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AVITRACK Project FP6-502818
INRIA WP1 - Apron Activity Model
WP3 - Scene Tracking
WP4 - Scene Understanding
Brussels, January 17th 2006
Brussels, January 17th 2006
WP1 – Apron Activity Model
Task 1.3 : Formalism for Model Representation Design of a language to describe AVITRACK scenarios
corresponding to servicing operations (e.g. Unloading operation) Design of the following formalisms :
Scene model of the apron (zones of interest, airport walls) Parked vehicles (zones related to parked vehicles) Expected objects in the scene (size of vehicles, aircraft and people) Camera information and algorithms parameters
Task 1.4 : Models creation Creation of the scenario models in collaboration with Silogic
Example of the Unloading Front Operation model
CompositeEvent(UnLoading_Front_Operation,
PhysicalObjects( (v1 : Vehicle), (v2 : Vehicle),
(z1 : Zone), (z2 : Zone), (z3 :Zone))
Components( (c1 : CompositeEvent Loader_Arrival(v1, z1, z2))
(c2 : CompositeEvent Transporter_Arrival(v2, z1, z3))
Constraints( (v1->SubType = LOADER)
(v2->SubType = TRANSPORTER)
(z1->Name = ERA)
(z2->Name = RF_DoorC_Access)
(z3->Name = LOADER_BackZone)
(c1 before c2)))
WP1 – Apron Activity Model
Delivered documents :
Formalism for Scene Model (IN_AVI_03_001) Ontology (IN_AVI_01_020, with Silogic) ORION Scenario Description Language (IN_AVI_03_002)
WP1 – Apron Activity Model
WP3 - Scene Tracking
Task 3.6 : Complex Scene Tracking Objective : Improve Tracking in complex situations (lost of objects,
occlusions, lack of contrast, reflections, shadows…) Long-Term Tracking (LTT)
uses a temporal window (typically 10 to 20 frames) to explore possible tracks for each mobile object
uses specific algorithms for each type of mobile objects (vehicles, people, aircraft)
Global Tracking (GT) global spatio-temporal analysis of mobile object trajectories using a
rules based architecture
Tracking of a vehicle partially detected
Without Global-Tracker - With Global-Tracker
WP3 - Scene Tracking
Deliverables of two software : Long-Term Tracking
on Dec. 04 (first) and Jan. 06 (final)
Global Tracking on June 05 (first) and Jan. 06 (final)
WP3 - Scene Tracking
WP4 - Scene Understanding
Objectives : Development of a software to recognise any type of operations
described by the Scenario Description Language (WP1) Adaptation, recognition and evaluation of specified scenarios
(AVITRACK operations)
Task 4.1 : Basic Event Recognition (e.g. stop of vehicle v) Task 4.2 : Single Vehicle Movement Interpretation (e.g
arrival of vehicle v) Task 4.3 : Interaction Recognition Task 4.4 : Complex Activity Recognition
61 Modelled and recognised scenarios 21 general video events (Task 4.1)
10 primitive states (e.g. person inside a zone) 5 composite states (e.g. vehicle stopped in a zone) 6 primitive events (e.g. vehicle changes zone)
28 scenarios involving a single vehicle (Task 4.2, Task 4.3) 8 scenarios for the GPU (Aircraft Arrival Preparation on 10 seq. ) 8 scenarios for the Tanker (Refuelling operation on 7 seq. ) 3 scenarios for the Aircraft (Aircraft Arrival on 2 seq.) 3 scenarios for the Tow Tractor (Tow Tractor Arrival on 2 seq.) 3 scenarios for the Conveyor (Conveyor Arrival on 2 seq.) 3 scenarios for the Catering (Catering vehicle Arrival on 3 seq.)
WP4 - Scene Understanding
Modelled and recognised scenarios 12 scenarios involving multiple vehicles (Task 4.3,
Task 4.4) 12 scenarios for the Loader and the Transporter
Unloading Front operation (global) recognised on 2 seq. Unloading Front operation (detailed) recognised on 2 seq. Other scenarios : detection of the handler, platform elevation…
WP4 - Scene Understanding
Example of the Unloading Front Operation (global)
CompositeEvent(UnLoading_Front_Global_Operation,
PhysicalObjects( (v1 : Vehicle), (v2 : Vehicle),
(z1 : Zone), (z2 : Zone), (z3 :Zone))
Components( (c1 : CompositeEvent Loader_Arrival(v1, z1, z2))
(c2 : CompositeEvent Transporter_Arrival(v2, z1, z3))
Constraints( (v1->SubType = LOADER)
(v2->SubType = TRANSPORTER)
(z1->Name = ERA)
(z2->Name = RF_DoorC_Access)
(z3->Name = LOADER_BackZone)
(c1 before c2)))
WP4 - Scene Understanding
Example of the Unloading Front Operation (detailed)
CompositeEvent(UnLoading_Front_Detailed_Operation,
PhysicalObjects( (p1 : Person), (v1 : Vehicle), (v2 : Vehicle), (v3 : Vehicle),
(z1 : Zone), (z2 : Zone), (z3 :Zone), (z4 : Zone))
Components( (c1 : CompositeEvent Loader_Arrival(v1, z1, z2))
(c2 : CompositeEvent Transporter_Arrival(v2, z1, z3))
(c3 : CompositeState Worker_Manipulating_Container(p1, v3, v2, z3, z4)))
Constraints( (v1->SubType = LOADER)
(v2->SubType = TRANSPORTER)
(z1->Name = ERA) (z2->Name = RF_DoorC_Access)
(z3->Name = LOADER_BackZone)
(z4->Name = Behind_RF_DoorC_Access)
(c1 before c2)
(c2 before c3)))
WP4 - Scene Understanding
Deliverables Delivery of 2 software :
Basic Event Interpretation delivered on Dec. 04 (first) and Jan. 06 (final)
Understanding Prototype delivered on Dec. 04 (first) and Jan. 06 (final)
Delivery of 2 documents : D4.1-4.2 Scene Understanding First Results on October 04 D4.3-4.4 Scene Understanding for Interaction and Complex
Activity Recognition on June 05
WP4 - Scene Understanding
WP4 - Scene Understanding
Aircraft Arrival Preparation (involving the GPU)recognised on 10 Sequences
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