Ruggedized Camera Encoder Agenda Team Introduction Code of - PowerPoint PPT Presentation

Ruggedized Camera Encoder

Agenda Team Introduction ◈ Code of Ethics ◈ Project Background ◈ Current Application ◈ Problem Statement ◈ Projected Application ◈ Customer Requirements ◈ Engineering Requirements ◈ Project Plan ◈ Risk Assessment ◈ Questions? ◈ P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

The Team Matthew Hornyak – Mechanical Engineer Alonzo Moreno – Mechanical Engineer Jordan O’Connor – Electrical Engineer Lennard Streat – Computer Engineer Kyle Jason – Electrical Engineer (TL) P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Code of Ethics Expectations ◈ ◈ Punctual, Respectful, and Good Communication Distribution of Work ◈ ◈ Task List Roles ◈ ◈ Team Lead, Liaisons, and Scribe Making Decisions ◈ ◈ Majority Conflict Management ◈ P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Project Background A small high-res camera was designed in MSD project P13571 in 2012-13 for D3 ◈ Engineering Our job is to do real-time video analytics using that camera as a demonstration, ◈ while also passing the data stream to the D3 Design Core module for display, storage and further debugging. D3 Engineering would like this to be a modular project, which has the ability to ◈ adapt to many different applications. Market is wide open as new regulations for vehicles and security are requiring ◈ advanced video analytics for a faster response to certain situations. P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Current Applications / Technology Automatic Number Plate Recognition (ANPR) using Optical Character Recognition ◈ (OCR) New ‘Intelligent Security Cameras’ that can zoom and take quick snapshots of a ◈ person’s face in many different locations (outdoor/indoor or day/night). P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Problem Statement A Ruggedized Camera Encoder (RCE) is a compact and robust system that analyzes a stream of image data in real-time. Typically, video analytics are completed using post processing techniques on a unit that is separate from the camera stream. This system will eliminate the need for post processing which cuts down on turnaround time and the need for a secondary system. The goal of this project is to deliver a working prototype that will have a small enclosure (tabletop) with two tethered camera inputs, acquiring HD 1080p 30fps image data. The system will be capable of processing the image data in real-time running different video analytics algorithms. It will be capable of streaming compressed image data over GigE to a standard video client for diagnostics. Currently, the encoder used is more ideal for lab use and not real-world applications desired by the customer such as, police vehicles or military uses. The encoder should also be easily able to interface with other devices and not just cameras. P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Future Applications / Specific Applications A device that will be able to be used in more than just one application, and also be ◈ able to multitask with many different input streams. Realtime video/data analytics for any type of recognition, scanning or sensing. ◈ Smart, adaptable systems that are rugged enough for even the most remote ◈ applications. Cop car, smart traffic light, military, security, production. ◈ P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Customer Requirements P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Engineering Requirements P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Requirement Priority Matrix P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

Project Plan P14571 - Ruggedized Camera Encoder

Risk Assessment P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014

P14571 - Ruggedized Camera Encoder Wednesday, February 12, 2014