Abnormal event detection in video surveillance / Lim Mei Kuan
The recent Boston Marathon bombing and the kidnap of a British boy at Lake Titiwangsa, have ignited a pressing interest for automated video content analysis to assist the law enforcement in preventing such events from recurring. Post-mortem investigations surrounding such cases often found that t...
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| Format: | Thesis |
| Published: |
2014
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| Subjects: | |
| Online Access: | http://studentsrepo.um.edu.my/4746/2/Lim_Mei_Kuan_%2D_Thesis.pdf http://studentsrepo.um.edu.my/4746/ |
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| Institution: | Universiti Malaya |
| Summary: | The recent Boston Marathon bombing and the kidnap of a British boy at Lake Titiwangsa,
have ignited a pressing interest for automated video content analysis to assist the
law enforcement in preventing such events from recurring. Post-mortem investigations
surrounding such cases often found that there were missed opportunities for using technology
to detect the abnormality of the suspects, which lead to those tragedies. Therefore,
this thesis aims to develop computer vision solutions to identify regions or behaviours,
which could lead to unfavourable events, as a cue to direct the attention of security personnel
for a more effective and proactive video surveillance.
The first contribution of this thesis introduces a robust visual tracking algorithm that
is able to locate moving objects in surveillance videos. A great challenge in this domain
is the capability of dealing with complex scenarios of tracking abrupt motion, such
as switching between cameras, which is very common when the number of CCTV to
be monitored is enormous. Conventional sampling-based predictors often assume that
motion is governed by a Gaussian distribution. This assumption holds true for smooth
motion but fails in the case of abrupt motion. Therefore, by considering tracking as an
optimisation problem, the proposed SwATrack algorithm searches for the optimal distribution
of motion model without making prior assumptions, or prior learning of the motion
model. Experimental results have shown that the proposed SwATrack improves the accuracy
of tracking abrupt motion, with an average accuracy of 91.39%, while significantly
reduces the computational overheads, with an average processing time of 63 milliseconds
per frame.
Visual tracking of objects at mass gatherings such as rallies can be daunting due
to the large variations of crowd. Hence, the second contribution proposes an alternative
solution that deals with dense crowd scenes. A new research direction that identifies and
v
localises interesting regions by exploiting the motion dynamics of crowd is proposed.
Here, interesting regions refer to abnormalities, where they exhibit high motion dynamics
or irregularities. This assumption alludes to the social behaviours and conventions of
humans in crowded scenes. Therefore, the possibility of abnormal events taking place
is considered likely, when there is high motion dynamics and irregularities. Experiment
results have shown an average accuracy of 78% on the defined dataset.
The third contribution aims to provide an integrated solution to detect multiple events
in different regions-of-interest of a given scene. This is very critical in the real-world
scenarios where multiple events may take place in a scene at the same time. Existing
solutions such as CROMATICA and PRISMATICA are commonly limited to detect single
events, at a particular time. On the contrary, the proposed solution provides flexibility to
deal with different environments, for a broader degree of scene understanding. The key
idea is to conceptually decompose information obtained from a given scene into several
intermediate degrees of abstractions. These low-level descriptions are then integrated
using a basic set of rule-packages, to discriminate the different events. Experimental
results on fives scenarios of abnormal events have shown an average accuracy of 83%. |
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