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OpenMV

Python-powered machine vision modules

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The OpenMV project aims at making machine vision more accessible to beginners by developing a user-friendly, open-source, low-cost machine vision platform.

OpenMV cameras are programmable in Python3 and come with an extensive set of image processing functions such as face detection, keypoints descriptors, color tracking, QR and Bar codes decoding, AprilTags, GIF and MJPEG recording and more.

Additionally, OpenMV includes a cross-platform IDE (based on Qt Creator) designed specifically to support programmable cameras. The IDE allows viewing the camera's frame buffer, accessing sensor controls, uploading scripts to the camera via serial over USB (or WiFi/BLE if available) and includes a set of image processing tools to generate tags, thresholds, keypoints etc...

The OpenMV project is a THP semifinalist and was successfully funded via Kickstarter back in 2015 and has come a long way since then.

Overview:

  • Scriptable in Python3.
  • On board uSD Card or internal Flash storage for scripts, images and video.
  • RGB, YUV and JPEG Omnivision sensors (OV2640 and OV7725).
  • Recording and Streaming GIF and MJPEG to SD or external WiFi shield.
  • Extension Header breaks out UART, I2C, SPI, PWM, DAC and ADC.
  • User-friendly Python IDE to view the framebuffer and upload scripts to the camera.
  • 16MB SDRAM on-board enables uClinux to run on OpenMV2.
  • Image processing library includes:
    • Line, circle, rectangle detection.
    • Face detection with VJ (compatible with OpenCV's cascades)
    • ORB keypoints detector, descriptor, matching and tracking.
    • QR and Bar codes decoding and AprilTags support.
    • Template matching with Normalized Cross Correlation (NCC) 
    • Misc functions: kmeans, filters, scaling, sub-image, blitting and alpha blending.

The Hardware:

  • Processor: Based on STM32F ARM Cortex-M Digital Signal Controllers (DSCs) running at 168-216MHz. Features a single precision FPU, DSP instructions and a DCMI (Digital Camera Interface). The low-cost, the HW camera interface and the FPU and DSP made this particular controller a perfect match for the project.
  • Image Sensor: OpenMV1 supports many single package lens/sensors, such as the OV965x and OV2640 while OpenMV2 and OpenMV3 support a single sensor with an external lens.
  • PCB: Although it costs more, a 4-layer PCB is used for all cameras for better signal integrity and EMI issues. Additionally, using 4-layers made it possible to fit everything on the 1.0x1.3 inches OpenMV1 board. The first PCB prototypes were all ordered from OSHPark.
  • Debugging and Flashing Firmware: The Serial Wire Debugging (SWD) is broken out on all cameras for debugging with GDB and the DFU is easily accessible to upload new firmware images via USB. Additionally, the camera includes a bootloader that can be used from the IDE to easily upload new firmware images.
  • I/O Headers and Shields: The main 2.54mm headers break out SPI, I2C, USART, PWM, CAN, DAC and ADC. These headers allow interfacing extension boards (or Shields) to OpenMV to extend its capabilities.  For example, using SPI LCD with OpenMV camera to view the framebuffer:


  • The WiFi Shield:  Using the WiFi Shield gives OpenMV the ability to connect to the internet. It features an ATWINC1500 FCC Certified WiFi module which can transmit data at up to 48Mbps making it perfect for streaming video:


The Software:

OpenMV uses a lot of cool open-source software including MicroPython, ChaN's FatFS, ARM's DSP/Math libraries etc.. And it's completely programmable in Python 3! OpenMV can run Python scripts that have access to peripherals (SPI/I2C/UART, CAN, PWM, ADC and DAC), uSD filesystem, wireless, and the image processing library.

The IDE:

OpenMV includes a cross-platform IDE (based on Qt Creator) designed specifically to support programmable cameras. The IDE allows viewing the camera's frame buffer, accessing sensor controls, uploading scripts to the camera via serial over USB (or WiFi/BLE if available) and includes a set of image processing tools to generate tags, thresholds, keypoints etc..

OpenMV 1, 2 and 3:

The OpenMV1 was based on STM32F4 running at 168MHz with very small RAM and Flash. The main advantage of OpenMV1 was small form factor (1.0" x 1.3").  OpenMV2 used the newer STM32F429 runing at 180MHz, with more built-in SRAM, external 16MB SDRAM, external lens for the sensor, 2xIR LEDs, 2xServo headers and 20 I/Os. Finally, OpenMV3 uses the latest Cortex-M7 and is currently in production (see full specs below).


OpenMV1 Specs:

  • MCU (STM32F407): 168MHz, FPU, DSP, DCMI.
  • RAM: 512KB SRAM Flash: 512KBs
  • Image Sensor(s): OV965x (1.3MP) and OV2640 (2MP/JPEG)
  • I/O: USART, SPI, I2C and PWM.
  • USB: 2.0 FS.
  • SD Card: SPI.
  • Power Consumption: 120mA typical.
  • Dimensions: 1.0" x 1.3"

OpenMV2...

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  • 1 × STM32F4xx MCU ARM Cortex-M4 FPU DSP 168/180MHz
  • 1 × OV2640 CMOS 2MP/RGB/YUV/JPEG
  • 1 × 24LC128 I2C EEPROM 128KBIT 400KHZ 8MSOP
  • 1 × CRYSTAL 12MHz 12PF SMD 2.5x2.0
  • 1 × ADP222ACPZ PM/REG LDO 3.3v/2.5V 16LFCSP

View all 10 components

  • Introducing the New OpenMV-H7

    i.abdalkader09/21/2018 at 01:38 0 comments

    Hey everyone, I would like to introduce you to our next generation cameras, the OpenMV-H7. First, apologies are due for not updating this project more frequently, but it's been really hard keeping track of everything from the website to forums and emails, while keeping the software/firmware releases on schedule.  Anyway, the new OpenMV-H7 is our latest and greatest camera, designed to support prototyping multiple sensors, including the OV7725, MT9V03x Global shutter sensor and the FLIR 1, 2 and 3 thermal sensors! 

    Additionally, we're using a better uSD card socket, a high efficiency switching regulator (up to 1A), a low noise LDO for sensor analog supply and we've added a LiPo battery connector on board. The new OpenMV-H7 is still backward compatible with all the shields designed for OpenMV-F4 and OpenMV-F7. Software-wise, we now have neural network support, WiFi programming support, generally more stable firmware/software and a new UVC (webcam) firmware is coming soon.

    The new OpenMV-H7 will be release in March, if you'd like to support OpenMV and pre-order the new OpenMV-H7 please back our Kickstarter: https://kck.st/2ps2Pgx

  • OpenMV Kickstarter

    i.abdalkader01/26/2015 at 17:54 4 comments

    The OpenMV Kickstarter is finally live! Check it out http://bit.ly/openmvcam

  • OpenMV1 Prototypes

    i.abdalkader09/16/2014 at 22:18 0 comments

    We're making a small batch of OpenMV1 prototypes for beta testing, if anyone's interested, they're available now for preorder on Tindie:

    https://www.tindie.com/products/bot_thoughts/openmv-cam/

    We're only making a few of them (10-30) so the costs are higher, hopefully there will be a bigger run in the future.

  • OpenMV on Quadcopter

    i.abdalkader09/13/2014 at 15:11 4 comments

    Just got my hands on a small quad, I was think this would be the perfect application for a tiny camera like OpenMV, now all I need is an open place to record some videos from the quad :)

  • FAST/FREAK Keypoint Detection

    i.abdalkader09/11/2014 at 12:40 3 comments

    Feature/Keypoints detection is a very interesting and useful tool to have around when doing image processing,  it has endless applications from tracking objects, matching and searching images to more advanced stuff...So far I've been using SURF for this, but other than being complicated and very resource consuming, the algorithm itself is patented in the US and cannot be used for commercial stuff without a license, in addition to that, the only implementation I could find (libopensurf) is GPL'd..

    So I removed all SURF code from the repo and I'm using this relatively new super fast/lightweight algorithm, called FREAK....Note that FREAK is a keypoint descriptor, so it needs something to find keypoints first, for this I'm using a corner detection algorithm called FAST.

    To give you an idea of what you can do with this FAST/FREAK detector, I made this short video:

  • Blob Detection Revised

    i.abdalkader09/06/2014 at 00:37 0 comments

    Made some improvements to the blob detection code, it now assigns unique IDs/Labels to every detected color, based on its index, so you can identify detected blobs with their IDs. It's also faster, and uses memory much more efficiently... Here's a short video of the result:

  • Thermal Imaging/Night Vision

    i.abdalkader08/28/2014 at 00:00 5 comments

    So it seems like there are a few thermal imagers out there that made it through, so for the sake of completeness (and to eliminate the competition :D) I finished up my thermal imaging code...Here's a short video showing thermal/night vision:

    To produce the final image, temperature readings are normalized, then converted to a rainbow (using a lookup table) and then scaled up (using bilinear interpolation) and finally, the thermal image is alpha blended into an RGB image and sent to the LCD...The result looks something like this:

  • OpenMV2 Thermal, LCD and WiFi Shields

    i.abdalkader08/16/2014 at 10:03 0 comments

    So I've been quite busy making some new shields for OMV2, I have not tested everything yet, but it's looking good, so far I made a CC3000, LCD and thermal IR sensor (MLX90620) shields :

    Shields that are small enough, or that have anything to do with imaging (like the thermal shield), are designed to be installed on the front side of the camera, others, like the LCD or battery pack are designed as backpacks. 

    A few of the shields are designed to work together, like the thermal and LCD shields, so it's possible for example, to connect the LCD and have a portable thermo cam:

    Now with the HW out of the way, moving on to more glorious conquests...

  • Running uClinux on OpenMV2

    i.abdalkader08/06/2014 at 19:01 0 comments

    One of the perks of having an SDRAM on board is being able to run full fledged OSes, like uClinux, which require at least a few MBs of RAM to work...uClinux, if you're not familiar with it, is an MMU-less variant of Linux, which means it can run on low-end micros, like the STM32, that don't have an MMU.

    Original support of the STM32 micros has been added by emcraft, and a few contributors on ST forums, the kernel is configured to XIP (execute in place) so it's not relocated to SDRAM and runs directly from flash (the 2MBs of flash hosts the u-boot bootloader, kernel image and the romfs) access to the on-chip flash is pretty fast, it takes, in theory, 0-wait states.

    So with that as my starting point, I made a few changes to u-boot and the kernel, enabled SDIO, and few other interfaces, to make things work on OMV2, I also made a few tweaks to fbtft and built it in the kernel, and here's the result :)

    It takes less than 1 sec to boot, I think that's awesome.. anyway, the LCD is a JD-T1800, I designed this shield for OMV2, it has a light sensor on board which you can read to control the LCD brightness and a few passives...(I'm still waiting for stackable headers, so had to solder the wires to the board):

    I'll keep playing with that for a while, see what more I can do, next, I will probably try to get the DCMI and USB working and maybe I will try to run OpenCV :)...

  • Night Vision, SDIO/SDRAM and Focal Length

    i.abdalkader07/22/2014 at 08:34 0 comments

    So I've been doing some testing with the new OpenMV, I'm very satisfied with the results so far, after replacing the broken sensor, I couldn't wait to test the IR LEDs/Lens, here's a snapshot taken in complete darkness:

    Next, I messed around with the lens trying to see how close I can get to objects (varying the focal length), here's a couple of shots of 402's a few mm from the lens:

    This one is taken under IR:

    With the optics out of the way, I moved on to testing the SDIO/SDRAM.. Unlike OpenMV1, OMV2 uses a 4-bit SDIO running at 48MHz, to interface the uSD, it's pretty fast, I did some testing by recording a video, reading/writing files etc...

    Finally, the SDRAM, fixed the linker script to map the new memory, did some simple tests, writing/reading values, poking with gdb, seems to be working fine, but just to be sure, I'm going to write/find a proper SDRAM test and run it before relocating stuff to SDRAM.

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DD wrote 07/04/2014 at 18:13 point
do you think it would be possible to mount C-mount lenses ?
( might just need a mounting ring and removing the existing small one )

  Are you sure? yes | no

i.abdalkader wrote 07/04/2014 at 19:55 point
I don't think so, the lens can be removed easily, but there's no space on board for an external one, I'm not worried to much about that, because the point is to keep the small one as cheap as possible, the new one (OpenMV2) has external lens though.

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pierre.lecorre wrote 07/04/2014 at 12:10 point
I just deleted my comment by mistake ><, By the way that's great that you consider crowdfunding, have you any idea of when will it be released?

Keep going, your project is great !

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i.abdalkader wrote 07/04/2014 at 19:53 point
Thanks :) I'm not sure yet, we'll do a round of testing first, get more feedback, and then see what to do.

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Eric Tsai wrote 07/04/2014 at 00:54 point
That's very impressive.

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i.abdalkader wrote 07/03/2014 at 03:49 point
I am considering it for both cameras, but I wanted to wait and see how this works out first, it's also a good opportunity to get more feedback and more people involved with the project in this early stage.

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tobi wrote 06/27/2014 at 09:58 point
how can i get the chip

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i.abdalkader wrote 07/03/2014 at 03:50 point
Mouser/Digikey you might also find on ebay/aliexpress.

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regiscruzbr wrote 06/27/2014 at 01:18 point
Cool stuff.

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drsmith900 wrote 06/20/2014 at 23:04 point
Top stuff. Having used the pixy, I am really looking forward to a board that lets you play around with the image processing software and do more than find colors. The estimated pricing on this thing is very attractive as well! I'm really keen for the next release.

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i.abdalkader wrote 06/21/2014 at 09:00 point
Thank you :)

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vcazan wrote 06/20/2014 at 20:50 point
This is amazing. Is there any way to buy / make this?

  Are you sure? yes | no

i.abdalkader wrote 06/21/2014 at 09:00 point
no not yet, sorry :) but you can build one if you want, the git repo it has everything you need, rev-4 is the last one I tested.

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gcarlocp wrote 06/11/2014 at 16:26 point
I don't know how they do, this seen to be a production cost product http://www.amazon.com/Dash-D140-Unlocked-Dual-Phone/dp/B00FJBFTDS/, $50 phone with 2MP photo, 480p video, 256 MB RAM, 512 MB flash, Cortex-A5 with Mali-400MP and a BATTERY. if you remove touchscreen, GSM components and other stuff you will have a powerful smart-camera. have you thought use a Cortex-A5 with GPU in next version board?

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i.abdalkader wrote 06/11/2014 at 18:25 point
yes I have something in mind, but let's see how this works out first.

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0miker0 wrote 06/09/2014 at 11:44 point
On the hardware side I was surprised to see the BGA pads on an OSH Park pcb. What size drill hole and pad are you using to dog bone breakout the part? I think 4 layer boards have smaller via/pad sized then regular 2 layer boards.

  Are you sure? yes | no

i.abdalkader wrote 06/09/2014 at 17:23 point
10mil drill, pad size is 0.34x0.34mm I think. OSHPark have better specs now, 10mil drill/4mil restring, 5mil trace, 5mil clearance.

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Christoph wrote 06/09/2014 at 10:40 point
This looks great indeed!

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i.abdalkader wrote 06/11/2014 at 18:26 point
Thanks :)

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matej.kupljen wrote 06/09/2014 at 08:53 point
Is it possible to add a battery for RTC power back-up?
Or at least leave VBAT pin from SoC connected over 0 ohm resistor?

  Are you sure? yes | no

i.abdalkader wrote 06/09/2014 at 09:10 point
there's some space for a small battery holder, I tied VBAT to VDD, but I will find a way to break it out on the next rev

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Adam Fabio wrote 06/09/2014 at 02:16 point
Thanks for submitting OpenMV to The Hackaday Prize! You're doing a great job documenting your work for the project. Do you have a few more shots taken from the onboard camera? I'm going to be following this closely - I'd love a low cost simple machine vision solution!

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i.abdalkader wrote 06/09/2014 at 04:40 point
Thanks :) I will post more pictures next update

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jarodthelinuxguy wrote 06/07/2014 at 19:32 point
I would buy several of these at around $20-30 easily. I've been looking for some reasonable way to install some security cameras around my home, I'd love to be able to see if someone is in my driveway without having to walk all the way upstairs and over to a window...

Wow I sound lazy. But regardless, I'm very impressed, from what I can read it can easily do motion detection, and can save to a microsd, or if the wifi option was chosen (I'd have to have wifi) it could stream live to an android or other device capable, such as a pc, or possibly even to a page on my DD-wrt router.

Even the potential for putting one in my car as a dashcam, or facing the interior to see if anyone messes with it while I'm at work.

Awesome, Keep us posted!!!

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pfeffer.marius wrote 06/07/2014 at 13:28 point
Nice project !
I would like to see it with an optional (the camera module on its own can be sold cheaper this way) wireless module on kickstarter or indiegogo :)

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i.abdalkader wrote 06/07/2014 at 17:15 point
The WiFi/BLE is optional :)

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salmanisheikh wrote 06/07/2014 at 10:11 point
Kickstarter?

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i.abdalkader wrote 06/07/2014 at 17:15 point
soon! hopefully :)

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Abhi wrote 06/07/2014 at 08:42 point
Is it possible to make this module in 20 mega pixel sensor for photogrammetry using multiple. Please advice.

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darkforce314 wrote 06/06/2014 at 23:11 point
You can produce this module? If it costs 20-30$ i'll buy 3-4! :)

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i.abdalkader wrote 06/07/2014 at 02:35 point
yes, we have the technology :)

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darkforce314 wrote 06/12/2014 at 23:29 point
Thanks! I love that type of news!

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Norse wrote 06/06/2014 at 21:26 point
This is really cool. I too give you a skull.

I am working on a project that would greatly benefit from something as low cost as this. Are you planning on crowd funding this project in any way? From what I understand you need to mass produce them to hit the $20 price point.

  Are you sure? yes | no

Neil Jansen wrote 06/06/2014 at 20:39 point
If you can pull this off, I'd love to integrate this into our $300 pick and place. It's a perfect match for what we're doing.

Skulled, good luck!

  Are you sure? yes | no

i.abdalkader wrote 06/06/2014 at 21:11 point
Awesome! thanks :) will keep you posted.

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