Kefaya Qaddoum scite author profile

Kefaya Qaddoum

3Publications

23Citation Statements Received

48Citation Statements Given

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Affiliations

Higher Colleges of Technology, University of Warwick, Coventry (United Kingdom)

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Yield Prediction for Tomato Greenhouse Using EFuNN

Qaddoum

Hines

Iliescu

2013

ISRN Artificial Intelligence

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In the area of greenhouse operation, yield prediction still relies heavily on human expertise. This paper proposes an automatic tomato yield predictor to assist the human operators in anticipating more effectively weekly fluctuations and avoid problems of both overdemand and overproduction if the yield cannot be predicted accurately. The parameters used by the predictor consist of environmental variables inside the greenhouse, namely, temperature, CO2, vapour pressure deficit (VPD), and radiation, as well as past yield. Greenhouse environment data and crop records from a large scale commercial operation, Wight Salads Group (WSG) in the Isle of Wight, United Kingdom, collected during the period 2004 to 2008, were used to model tomato yield using an Intelligent System called “Evolving Fuzzy Neural Network” (EFuNN). Our results show that the EFuNN model predicted weekly fluctuations of the yield with an average accuracy of 90%. The contribution suggests that the multiple EFUNNs can be mapped to respective task-oriented rule-sets giving rise to adaptive knowledge bases that could assist growers in the control of tomato supplies and more generally could inform the decision making concerning overall crop management practices.

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Grain Security Risk Level Prediction Using ANFIS

Kadir

Hines

Arof

et al. 2011

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Elastic neural network method for load prediction in cloud computing grid

Qaddoum

El-Emam²,

Abualhaj

2019

IJECE

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Cloud computing still has no standard definition, yet it is concerned with Internet or network on-demand delivery of resources and services. It has gained much popularity in last few years due to rapid growth in technology and the Internet. Many issues yet to be tackled within cloud computing technical challenges, such as Virtual Machine migration, server association, fault tolerance, scalability, and availability. The most we are concerned with in this research is balancing servers load; the way of spreading the load between various nodes exists in any distributed systems that help to utilize resource and job response time, enhance scalability, and user satisfaction. Load rebalancing algorithm with dynamic resource allocation is presented to adapt with changing needs of a cloud environment. This research presents a modified elastic adaptive neural network (EANN) with modified adaptive smoothing errors, to build an evolving system to predict Virtual Machine load. To evaluate the proposed balancing method, we conducted a series of simulation studies using cloud simulator and made comparisons with previously suggested approaches in the previous work. The experimental results show that suggested method betters present approaches significantly and all these approaches.

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Kefaya Qaddoum

Yield Prediction for Tomato Greenhouse Using EFuNN

Grain Security Risk Level Prediction Using ANFIS

Elastic neural network method for load prediction in cloud computing grid

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