CREON – Integrating Disparate Sources of Remote Coral Reef Sensor Data (original) (raw)

Real-Time Monitoring of the Great Barrier Reef Using Internet of Things with Big Data Analytics

2017

The Great Barrier Reef (GBR) of Australia is the largest size of coral reef system on the planet stretching over 2300 kilometers. Coral reefs are experiencing a range of stresses including climate change, which has resulted in episodes of coral bleaching and ocean acidification where increased levels of carbon dioxide from the burning of fossil fuels are reducing the calcification mechanism of corals. In this article, we present a successful application of big data analytics with Internet of Things (IoT)/wireless sensor networks (WSNs) technology to monitor complex marine environments of the GBR. The paper presents a two-tiered IoT/WSN network architecture used to monitor the GBR and the role of artificial intelligence (AI) algorithms with big data analytics to detect events of interest. The case study presents the deployment of a WSN at Heron Island in the southern GBR in 2009. It is shown that we are able to detect Cyclone Hamish patterns as an anomaly using the sensor time series...

The Great Barrier Reef Sensor Network

2005

The Australian Institute of Marine Science has a long history of monitoring the marine environment and associated biota. Data from seven autonomous weather stations are augmented with submerged temperature loggers and automatically quality checked and stored in the data centre. However collecting real-time data at appropriate temporal and spatial scales is critical to understanding complex marine processes. The emerging generation of 'smart' sensors opens up a range of opportunities for automated intelligent monitoring of marine systems. However development of these sensors is beyond the capacity of AIMS and requires the involvement of national and international collaborations. The Coral Reef Environmental Observing Network provides a mechanism to develop sensor networks for the Great Barrier Reef(GBR). Comprised of marine groups across the world this group is active in assisting members to monitor the coral reef environment. For the GBR, we are extending the existing monito...

An Integrated Event Detection and Decision Support System for Managing the Health of Ocean and Climatic Sensor

2015

Real-time online coral sensor and climatic data are vital for long term ecological observatory research. It is difficult to maintain a continuous real-time online data stream using various underwater sensors feeding to a server. To solve this difficulty, we integrated an event detection and decision support system (DSS) to help researchers to make decisions about sensor maintenance and to proactively prevent system malfunctions. This paper describes the components of pre-processing data in-situ, using behavior learning from historical data, creating anomaly detection, and verifying sensor data. This online system is flexible, for both health monitoring and decision-making. When data loss or sensor malfunctions occur, then an automatic email will be sent to researchers, to show both sensor health and anomaly reports. Researchers will then make a decision on who will fix the problems, and plan for maintenance on site. The integrated decision support system and event detection uses var...

The Semantic Reef: A hypothesis-based, eco-informatics platform to support automated knowledge discovery for remotely monitored reef systems

Proceedings of the 11th International Coral Reef Symposium (ICRS 08), 2009

Abstract. Eco-informatics is the combination of multiple environmental datasets and modeling tools used to test ecological hypotheses and derive information. The Semantic Reef project is developing automated data processing, problem-solving and knowledge discovery systems to better understand and manage reef ecosystems. Three core tools are utilized; Semantic Web, Grid Computing and workflow based e-Research approaches, creating a platform designed to evaluate complex hypothesis queries and provide alerting ...

A Cloud-based Interactive Data Infrastructure for Sensor Networks

Small specialized sensor devices capable of both reporting on environmental factors and interacting with the environment are becoming increasingly ubiquitous, reliable and inexpensive. This transformation has enabled domain sciences to create "instruments at large" – dynamic and often self-organizing groups of sensors whose outputs are capable of being aggregated and correlated to support experiments organized around specific questions. This calls for an infrastructure that can support remote administration of sensors, relies on protocols that can withstand unreliable communications, and extend storage capability that can scale to support many data producing sensors, many different data types, and many end user requests. In this work we present protocols and a cloud-based data store called "WaggleDB" that address the above challenges. The system efficiently aggregates and stores data from sensor networks and enables users to query the data sets. The "WaggleDB" data store incorporates a scalable multi-tier architecture with individually scalable layers toward overcoming the challenges.