A Decision-Making Model for Selecting the GSM Mobile Phone Antenna in the Design Phase to Increase Over All Performance

AL-Oqla, Faris M.; Omar, A.A.

doi:10.2528/pierc11102702

Cited by 40 publications

(6 citation statements)

References 22 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…45 As a result of all AHP advantages, AHP was implemented in numerous domains including material selection, 2,36,41 renewable and bioenergy systems, 48,49 energy planning and corrective actions [50][51][52][53] in addition to other industrial applications. 44,[54][55][56][57] To achieve appropriate decisions via AHP, three main steps have to be performed:…”

Section: The Analytical Hierarchy Process (Ahp)mentioning

confidence: 99%

“…To determine such importance of each factor relative to others (weights), multiple pairwise comparisons have to be performed taking into account that for each factor compared with itself has to have a unity value leading to a square judgment matrix with a major diagonal values of ones. 52,54 If n criteria are involved in the pairwise comparison process, the judgment matrix A can be summarized in an n Â n type with elements of a(i, j) which can be expressed as shown in equation ( 1). Then, computations commence normalizing as well as finding the relative weights of each individual judgment matrix.…”

Section: The Analytical Hierarchy Process (Ahp)mentioning

confidence: 99%

See 1 more Smart Citation

A decision-making model for selecting the most appropriate natural fiber – Polypropylene-based composites for automotive applications

AL-Oqla

Sapuan

Ishak

et al. 2015

Journal of Composite Materials

110

View full text Add to dashboard Cite

Recent emphasis on the proper utilization of the available natural resources as well as the compatibility between industrial sustainability and the environment have recognized the natural fiber reinforced polymer composites as a valuable type of materials. The final features of natural fiber reinforced polymer composites are strongly influenced by the characteristics of their constituents. Several factors affect implementing natural fiber reinforced polymer composites in automotive applications, which make it a matter of multi-criteria decision making problem. In this work, a decision-making model is introduced to evaluate and select the most appropriate non-woven natural reinforcement fiber/polypropylene-based composites for interior parts in the automotive industry considering various evaluation criteria simultaneously. The analytical hierarchy process was utilized to assess 15 potential alternatives of different natural fiber/polypropylene composites. The evaluation process considered simultaneous six evaluation criteria, namely tensile strength, tensile modulus, flexural strength, flexural modulus, impact strength and the maximum water absorption of the composites. Such approach is implemented here for the first time to enhance the selection process of natural fiber reinforced polymer composites for automotive application and to expand the future sustainable design possibilities in this sector. Both impact and flexural strengths were found to have the major priority in the evaluation process. The treated flax/polypropylene composite with 30 wt% fiber loading alternative was found to be the best with regard to the overall evaluation criteria. Date palm fiber/polypropylene composites were found to be potential considering the whole desired evaluation criteria.

show abstract

Section: The Analytical Hierarchy Process (Ahp)mentioning

confidence: 99%

Section: The Analytical Hierarchy Process (Ahp)mentioning

confidence: 99%

A decision-making model for selecting the most appropriate natural fiber – Polypropylene-based composites for automotive applications

AL-Oqla

Sapuan

Ishak

et al. 2015

Journal of Composite Materials

110

View full text Add to dashboard Cite

show abstract

“…The key characteristic of this model is hierarchical breakdown of the problem which creates a criteria hierarchy and altering the subjective evaluations of relative importance into a universal score or weight. AHP method uses pair-wise comparisons which allocates verbal judgments that improves the accuracy of findings and permit accurate ratio and scale (Oqla et al,2012). AHP technique also deals with the qualitative and quantitative aspects of the decision-making since the judgment values from equal comparison between experience, intuition and physical data (Longaray et al, 2015).AHP methodology consists of three main stages which are done by structuring the problem and obtaining the decision-making model, relative judgment by obtaining the performance of each alternatives and precedence analysis that weighing the alternative performance.…”

Section: Analytical Hierarchy Process (Ahp) Techniquementioning

confidence: 99%

Enhancing Sustainable Maritime Business through Lean, Agile, Resilience and Green (LARG) Performance Model in Indian Seaport Supply Chain Operations

Narasimha,

Jena,

Majhi

2022

Proceedings of the International Conference on Industrial Engineering and Operations Management

View full text Add to dashboard Cite

Seaport inefficiencies have caused barriers to maritime operations especially operational disruption which ultimately adds to high-cost expenses, redundant waste, environmental pollution, and financial losses. As a result, operations, economical and environmental sustainability cannot be attained which will impact the complete maritime supply chain-related aspects. Therefore, a lean, agile, resilience, and green (LARG) performance model is proposed as a method to control these issues and improve the competitiveness and efficiency of seaports in the Indian marine context. LARG criteria in the seaport supply chain have been identified and analyzed using extensive literature reviews and expert assessments based on the Indian seaport supply chain perspective. This paper aims to identify and select the relative importance of each LARG performance model on basis of operational. economical. and environmental related performance of seaport supply chain using the Analytical Hierarchy Process (AHP) technique by forty-three experts from various maritime domain experts in India. The research results indicate that operational performance has the highest contribution to seaport supply chain performance in Indian seaports followed by economical performance and environmental performance. This research study can also assist on related dimensions in seaport performance to enhance trade capabilities, operational efficiencies, and competitive advantages of the seaports in the maritime supply chain area. Furthermore, this LARG management tool can be applied in the global maritime context considering adaptability aspects.

show abstract

“…The materials selection process is considered the main step of engineering design. Materials are responsible for function, shape, and interaction with other components of the product, also the effect on customer selection decision [93][94][95][96][97][98][99][100][101].…”

Section: Materials Selection For Bio-composites and Its Importancementioning

confidence: 99%

A Review on the Properties of Natural Fibers and Manufacturing Techniques of Fiber Reinforced Biocomposites

Khan

2021

MCMS

View full text Add to dashboard Cite

Over the last century and a half, human have learned how to make synthetic polymers into plastic products. Synthetic polymer and plastic products are resistant to degradation and causes the environmental pollution. As growing awareness about ecological and environmental issues spread, the persistence of plastic waste began to trouble observers. Researchers and innovators are searching for a way to place more environmentally friendly biodegradable materials than conventional plastics in the market. Following that, biodegradable biocomposites have entered the market for use in agriculture, medicine, packaging, civil engineering, and other areas. Recently, natural fiber or, lignocellulosic fiber-based biocomposites have gained much attention for different industrial uses and applications because of their low density and renewability and significant advantages of natural fibers. These fiber-reinforced biocomposites are having satisfactory physical and mechanical properties (i.e., tensile properties, flexural stress-strain behavior, fracture toughness, fracture strength, impact strength) which make them more sustainable and attractive than other composites with a remarkable property of its degradability in the environment. This review is intended to provide a brief discussion of biocomposites, natural fiberreinforced biocomposites, lignocellulosic fiber-based biocomposites, various fabrication processes of fiber-reinforced biocomposites, significant physical and mechanical properties of fiber-reinforced biocomposites, materials used for biocomposites, and its future development.

show abstract

A Decision-Making Model for Selecting the GSM Mobile Phone Antenna in the Design Phase to Increase Over All Performance

Cited by 40 publications

References 22 publications

A decision-making model for selecting the most appropriate natural fiber – Polypropylene-based composites for automotive applications

A decision-making model for selecting the most appropriate natural fiber – Polypropylene-based composites for automotive applications

Enhancing Sustainable Maritime Business through Lean, Agile, Resilience and Green (LARG) Performance Model in Indian Seaport Supply Chain Operations

A Review on the Properties of Natural Fibers and Manufacturing Techniques of Fiber Reinforced Biocomposites

Contact Info

Product

Resources

About