Proj-2013-2014-Sign2Speech-English

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Objective

The goal of our project is to allow speechless people to communicate with a computer thanks to sign langage. Our programm should be able to understand sign langage in order to obey to orders given. Then orders should be displayed under literal form and transformed into vocal signal thanks to a speech synthesis technology.

The programm should also be able to learn new hand movements to increase its database to recognize more ideas.

Software Requirements Specification

The Team

  • Tutor : Didier Donsez
  • Members: Arthur CLERC-GHERARDI, Patrick PEREA

State of the Art

Recognition of sign langage alphabet

Recognition of particular hand movements which mean ideas (ZCam camera)

Recognition of particular hand movements which mean ideas, and the traduction in spanish (OpenCV)

Recognition of particular hand movements which mean ideas (Kinect)

Tools

We will use two different technologies :

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The Leap motion is a device that allow you to control your computer with your hands. But there is no physical contact and the communication with the computer is based on hand movements. You put the Leap motion under your hands, next to the keyboard.

Compared to the Kinect, it is much smaller. The device has a size of 8 x 2,9 x 1,1 cm and a frame repetition rate of 200 Hz (the Kinect has a 30 Hz frame repetition rate). The Leap motion is composed of two webcams of 1,3 MP which film in stereoscopy and three infra-red light LED. It can detect the position of all ten fingers.

The official website has a section for developer. You can download the SDK 1.0 (almost 47 Mo) which contains API for following langages: C++, C#, Java, Python, Objective C and JavaScript. The SDK also contains examples for libraries and functions of the SDK.


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This camera is also a remote controller for the computer. You put it in front of people.

The Creative is provided of depth recognition, which enable developer to do the difference between shots. This camera films at around 30 fps in 720p.

Intel provides also a SDK for developers : [1]. Some of the libraries will help us for hand and fingers tracking and facial recognition.

Gallery

Pictures Gallery

Work in progress

We received the subject of the project the 21 of January (2014). This part will resume our progression.

Week 1 (January 27 - February 2)

  • Discovery of Intel Creative camera
  • Discovery and getting used to Intel SDK
  • Choice of programming language (C++)
  • First program of fingers recognition
  • First matter : Intel SDK is not finished. It gives us methods for fingertips, writs and hand center recognition. But, it can not make the difference between each fingers.
  • First bug detection with the camera : for each picture given by the depth sensor, a same finger can be detected more than once.

Week 2 (February 3 - February 9)

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  • Implementation of an "overlay" for the SDK to have a better fingers recognition. The goal is to know which finger the user is showing to the camera.
  • Correction of the bug : same finger dectected more than once.
  • Getting in contact with Intel through its developer forum.
  • Our camera may have an hardware problem which gives us turbulence on depth sensor picture. It remains to do more tests.
  • Adding of hand calibrator function (implementation not finished)
  • Definition of gestures made of symbols in sign language.
  • Choice of our data structure for symbols and gestures. When the user is doing a symbol with his hands, the program will look into symbols table if it exists. Therefore, the search should be efficient and quick to keep the real-time aspect. Symbols table can have more than hundred symbols.

Week 3 (February 10 - February 16)

  • Implementation of data structures and dichotomous algorithm (complexity O(log n))
  • Implementation of others search algorithm. Then we will compare times between all algorithm to choose ours.
  • Search of a word dictionnary for sign language.
  • "Skype"-like program implementation beginning which will allow a video communication between users on the network. Then, our program will permit yourself to communicate between a mute user and not-mute user. The textual translation will be send to the not-mute user and display on his screen.
  • First draw of program interface

Week 4 (February 10 - February 23)

  • First gesture recognition and display of its textual translation "Africa".
  • Matter : Since few years, Microsoft doesn't allow people to create skype plugins anymore. We wanted to integrate our functionnality Sign2Speech in Skype. So we direct ourselves in the development of "stand-alone" software.
  • Discovery of OpenCV technology to replace the Creative camera because of turbulences :

Advantages : We can use any camera for hand recognition. Camera in every laptops should be fine. Then, users don't need to buy an Intel Creative camera to use our program.

Disadvantages : A first problem can be detected : the speed of picture processing. Shape recognition as hand contour is slower than with Intel technology (with depth sensor). A second matter can be observed : hand position. If you want your hand be recognized, it must not be over user face. Hands and face have then same skin color so contours are not really detected. To have a good detection, the hand must be next to the face, in front of another coloured background. Constraints are too heavy to use this technology. We will stay on Intel technology.

Week 5 (February 24 - March 2)

  • Implementation of movements in our gesture recognition algorithm : thanks to mathematical equations, we can now detect rectilinear, elliptical movements or say if the user doesn't move.
  • Symbol recognition "closed fist", that we can find in many gestures.
  • Discussion about : how save the dictionnary in user HDD. We choose an XML file.
  • Implementation of encryption mecanism to prevent the user to see the XML file. Indead, this file shows how our program is functionning.

Week 6 (March 3 - March 9)

  • Implementation of user interface for our "Skype"-like program.