Hierarchical recognition of daily human actions based on continuous Hidden Markov Models

Mori, Takahide; Segawa, Yushi; Shimosaka, Masamichi; Sato, Tomomasa

doi:10.1109/afgr.2004.1301629

Cited by 33 publications

(16 citation statements)

References 9 publications

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“…Other forms of HMMs have been developed to handle more specific problems associated with HMM based action recognition systems (Liu and Chua 2006;Wilson and Bobick 1999;Oliver et al 2000Oliver et al , 2002Gong 2004, 2006;Gong and Xiang 2003;Antonakaki et al 2009;Kawanaka et al 2006;Chakraborty et al 2008;Herzog and Kruger 2009;Mori et al 2004;Brand et al 1997;Del Rose et al 2011;Zhang et al 2006;Fin et al 1998;Natarajan and Nevatia 2007;Herzog et al 2008). Wilson and Bobick (1999) use a Parametric Hidden Markov Model (PHMM) to recognize gestures.…”

Section: Non-traditional Hidden Markov Modelsmentioning

confidence: 98%

Survey on classifying human actions through visual sensors

Rose¹,

Wagner

2011

Artif Intell Rev

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The ability to predict the intentions of people based solely on their visual actions is a skill only performed by humans and animals. This requires segmentation of items in the field of view, tracking of moving objects, identifying the importance of each object, determining the current role of each important object individually and in collaboration with other objects, relating these objects into a predefined scenario, assessing the selected scenario with the information retrieve, and finally adjusting the scenario to better fit the data. This is all accomplished with great accuracy in less than a few seconds. The intelligence of current computer algorithms has not reached this level of complexity with the accuracy and time constraints that humans and animals have, but there are several research efforts that are working towards this by identifying new algorithms for solving parts of this problem. This survey paper lists several of these efforts that rely mainly on understanding the image processing and classification of a limited number of actions. It divides the activities up into several groups and ends with a discussion of future needs.

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Section: Non-traditional Hidden Markov Modelsmentioning

confidence: 98%

Survey on classifying human actions through visual sensors

Rose¹,

Wagner

2011

Artif Intell Rev

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“…There has been a great deal of interest in models obtained by modifying the HMM structure, to improve the expressive power of the model without complicating the processes of learning or inference. Methods include: coupled HMM's ( [10]; to classify T'ai Chi moves); layered HMM's ( [22]; to represent office activity); hierachies ( [21]; to recognize everyday gesture); HMM's with a global free parameter ( [29]; to model gestures); and entropic HMM's ( [9]; for video puppetry). Building variant HMM's is a way to simplify learning the state transition process from data (if the state space is large, the number of parameters is a problem).…”

Section: Hmm'smentioning

confidence: 99%

Searching Video for Complex Activities with Finite State Models

İkizler

Forsyth

2007

2007 IEEE Conference on Computer Vision and Pattern Recognition

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“…There has been a great deal of interest in models obtained by modifying the HMM structure, to improve the expressive power of the model without complicating the processes of learning or inference. Methods include: coupled HMM's (Brand et al 1997; to classify T'ai Chi moves); layered HMM's (Oliver et al 2004; to represent office activity); hierarchies (Mori et al 2004; to recognize everyday gesture); HMM's with a global free parameter (Wilson and Bobick 1999; to model gestures); and entropic HMM's (Brand and Kettnaker 2000;for video puppetry). Building variant HMM's is a way to simplify learning the state transition process from data (if the state space is large, the number of parameters is a problem).…”

Section: Methods With Explicit Dynamical Methodsmentioning

confidence: 99%

Searching for Complex Human Activities with No Visual Examples

İkizler

Forsyth

2008

Int J Comput Vis

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We describe a method of representing human activities that allows a collection of motions to be queried without examples, using a simple and effective query language. Our approach is based on units of activity at segments of the body, that can be composed across space and across the body to produce complex queries. The presence of search units is inferred automatically by tracking the body, lifting the tracks to 3D and comparing to models trained using motion capture data. Our models of short time scale limb behaviour are built using labelled motion capture set. We show results for a large range of queries applied to a collection of complex motion and activity. We compare with discriminative methods applied to tracker data; our method offers significantly improved performance. We show experimental evidence that our method is robust to view direction and is unaffected by some important changes of clothing.

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Hierarchical recognition of daily human actions based on continuous Hidden Markov Models

Cited by 33 publications

References 9 publications

Survey on classifying human actions through visual sensors

Survey on classifying human actions through visual sensors

Searching Video for Complex Activities with Finite State Models

Searching for Complex Human Activities with No Visual Examples

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