The oil and gas business has high operating costs and frequently has significant difficulties due to asset, process, and operational failures. Remote monitoring and management of the oil field operations are essential to ensure efficiency... more
The oil and gas business has high operating costs and frequently has significant difficulties due to asset, process, and operational failures. Remote monitoring and management of the oil field operations are essential to ensure efficiency and safety. Oil field operations often use SCADA or wireless sensor network (WSN)-based monitoring and control systems; both have numerous drawbacks. WSN-based systems are not uniform or are incompatible. Additionally, they lack transparent communication and coordination. SCADA systems also cost a lot, are rigid, are not scalable, and deliver data slowly. Edge computing and the Industrial Internet of Things (IIoT) help to overcome SCADA’s constraints by establishing an automated monitoring and control system for oil and gas operations that is effective, secure, affordable, and transparent. The main objective of this study is to exploit the IIOT and Edge Computing (EC). This study introduces an I2OT-EC framework with flowcharts, a simulator, and sys...
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Due to the high dependability on web-based information systems, a great effort had been introduced for increasing acceptability, and decreasing the complexity. However, most of the defined product process model that leverage the effective... more
Due to the high dependability on web-based information systems, a great effort had been introduced for increasing acceptability, and decreasing the complexity. However, most of the defined product process model that leverage the effective development, and evaluation process model that promote the website quality assessment and improvement are not being accompanied by that sites growth. This paper presents a general website quality evaluation framework based on a new methodology for organizing the definition and specification of the content. The main objective of this paper is to introduce the process steps that the evaluators should follow by applying the WEB-QEM that represents the characteristics and attributes for the domain of academic sites in order to produce a quality requirement tree and a descriptive framework to specify them in consideration for the aspects of Quality Requirements phase Definition and Specification (first phase from the four main phases of WEB-QEM Quality ...
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... attributes that might be part of a quantitative evaluation, comparison, and ranking process regarding ... 2.2.1.2 Average of Links per Page 2.2.2 Navigational Control Objects 2.2.2.1 ... 2. Support for text-only version 3.3... more
... attributes that might be part of a quantitative evaluation, comparison, and ranking process regarding ... 2.2.1.2 Average of Links per Page 2.2.2 Navigational Control Objects 2.2.2.1 ... 2. Support for text-only version 3.3 Information Suitability (Student-oriented Domain Features) 3.3.1 ...