclockwise - Rotate counter-clockwise 90 degrees
                           (2): rotate-180       - Rotate 180 degrees
                           (3): clockwise        - Rotate clockwise 90 degrees
                           (4): horizontal-flip  - Flip horizontally
                           (5): upper-right-diagonal - Flip across upper right/lower left diagonal
                           (6): vertical-flip    - Flip vertically
                           (7): upper-left-diagonal - Flip across upper left/low

OpenCV and Python

Starting with L4T 32.2.1 / JetPack 4.2.2, GStreamer support is built in to OpenCV. The OpenCV version is 3.3.1 for those versions. Please note that if you are using earlier versions of OpenCV (most likely installed from the Ubuntu repository), you will get 'Unable to open camera' errors.
If you can open the camera in GStreamer from the command line, and have issues opening the camera in Python, check the OpenCV version.
>>>cv2.__version__

Release Notes

v3.2 Release January, 2022

  • Add Exception handling to Python code
  • Faster GStreamer pipelines, better performance
  • Better naming of variables, simplification
  • Remove Instrumented examples
  • L4T 32.6.1 (JetPack 4.5)
  • OpenCV 4.4.1
  • Python3
  • Tested on Jetson Nano B01, Jetson Xavier NX
  • Tested with Raspberry Pi V2 cameras

v3.11 Release April, 2020

  • Release both cameras in dual camera example (bug-fix)

v3.1 Release March, 2020

  • L4T 32.3.1 (JetPack 4.3)
  • OpenCV 4.1.1
  • Tested on Jetson Nano B01
  • Tested with Raspberry Pi v2 cameras

v3.0 December 2019

  • L4T 32.3.1
  • OpenCV 4.1.1.
  • Tested with Raspberry Pi v2 camera

v2.0 Release September, 2019

  • L4T 32.2.1 (JetPack 4.2.2)
  • OpenCV 3.3.1
  • Tested on Jetson Nano

Initial Release (v1.0) March, 2019

  • L4T 32.1.0 (JetPack 4.2)
  • Tested on Jetson Nano

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