The Unlucky broker

Description:abstract in inglese a cura dell’autoreShow FileMIME type:application/pdfFile Size:202.7 Kb
Abstract in inglese F. Mazzarella.pdf

Description:tesi di dottoratoShow FileMIME type:application/pdfFile Size:0.9 Mb
Tesi F. Mazzarella.pdf
Subject
decision refinementAbstract
This dissertation collects results of the work on the interpretation, characteri
zation and quanti cation of a novel topic in the eld of detection theory the
Unlucky Broker problem, and its asymptotic extension. The same problem can be also applied to the context of Wireless Sensor
Networks (WSNs). Suppose that a WSN is engaged in a binary detection task.
Each node of the system collects measurements about the state of the nature
(H0 or H1) to be discovered. A common fusion center receives the observations
from the sensors and implements an optimal test (for example in the Bayesian
sense), exploiting its knowledge of the apriori probabilities of the hypotheses.
Later, the priors used in the test are revealed to be inaccurate and a rened pair
is made available. Unfortunately, at that time, only a subset of the original data
is still available, along with the original decision. In the thesis, we formulate the problem in statistical terms and we consider
a system made of n sensors engaged in a binary detection task. A successive
reduction of data set's cardinality occurs and multiple re nements are required.
The sensors are devices programmed to take the decision from the previous
node in the chain and the available data, implement some simple test to decide
between the hypotheses, and forward the resulting decision to the next node.
The rst part of the thesis shows that the optimal test is very di cult to be
implemented even with only two nodes (the unlucky broker problem), because
of the strong correlation between the available data and the decision coming
from the previous node. Then, to make the designed detector implementable
in practice and to ensure analytical tractability, we consider suboptimal local
tests.
We choose a simple local decision strategy, following the rationale ruling the
optimal detector solving the unlucky broker problem: A decision in favor of H0
is always retained by the current node, while when the decision of the previous
node is in favor of H1, a local loglikelihood based test is implemented.
The main result is that, asymptotically, if we set the false alarm probability
of the rst node (the one observing the full data set) the false alarm probability
decreases along the chain and it is non zero at the last stage. Moreover, very
surprisingly, the miss detection probability decays exponentially fast with the
root square of the number of nodes and we provide its closedform exponent, by
exploiting tools from random processes and information theory. [edited by the author]
xmlui.metadata.dc.description
2010  2011
Collections
Date
20120517Author
Mazzarella, Fabio
Metadata
Show full item recordxmlui.metadata.dc.contributor.author  Mazzarella, Fabio  
xmlui.metadata.dc.date.accessioned  20121218T12:14:40Z  
xmlui.metadata.dc.date.available  20121218T12:14:40Z  
xmlui.metadata.dc.date.issued  20120517  
xmlui.metadata.dc.identifier.uri  http://hdl.handle.net/10556/365  
xmlui.metadata.dc.description  2010  2011  en_US 
xmlui.metadata.dc.description.abstract  This dissertation collects results of the work on the interpretation, characteri zation and quanti cation of a novel topic in the eld of detection theory the Unlucky Broker problem, and its asymptotic extension. The same problem can be also applied to the context of Wireless Sensor Networks (WSNs). Suppose that a WSN is engaged in a binary detection task. Each node of the system collects measurements about the state of the nature (H0 or H1) to be discovered. A common fusion center receives the observations from the sensors and implements an optimal test (for example in the Bayesian sense), exploiting its knowledge of the apriori probabilities of the hypotheses. Later, the priors used in the test are revealed to be inaccurate and a rened pair is made available. Unfortunately, at that time, only a subset of the original data is still available, along with the original decision. In the thesis, we formulate the problem in statistical terms and we consider a system made of n sensors engaged in a binary detection task. A successive reduction of data set's cardinality occurs and multiple re nements are required. The sensors are devices programmed to take the decision from the previous node in the chain and the available data, implement some simple test to decide between the hypotheses, and forward the resulting decision to the next node. The rst part of the thesis shows that the optimal test is very di cult to be implemented even with only two nodes (the unlucky broker problem), because of the strong correlation between the available data and the decision coming from the previous node. Then, to make the designed detector implementable in practice and to ensure analytical tractability, we consider suboptimal local tests. We choose a simple local decision strategy, following the rationale ruling the optimal detector solving the unlucky broker problem: A decision in favor of H0 is always retained by the current node, while when the decision of the previous node is in favor of H1, a local loglikelihood based test is implemented. The main result is that, asymptotically, if we set the false alarm probability of the rst node (the one observing the full data set) the false alarm probability decreases along the chain and it is non zero at the last stage. Moreover, very surprisingly, the miss detection probability decays exponentially fast with the root square of the number of nodes and we provide its closedform exponent, by exploiting tools from random processes and information theory. [edited by the author]  en_US 
xmlui.metadata.dc.language.iso  en  en_US 
xmlui.metadata.dc.publisher  Universita degli studi di Salerno  en_US 
xmlui.metadata.dc.subject  decision refinement  en_US 
xmlui.metadata.dc.title  The Unlucky broker  en_US 
xmlui.metadata.dc.type  Doctoral Thesis  en_US 
xmlui.metadata.dc.subject.miur  INGINF/03 TELECOMUNICAZIONI  en_US 
xmlui.metadata.dc.contributor.coordinatore  Marcelli, Angelo  en_US 
xmlui.metadata.dc.description.ciclo  X n.s.  en_US 
xmlui.metadata.dc.contributor.tutor  Marano, Stefano  en_US 
xmlui.metadata.dc.identifier.Dipartimento  Ingegneria Elettronica ed Ingegneria Informatica  en_US 