Semantic Web Technologies for Event Modeling and Analysis: A Well Surveillance Use Case

Zhu, Tong; Bakshi, Amol; Prasanna, Viktor K.; Cutler, R.; Fanty, Scott

doi:10.2523/128708-ms

Cited by 2 publications

(1 citation statement)

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“…Semantics for an event-based approach was introduced in [39,40] for well surveillance and reservoir engineering use cases and a detailed description of the various semantic web technologies involved (such as OWL, SWRL and SPARQL) was also provided. However, this approach is limited to reservoir engineering situations and cannot handle complex events.…”

Section: Requirements For An Effective Integration Solutionmentioning

confidence: 99%

Event-driven Information Integration for the Digital Oilfield

Patri

Sorathia

Prasanna

2012

SPE Annual Technical Conference and Exhibition

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Several operations in the Exploration and Production (E&P) sector are event-driven in nature and are supported by specialized systems and applications. Narrow focus of applications results in application silos that restrict the information sharing across verticals, which is a critical requirement for coordinated cross-functional efforts. Effective response to events warrants due emphasis on an integration strategy that facilitates desired information flow across verticals. Event-driven methods can be used to make strategic asset management decisions across silos in real-time, thus reducing response time and costs while improving asset performance.Complex event processing is an emerging research area that involves detecting complex events, processing the events, deciding actions for each event and notifying the relevant personnel about the event. In the E&P sector, the adoption of CEP and messaging-based systems in conjunction with semantic methods can facilitate components of the oilfield to communicate in real-time across different software platforms. Such an approach helps not only in detecting complex events across various sources, but also in processing them and deciding the actions to be taken, with the help of a knowledge base -thereby reducing information overload.Consider a typical application scenario -a pump failure event in an oilfield, which should elicit response not only by the pump operator but also by the maintenance engineers, production managers, reservoir engineers and other involved personnel. A proactive event-driven system enables quick detection of the failure across heterogeneous data sources and takes corrective actions while notifying the appropriate personnel. This facilitates effective communication across the teams and software systems involved.We propose a semantic complex event processing architecture for the digital oilfield that facilitates enterprise information integration. We delineate an illustrative use case of such integration for production optimization. Value propositions of the proposed framework include efficient interaction patterns, reduction in data seeking efforts, faster response times, building of consistent best practices and management by exception.

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Section: Requirements For An Effective Integration Solutionmentioning

confidence: 99%

Event-driven Information Integration for the Digital Oilfield

Patri

Sorathia

Prasanna

2012

SPE Annual Technical Conference and Exhibition

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Technology as an Enabler

Williams

Hauser

Woodall

et al. 2013

SPE Annual Technical Conference and Exhibition

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This paper is focused on how technology can significantly accelerate and improve operations, enable petro-technical and business decisions and workflows, and improve real-time access to information and experts. This approach is fundamental to how Chevron is evolving the managment of its upstream businesses. Examples are included to demonstrate how improving work flows and enabling them with technology relies on innovation and integration of people and processes. We'll also show how information can help to create pragmatic solutions that quickly allow us to realize value. By improving performance, increasing efficiency, and streamlining decision making, critical resources can recapture the time and capacity required to help us innovate into the future. As part of the Data Visualization, we'll discuss the petrotechnical integration framework for data visualization, surveillance, analysis, and reporting. We'll show how a web-based workflow petrotechnical portal can provide data access and visualization. This portal is a map-based GIS tool that connects high-value data from our petrotechnical systems of record and exposes it to facilitate decision-making. The context for the web-based tool and its role are shown in the program-level macro workflow. We'll discuss how this technology is enabling faster and broader access to data that currently exists in silos, and how it will afford high-quality analysis.

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Semantic Web Technologies for Event Modeling and Analysis: A Well Surveillance Use Case

Cited by 2 publications

References 0 publications

Event-driven Information Integration for the Digital Oilfield

Event-driven Information Integration for the Digital Oilfield

Technology as an Enabler

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