ABSTRACT:
Natural phenomena show that many
creatures form large social groups and move in regular patterns. However,
previous works focus on finding the movement patterns of each single object or
all objects. In this paper, we first propose an efficient distributed mining
algorithm to jointly identify a group of moving objects and discover their
movement patterns in wireless sensor networks. Afterward, we propose a
compression algorithm, called 2P2D, which exploits the obtained group movement
patterns to reduce the amount of delivered data.
The compression algorithm includes
a sequence merge and an entropy reduction phases. In the sequence merge phase,
we propose a Merge algorithm to merge and compress the location data of a group
of moving objects. In the entropy reduction phase, we formulate a Hit Item
Replacement (HIR) problem and propose a Replace algorithm that obtains the
optimal solution. Moreover, we devise three replacement rules and derive the
maximum compression ratio. The experimental results show that the proposed
compression algorithm leverages the group movement patterns to reduce the
amount of delivered data effectively and efficiently.
OUR CONTRIBUTIONS ARE
THREEFOLD:
·
Different from previous
works, we formulate a moving object clustering problem that jointly identifies
a group of objects and discovers their movement patterns. The application-level
semantics are useful for various applications, such as data storage and
transmission, task scheduling, and network construction.
EXISTING SYSTEM:
Discovering the group movement
patterns is more difficult than finding the patterns of a single object or all
objects, because we need to jointly identify a group of objects and discover
their aggregated group movement patterns. The constrained resource of WSNs
should also be considered in approaching the moving object clustering problem.
However, few of existing approaches consider these issues simultaneously. On
the one hand, the temporal-and-spatial correlations in the movements of moving
objects are modeled as sequential patterns in data mining to discover the
frequent movement patterns However, sequential patterns
1) Consider the characteristics of all
objects,
2) Lack information about a frequent
pattern’s significance regarding individual
trajectories,
3) Carry no time information between
consecutive items, which make them
unsuitable for location prediction and
similarity comparison.
On the other hand, previous
works, such as measure the similarity among these entire trajectory sequences
to group moving objects. Since objects may be close together in some types of
terrain, such as gorges, and widely distributed in less rugged areas, their
group relationships are distinct in some areas and vague in others. Thus,
approaches that perform clustering among entire trajectories may not be able to
identify the local group relationships. In addition, most of the above works
are centralized algorithms which need to collect all data to a server before
processing. Thus, unnecessary and redundant data may be delivered, leading to
much more power consumption because data transmission needs more power than data
processing in Wireless Sensor Networks (WSNs).
PROPOSED SYSTEM:
We have proposed a clustering
algorithm to find the group relationships for query and data aggregation
efficiency. The differences of and this work are as follows: First, since the
clustering algorithm itself is a centralized algorithm, in this work, we
further consider systematically combining multiple local clustering results
into a consensus to improve the clustering quality and for use in the
update-based tracking network. Second, when a delay is tolerant in the tracking
application, a new data management approach is required to offer transmission efficiency,
which also motivates this study. We thus define the problem of compressing the
location data of a group of moving objects as the group data compression
problem. We first introduce our distributed mining algorithm to approach the
moving object clustering problem and discover group movement patterns. Then,
based on the discovered group movement patterns, we propose a novel compression
algorithm to tackle the group data compression problem.
Our distributed mining
algorithm comprises a Group Movement Pattern Mining (GMPMine) and a Cluster
Ensembling (CE) algorithm. It avoids transmitting unnecessary and redundant
data by transmitting only the local grouping results to a base station (the
sink), instead of all of the moving objects’ location data. Specifically, the
GMPMine algorithm discovers the local group movement patterns by using a novel
similarity measure, while the CE algorithm combines the local grouping results
to remove inconsistency and improve the grouping quality by using the
information theory.
Different from previous
compression techniques that remove redundancy of data according to the
regularity within the data, we devise a novel two-phase and 2D algorithm,
called 2P2D, which utilizes the discovered group movement patterns shared by
the transmitting node and the receiving node to compress data. In addition to
remove redundancy of data according to the correlations within the data of each
single object, the 2P2D algorithm further leverages the correlations of
multiple objects and their movement patterns to enhance the compressibility.
Architecture Diagrams:
1.
Techniques used:
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2.
Process:
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Module Description:
1)
Input data
We
have found that many creatures, such as elephants, zebra, whales, and birds,
form large social groups when migrating to find food, or for breeding or
wintering. These characteristics indicate that the trajectory data of multiple
objects
may be correlated for biological applications. Moreover, some research domains,
such as the study of animal’s social behavior and wildlife migration, are more
concerned with the movement patterns of groups of animals. These details are
given as an input data.
2)
Apply
mining technique
To
approach the moving object clustering problem, we propose an efficient
distributed mining algorithm to minimize the number of groups such that members
in each of the discovered groups are highly related by their movement patterns.
3)
Apply
compression technique
We propose a
novel compression algorithm to compress the location data of a group of moving
objects with or without loss of information. We formulate the HIR problem to
minimize the entropy of location data and explore the Shannon’s theorem to
solve the HIR problem. We also prove that the proposed compression algorithm
obtains the optimal solution of the HIR problem efficiently.
4)
View
result
View the data result that the result
contains the mined and compressed data. We exploit the characteristics of group
movements to discover the information about groups of moving objects in
tracking applications. We propose a distributed
mining
algorithm, which consists of a local GMPMine algorithm and a CE algorithm, to
discover group movement patterns. With the discovered information, we devise
the 2P2D algorithm, which comprises a sequence merge phase and an entropy
reduction phase. In the sequence merge phase, we propose the Merge algorithm to
merge the location sequences of a group of moving objects with the goal of
reducing the overall sequence length. In the entropy reduction phase, we
formulate the HIR problem and propose a Replace algorithm to tackle the HIR
problem. In addition, we devise and prove three replacement rules, with which
the
Replace
algorithm obtains the optimal solution of HIR efficiently. Our experimental
results show that the proposed compression algorithm effectively reduces the
amount of delivered data and enhances compressibility and, by extension,
reduces the energy consumption expense for data transmission in WSNs.
HARDWARE &
SOFTWARE REQUIREMENTS:
HARDWARE REQUIREMENTS:
·
System :
Pentium IV 2.4 GHz.
·
Hard Disk :
40 GB.
·
Floppy Drive :
1.44 Mb.
·
Monitor :
15 VGA Colour.
·
Mouse :
Logitech.
·
Ram :
512 MB.
SOFTWARE REQUIREMENTS:
·
Operating system : Windows
XP Professional.
·
Coding Language :
ASP .Net,C#
·
Database : Sql Server 2005.
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