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Mobile-Assisted Localization by Stitching in Wireless Sensor
Networks
IEEE ICC 2011
Han Wang, Wangdong Qi, Kun Wang, Peng Liu, Li Wei and Yasong Zhu
PLA Univ.of Sci.& Tech, Nanjing Univ. of Posts and TelecomSpeaker: Wun-Cheng Li
Outline• Introduction•Goal•Major Procedures in MALS
▫Subset Partitioning▫Trajectory Design
•Simulation•Conclusion
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Introduction•Localization is a crucial issue in wireless sensor
networks as it provides support for different types of location-aware applications▫Position-based routing▫Monitoring▫Target tracking
•One way to acquire location information is to equip each sensor with a global positioning system (GPS).▫Cost effective
•Only a limited proportion of sensors, which are called anchors, are equipped with GPS
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Introduction•Traditional anchors are static, they will not move
once deployed.
• In recent years, mobile assisted localization has been actively pursued.
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Anchor
Nodes
Anchor
Nodes
Problem •A major problem with mobile assisted localization
algorithms is the movement path design of the mobile anchors.
•This paper propose mobile assisted localization by stitching to accommodate non-uniform and irregular deployment scenarios.
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Goals•To propose an efficient localization algorithm
▫Trajectory design for mobile anchor▫Less communication expense ▫Less power cost
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Assumptions•Sensor nodes can find their neighbors and measure
distances between them.
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Overview
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S1
S2
S3
Anchor
Nodes
V1
V4
orphan node
trilateration subnet
Major Procedures in MALS•Subset Partitioning
▫When the anchor is placed in target terrain, it will broadcast “start” message all over the network.
▫Sensor nodes initiate neighbor discovery after receiving “start” message and report neighborhood information back to the anchor.
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Major Procedures in MALS•Subset Partitioning
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Anchor
Nodes
Major Procedures in MALS•Subset Partitioning
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Major Procedures in MALS•Subset Partitioning
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Anchor
Nodes
Major Procedures in MALS•Subset Partitioning
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Anchor
Nodes
orphan node
trilateration subnet
Si
Sj
Vi
Vj
Major Procedures in MALS•Trajectory Design
▫Moving between Localization Units
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Anchor
Nodes
Major Procedures in MALS•Trajectory Design
▫Moving Inside a Localization Unit
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Anchor
Nodes
Major Procedures in MALS•Trajectory Design
▫Moving Inside a Localization Unit
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Anchor
Nodes
Simulation•Matlab
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Parameter SettingsEnvironmental scenarios 100m x100mAnchors communication radius 20mNodes radius 5~15m
Simulation•Parameter Setup in SCAN
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Scan resolution
Simulation•Number of Anchor Positions Needed in Localization
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Simulation•Path Length Comparison
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Conclusions•This paper proposed a novel trajectory design scheme
to accommodate practical environments by taking full advantage of network topology.
•Simulations demonstrate that our trajectory design outperforms previous approaches under various non-uniform and irregular deployment scenarios.
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Thank you!
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