The paper reveals the essence and features of the proposed approach to detecting anomalies in a self-organizing decentralized wireless sensor network (WSN). As a basis for detecting anomalies, the used WSN is intended to monitor atmospheric air pollution near industrial facilities and human life objects. The distinctive features of such a network are the decentralized nature of its structure and services, the autonomy and mobility of the network nodes, as well as the possibility of non-deterministic physical movement of nodes in space. The spontaneous nature of the dynamic formation of the network topology as well as the assignment of roles and private monitoring functions between the available network nodes determines such networks are sub...
Modern infrastructure increasingly depends on large computerized systems for their reliable operatio...
© 2013 Dr. Masud MoshtaghiWireless Sensor Networks (WSNs) provide a cost-effective platform for moni...
Anomalies in wireless sensor networks can occur due to malicious attacks, faulty sensors, changes in...
Wireless sensor networks (WSNs) are prone to vulnerabilities due to their resource constraints and d...
This paper presents a model for ensuring data integrity using anomalous node identification in non-h...
Wireless Sensor Networks (WSNs) can experience problems (anomalies) during deployment, due to dynami...
Wireless Sensor Networks (WSNs) provide a low cost option for monitoring different environments such...
Wireless Sensor Networks (WSNs) can experience problems (anomalies) during deployment, due to dynami...
In this paper, we present a model to monitor the smart grid for any anomalous/malicious activity or ...
Abstract Anomaly detection is an important problem for environment, fault diag-nosis and intruder de...
The field of wireless sensor networks (WSNs), embedded systems with sensing and networking capabilit...
AbstractThe field of wireless sensor networks (WSNs), embedded systems with sensing and networking c...
Anomaly detection in a WSN is an important aspect of data analysis in order to identify data items t...
Abstract — Sensor readings are vulnerable to in situ and in transit anomalies. A well designed anoma...
A machine learning based model to monitor the smart grid for any suspicious activity or malicious at...
Modern infrastructure increasingly depends on large computerized systems for their reliable operatio...
© 2013 Dr. Masud MoshtaghiWireless Sensor Networks (WSNs) provide a cost-effective platform for moni...
Anomalies in wireless sensor networks can occur due to malicious attacks, faulty sensors, changes in...
Wireless sensor networks (WSNs) are prone to vulnerabilities due to their resource constraints and d...
This paper presents a model for ensuring data integrity using anomalous node identification in non-h...
Wireless Sensor Networks (WSNs) can experience problems (anomalies) during deployment, due to dynami...
Wireless Sensor Networks (WSNs) provide a low cost option for monitoring different environments such...
Wireless Sensor Networks (WSNs) can experience problems (anomalies) during deployment, due to dynami...
In this paper, we present a model to monitor the smart grid for any anomalous/malicious activity or ...
Abstract Anomaly detection is an important problem for environment, fault diag-nosis and intruder de...
The field of wireless sensor networks (WSNs), embedded systems with sensing and networking capabilit...
AbstractThe field of wireless sensor networks (WSNs), embedded systems with sensing and networking c...
Anomaly detection in a WSN is an important aspect of data analysis in order to identify data items t...
Abstract — Sensor readings are vulnerable to in situ and in transit anomalies. A well designed anoma...
A machine learning based model to monitor the smart grid for any suspicious activity or malicious at...
Modern infrastructure increasingly depends on large computerized systems for their reliable operatio...
© 2013 Dr. Masud MoshtaghiWireless Sensor Networks (WSNs) provide a cost-effective platform for moni...
Anomalies in wireless sensor networks can occur due to malicious attacks, faulty sensors, changes in...