A Trace to Median Index Based Fuzzy Decision Making Technique for Weed Management in Agricultural Systems

A Trace to Median Index Based Fuzzy Decision Making Technique for Weed Management in Agricultural Systems

Weeds pose a significant challenge to environmental sustainability and agricultural productivity, contributing to land degradation and reduced forest health. Reliance on chemical herbicides for weed control has raised serious concerns for food safety and public health, and has necessitated the devel...

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Bibliographic Details
Published in:IEEE access Vol. 12; pp. 165185 - 165202
Main Authors: Sandra, Michael, Narayanamoorthy, Samayan, Suvitha, Krishnan, Pamucar, Dragan, Simic, Vladimir, Kang, Daekook
Format: Journal Article
Language:English
Published: Piscataway IEEE 2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Accuracy
Agricultural systems
Agriculture
Alternatives
Chemicals
Crop yield
Decision making
Environmental management
Forest management
Fuzzy control
Fuzzy sets
Fuzzy systems
Herbicides
Impact analysis
Indexes
Logistics
MCDM
multi-criteria decision making
Multiple criterion
Productivity
Public health
Safety management
Sensitivity analysis
Sustainability
Sustainable development
t-spherical probabilistic hesitant fuzzy set
Uncertainty
Water resources
Weed control
weed eradication
Weeds
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Summary:Weeds pose a significant challenge to environmental sustainability and agricultural productivity, contributing to land degradation and reduced forest health. Reliance on chemical herbicides for weed control has raised serious concerns for food safety and public health, and has necessitated the development of sustainable weed management strategies. To identify viable weed-eradication techniques, this study introduces a novel hybrid fuzzy multi-criteria decision-making (F-MCDM) approach. Numerical illustration of the proposed framework is shown through a case study to demonstrate strong practical applicability. A total of eight contradictory criteria are used to evaluate the sustainability of the alternatives. To effectively balance subjective expert opinions and objective data, the significance of each criterion is thoroughly assessed using the integration of factor relationship analysis (FARE) and criterion impact loss assessment (CILOS). With a weight of 0.2507, weed density was shown to be the most significant factor, outweighing factors like cost and time consumption. The designed fusion model applied the trace to median index method to rank alternatives (RATMI), with precision weed control emerging as the optimal solution in a t-spherical probabilistic hesitant fuzzy (t-SPHF) environment. By targeting only the specific areas where weeds are present, precision techniques which includes smart machines and autonomous robots decrease chemical runoff and the risk of harming beneficial plants and organisms, ultimately leading to healthier ecosystems. The model's reliance on criterion weights was supported by sensitivity analysis, and comparative analysis demonstrated the t-SPHF set-based method's resilience in managing intricate, multi-criteria scenarios. This framework for hybrid decision-making is a dependable resource for directing decisions on sustainable weed control, with possible consequences for agricultural policy and practice. Future research may delve deeper into its utilization in various environmental scenarios.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2024.3493605