.. vim: set fileencoding=utf-8 : .. _bob.bio.face.leaderboard.multipie: ================ Multipie Dataset ================ .. todo:: Benchmarks on Multipie Database Probably for Manuel's students Database ======== The `CMU Multi-PIE face database `_ contains more than 750,000 images of 337 people recorded in up to four sessions over the span of five months. Subjects were imaged under 15 view points and 19 illumination conditions while displaying a range of facial expressions. In addition, high resolution frontal images were acquired as well. In total, the database contains more than 305 GB of face data. Content ******* The data has been recorded over 4 sessions. For each session, the subjects were asked to display a few different expressions. For each of those expressions, a complete set of 30 pictures is captured that includes 15 different view points times 20 different illumination conditions (18 with various flashes, plus 2 pictures with no flash at all). Available expressions --------------------- * Session 1 : *neutral*, *smile* * Session 2 : *neutral*, *surprise*, *squint* * Session 3 : *neutral*, *smile*, *disgust* * Session 4 : *neutral*, *neutral*, *scream*. Camera and flash positioning ---------------------------- The different view points are obtained by a set of 13 cameras located at head height, spaced at 15° intervals, from the -90° to the 90° angle, plus 2 additional cameras located above the subject to simulate a typical surveillance view. A flash coincides with each camera, and 3 additional flashes are positioned above the subject, for a total of 18 different possible flashes. The following picture showcase the positioning of the cameras (in yellow) and of the flashes (in white). .. image:: img/multipie/multipie_setup.jpg :width: 620px :align: center :height: 200px :alt: Multipie setup File paths ---------- The data directory structure and filenames adopt the following structure: .. code-block:: shell session/multiview////____.png For example, the file .. code-block:: shell session02/multiview/001/02/05_1/001_02_02_051_07.png corresponds to * Subject 001 * Session 2 * Second recording -> Expression is *surprise* * Camera 05_1 -> Frontal view * Shot 07 -> Illumination through the frontal flash Protocols ********* Expression protocol ------------------- **Protocol E** * Only frontal view (camera 05_1); only no-flash (shot 0) * Enrolled : 1x neutral expression (session 1; recording 1) * Probes : 4x neutral expression + other expressions (session 2, 3, 4; all recordings) Pose protocol ------------- **Protocol P** * Only neutral expression (recording 1 from each session, + recording 2 from session 4); only no-flash (shot 0) * Enrolled : 1x frontal view (session 1; camera 05_1) * Probes : all views from cameras at head height (i.e excluding 08_1 and 19_1), including camera 05_1 from session 2,3,4. Illumination protocols ---------------------- N.B : shot 19 is never used in those protocols as it is redundant with shot 0 (both are no-flash). **Protocol M** * Only frontal view (camera 05_1); only neutral expression (recording 1 from each session, + recording 2 from session 4) * Enrolled : no-flash (session 1; shot 0) * Probes : no-flash (session 2, 3, 4; shot 0) **Protocol U** * Only frontal view (camera 05_1); only neutral expression (recording 1 from each session, + recording 2 from session 4) * Enrolled : no-flash (session 1; shot 0) * Probes : all shots from session 2, 3, 4, including shot 0. **Protocol G** * Only frontal view (camera 05_1); only neutral expression (recording 1 from each session, + recording 2 from session 4) * Enrolled : all shots (session 1; all shots) * Probes : all shots from session 2, 3, 4. Benchmarks ========== Run the baselines ***************** You can run the Multipie baselines command with a simple command such as: .. code-block:: bash bob bio pipeline vanilla-biometrics multipie gabor_graph -m -l sge Note that the default protocol implemented in the resource is the U protocol. The pose protocol is also available using .. code-block:: bash bob bio pipeline vanilla-biometrics multipie_pose gabor_graph -m -l sge For the other protocols, one has to define its own configuration file (e.g.: *multipie_M.py*) as follows: .. code-block:: python from bob.bio.face.database import MultipieDatabase database = MultipieDatabase(protocol="M") then point to it when calling the pipeline execution: .. code-block:: bash bob bio pipeline vanilla-biometrics multipie_M.py gabor_graph -m -l sge Leaderboard *********** Protocol M ---------- .. csv-table:: Protocol M :file: table/multipie/multipie_M.csv :header-rows: 1 .. image:: img/multipie/multipie_M_DET_dev.png :align: center :alt: Multipie M - DET dev .. image:: img/multipie/multipie_M_DET_eval.png :align: center :alt: Multipie M - DET eval Protocol U ---------- .. csv-table:: Protocol U :file: table/multipie/multipie_U.csv :header-rows: 1 .. image:: img/multipie/multipie_U_DET_dev.png :align: center :alt: Multipie U - DET dev .. image:: img/multipie/multipie_U_DET_eval.png :align: center :alt: Multipie U - DET eval Protocol E ---------- .. csv-table:: Protocol E :file: table/multipie/multipie_E.csv :header-rows: 1 .. image:: img/multipie/multipie_E_DET_dev.png :align: center :alt: Multipie E - DET dev .. image:: img/multipie/multipie_E_DET_eval.png :align: center :alt: Multipie E - DET eval Protocol P ---------- .. csv-table:: Protocol P :file: table/multipie/multipie_P.csv :header-rows: 1 .. image:: img/multipie/multipie_P_DET_dev.png :align: center :alt: Multipie P - DET dev .. image:: img/multipie/multipie_P_DET_eval.png :align: center :alt: Multipie P - DET eval For the pose protocol specifically, we can perform a more detailed study to assess angle-wise performance of the various FR systems. Hereafter is an example code to run this type of analysis, as well as the results. This code is also available as a Jupytext-compatible .py file under `./script/multipie/pose_analysis.py`, that can be loaded as a Jupyter notebook. .. raw:: html :file: script/multipie/pose_analysis.html