wiki:Other/Summer/2020/SmartIntersection

Version 4 (modified by NicholasMeegan1, 4 years ago) ( diff )

Smart Intersection

    Smart Intersection - daily traffic flow

    Project Website: https://bzz3ru.wixsite.com/smartintersection

    Project Objective

    The goal of this project is to create a method for estimating the statistics for vehicle count/traffic flow into one intersection in New York City. As an example, record videos of the northbound traffic on Amsterdam Avenue, as vehicles are entering the 120th St./Amsterdam Av. intersection. Using YOLOv3 deep learning model, detect and count vehicles as they approach/enter the intersection from south, making sure that there is no double-counting. Use 180 second long video fragments (approximately two traffic light cycles), and repeat up to half a dozen times a day, for a number of workweek/weekend days during the same times of each day. Compare the vehicle count (traffic flow) as a function of the time of the day. Utilize NVIDIA DeepStream deployed on COSMOS GPU compute servers to run the model. The method should be generalizable/expandable to any direction of vehicle movement, when appropriate camera views are available.

    Reading Material

    Week 1 Activities

    • Get ORBIT/COSMOS account and familiarize oneself with the testbed procedures
    • Learn about YOLOv3 deep learning models for object detection
    • Read about NVIDIA DeepStream
    • Explore the image (set of computing tools) available on COSMOS, which uses DeepStream and can deploy YOLOv3
    • Record and save 6 videos during one day (to be repeated when the method is debugged and fully functional)
    • Brainstorm about vehicle counting/traffic flow estimation methodology

    Week 1 Weekly Meeting Presentation: https://docs.google.com/presentation/d/1Sf9hzpo3WQsEPwbhKfic2xWCskH1EViD-3SNb_foouA/edit?usp=sharing

    Week 2 Activities

    • Understand the concepts of object detection in 3D Point Cloud
    • Gain an understanding of NVIDIA’s DeepStream SDK
    • Get comfortable deploying YOLOv3 on the COSMOS testbed
    • Use existing datasets to play around with DeepStream and YOLOv3

    Week 2 Weekly Meeting Presentation: https://docs.google.com/presentation/d/1Cl8MbsSU3ZAq5lpRuE0eVBSwnIX4jTUAci5uAgP7Vt8/edit?usp=sharing

    Week 2 Team Meeting Presentation: https://docs.google.com/presentation/d/1O2yCze4fmVOAFGCi0u6WTZq8VTFhLc_J448skeygguw/edit?usp=sharing

    Week 3 Activities

    • Investigate existing RGB-D (RGB + depth map) object detectors whose models we can immediately put to use for inference
    • Look into existing 3D Point Cloud object detection implementations
    • Learn how to run DeepStream's YOLOv3 implementation
    • Investigate DeepStream Python bindings for use with YOLO

    Week 3 Weekly Meeting Presentation: https://docs.google.com/presentation/d/13vqiw0kkyT0_XPzPv3NiowIvxc22SapfxM_ZbAKn1Cc/edit?usp=sharing

    Week 3 Team Meeting Presentation: https://docs.google.com/presentation/d/1jwq6h05mw1vHt6_C1Br4MM_0LQDZRlIEoSvEasJ5Rsg/edit?usp=sharing

    Week 4 Activities

    • Investigate YOLOv4 and its use with TensorRT
    • Look into getting output/data processing based on the outputs from DeepStream
    • Look into the DeepStream tracker to build on top of
    • Build a presentation slide set to inform the intern class about DeepStream and YOLOv3

    Introduction to DeepStream and YOLOv3 Presentation Slides: To be posted at a later date


    Week 4 Weekly Meeting Presentation: To be posted at a later date

    Week 4 Team Meeting Presentation: To be posted at a later date

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