WO2005104010A2 - Tracking bimanual movements - Google Patents
Tracking bimanual movements Download PDFInfo
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- WO2005104010A2 WO2005104010A2 PCT/US2005/013033 US2005013033W WO2005104010A2 WO 2005104010 A2 WO2005104010 A2 WO 2005104010A2 US 2005013033 W US2005013033 W US 2005013033W WO 2005104010 A2 WO2005104010 A2 WO 2005104010A2
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/20—Movements or behaviour, e.g. gesture recognition
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/20—Movements or behaviour, e.g. gesture recognition
- G06V40/28—Recognition of hand or arm movements, e.g. recognition of deaf sign language
Definitions
- This invention relates to data processing.
- Determining whether directions change may include determining whether each ofthe two hands go, after the occlusion period, to directions from which they came, or to directions opposite from which they came.
- the directions may include one or more of a vertical direction, a horizontal direction, and a diagonal direction.
- Determining a type of synchronization may include determining whether the two hands are positively or negatively synchronized, and determining whether directions change may be further based on whether the two hands are negatively synchronized.
- Determining a type of synchronization may include determining a measure ofthe occluded hands' velocities. The measure may include a standard deviation of a difference of velocities of parallel sides of a rectangle formed to surround the occluded hands.
- FIGS. l(a)-(b) shows three main components of a particular system and a hierarchy for recognizing bimanual movements.
- FIG. 18 shows an abstracted Bayesian network, based on FIG. 17, for the recognition of bimanual movements.
- FIG. 19 shows a 2-state left-to-right Hidden Markov Model assigned to partial gestures.
- Various disclosed implementations exploit one or more neuroscience phenomena for the reacquiring process.
- Particular studies in neuroscience show that the two hands are temporally and spatially coordinated in bimanual movements.
- the components of a hand also are temporally coordinated.
- This temporal and/or spatial coordination can form the basis of an algorithm for tracking and reacquiring hands when hand-hand occlusion occurs.
- the coordination causes the two hands to start, pause, and end their movements simultaneously.
- hand velocities during a bimanual movement are often highly synchronized. This velocity coordination, for example, may be a source of difficulty for beginners learning to play the piano with two hands.
- bimanual synchronization may also make the tracking algorithm of one or more described implementations independent ofthe hand shapes. independence of hand shape and view direction may make a tracking algorithm useful in mobile vision applications (e.g., Active Vision in Robotics).
- the third component 130 includes gesture recognition, and, referring to FIG. 1(b), may be represented by a hierarchical cognitive system 140.
- System 140 analyzes hand shapes at a bottom level 150, which may use image analysis and pattern recognition for hand shape extraction and detection.
- System 140 learns the individual partial movement of each hand at an intermediate level 160, using, for example, spatio- temporal single-hand gesture recognition.
- System 140 combines the partial movements at a top level 170 to recognize the whole movement.
- Equation 4 is expanded to Equation 7 for z-1, 2.
- the occlusion alarm is set 4. In the next captured image if only one hand is detected by Grassfire and the occlusion alarm is already set the hand-hand occlusion is assumed to have happened. Otherwise, if we see one hand in the image and the occlusion alarm is not set, the other type of occlusion (e.g., occlusion by apart of body or leaving the scene) is assumed to have happened. One or more variables may be set to indicate that occlusion of a particular type has been detected 5. Image capturing is continued
- Temporal coordination implies that the hands' velocities are synchronized in bimanual movements. Also, the hands' pauses happen simultaneously. We may exploit the hands' temporal coordination to track the hands in the presence of occlusion.
- V c x c : velocity of side c
- the hand shapes may change during an occlusion period.
- the fingers may also move simultaneously so that the shape ofthe hand changes.
- the movement of fingers may be considered in an attempt to detect simultaneous pauses ofthe hands.
- Research shows that fingers and hand are coordinated too in the movement of one hand. In other words, the hand and fingers are temporally synchronized.
- Our experiment shows that the velocity ofthe hand and the velocity of the fingers are highly synchronized with almost no phase difference. Therefore, the pauses ofthe hand and the pauses ofthe fingers that change the hand shape may be expected to happen simultaneously.
- the above algorithm tracks the hands during a hand-hand occlusion and makes a decision on the positions ofthe hands at the end of occlusion with respect to their positions prior to occlusion.
- the above algorithm 2 may be modified in various ways to provide information on the position ofthe hands after occlusion.
- the form of algorithm 2 presented above typically provides enough information to distinguish the left and right hands after occlusion.
- FIG. 16 an example of a segmented bimanual movement is illustrated in window 1610 over the time axis.
- the movement starts and ends in non-occlusion segments
- other implementations extend the algorithm to other cases.
- the process is the same with only one segment (a beginning segment) for the whole gesture.
- FIG. 16 there are 3 occlusion segments labelled "B,” and 2 middle segments labelled “C,” as well as a beginning segment labelled "A” and an ending segment labelled “D".
- the implementation is able to deal with multiple occlusion and middle segments as well as the beginning and the ending segments in order to understand the whole bimanual movement.
- every node is a vector with length g, as shown with vectors 1720a, 1735a, and 1750a.
- the three top nodes of Bimanual Gesture, Left Hand Gesture, and Right Hand Gesture are non-evidence nodes updated by the messages communicated by the evidence nodes.
- the evidence nodes are fed by the Hidden Markov Models of different segments separately, as shown with models 1755a, 1755g, 1760a, 1760g, 1765a, and 1765g.
- an eigenspace for each hand.
- An eigenspace is made by using a set of training images of a hand in a given segment and Principal Component Analysis.
- the covariance matrix ofthe set of images is made and the eigenvalues and eigenvectors ofthe covariance matrix are calculated.
- the set of eigenvectors associated with the largest eigenvalues are chosen to form the eigenspace.
- the projection ofthe set of training images into the eigenspace is the Principal Components.
- a separate eigenspace is created, also, for the occlusion segments. These eigenspaces are made by the movements in the training set. By projecting all the images of one hand into its own eigenspace a cloud of points is created. Another dimension is also added to the subspaces which is the motion vector extracted using the regional-map.
- a set of codewords is extracted for each eigenspace using Vector Quantization.
- the set of extracted codewords in each eigenspace is used for both training and recognition.
- By projecting a segment of a gesture into the co ⁇ esponding eigenspace a sequence of codewords is extracted.
- the given partial gesture is the middle segment of gesture number 2 in the vocabulary, calculated by the HMM ofthe middle segment of the left hand of gesture number 2 and so on.
- the nodes ' beliefs are updated by the belief propagation algorithm
- the storage device 2230 such as, for example, a database, contains the training information required by the tracking and recognition algorithms. Storage device 2230 may also store the code for the algorithms. During a training phase the training information of the tracking algorithm including the threshold values and distributions are stored in the storage device 2230.
- a process 2300 may be used to recognize bimanual gestures, and includes many Operations discussed in this disclosure.
- Process 2300 includes receiving or otherwise accessing a series of images of a bimanual gesture (2310). Left and right hands are extracted and tracked from the received images (2320) and a hand-hand occlusion is predicted (2330).
- One variation of process 2300 may be performed by a plug-in to a bimanual gesture recognition engine.
- the plug-in may perform some variation of tracking a blob (2345), determining a type of synchronization (2350), and determining whether the two hands change their direction of travel during the occlusion period.
- a plug-in may be used with a gesture recognition engine that is unable to deal with hand-hand occlusion.
- the gesture recognition engine may track the left and right hands until a hand-hand occlusion occurs, then call the plug-in.
- the plug-in may track the blob, determine if the two hands changed direction during the occlusion, and then transfer control ofthe recognition process back to the gesture recognition engine. In transferring control back to the gesture recognition engine, the plug-in may tell the gesture recognition engine whether the two hands changed direction during the occlusion.
- the gesture recognition engine can reacquire the left and right hands and continue tracking the two hands.
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- General Health & Medical Sciences (AREA)
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- Social Psychology (AREA)
- Health & Medical Sciences (AREA)
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Abstract
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Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2007508608A JP4708422B2 (en) | 2004-04-15 | 2005-04-15 | Tracking of two-hand movement |
EP05733722A EP1743277A4 (en) | 2004-04-15 | 2005-04-15 | Tracking bimanual movements |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US56232604P | 2004-04-15 | 2004-04-15 | |
US60/562,326 | 2004-04-15 |
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WO2005104010A2 true WO2005104010A2 (en) | 2005-11-03 |
WO2005104010A3 WO2005104010A3 (en) | 2007-05-31 |
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PCT/US2005/013033 WO2005104010A2 (en) | 2004-04-15 | 2005-04-15 | Tracking bimanual movements |
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US (3) | US7379563B2 (en) |
EP (1) | EP1743277A4 (en) |
JP (1) | JP4708422B2 (en) |
CN (1) | CN100573548C (en) |
WO (1) | WO2005104010A2 (en) |
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CN100573548C (en) | 2009-12-23 |
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