multisensor fusion
Post on 30-Dec-2015
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MULTISENSOR FUSION
Architecture(US-JDL/UK-TFDF)
Feature Space(Data representations, Task-specific, feedback)
Dimensionality(Communication bandwidth
constraints,High Low, increase SnR)
Sensor 1
Sensor 2
Sensor 3
+
+Sensor 1
Sensor 2+
+Sensor 3
Sensor 4
Centralised
-Impractical
-Not scalable
-best
Decentralised
-Robust
-scalable
-Modular
-Needs more complex algs
- carries risk of rumour propagation
MULTISENSOR FUSION
Uncertainty
Dynamics
Data, sensor, communication noise, high level ignorance, model uncertainty
`soft’ decisions – Bayesian inference framework… but ….
Incorrect use of independence between models Veto Effect
Inaccurate estimation of probabilities can lead to severe distortion of decisions
(product rule dominated by low probability errors)
Simpler decision methods more robust
Fusion is an iterative dynamical process
- Continually refining estimates, representations ..
MULTISENSOR FUSION
How do constraints on communication bandwidth and processing limit architectures for fusion?
How does the brain create and modify its data representation?
How does the brain encode time, dynamics and use feedback?
How does the brain encode and process probabilities and uncertain knowledge?
Apart from very low level (cellular/subcellular) and very high level binding, the brain appears to leave data sources fragmented. Why?
(interesting clinical exception in synaesthesia! – do we learn ICA?)
Effective Sensor Fusion requires key elements:
How does the Brain deal with the same problems?
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