An Approach to Assess Sustainable Supply Chain Agility for a Manufacturing Organization

: Worldwide business organizations realize that agility of sustainable supply-chain is a requisite need for survival in a dynamic, competitive, and unpredictable market. The contribution of this research is to explore and evaluate sustainable agility in supply chains for a dairy manufacturing organization located in Saudi Arabia. Other contributions of this research are to update the literature about the different factors contributing to achieve agile supply chain, propose conceptual framework and assessment approach incorporating the relationships between sustainable supply-chain capabilities, enablers, and attributes, and shortlisting the agility barriers and how they would facilitate manufacturing organizations’ performance. The paper presents supply chain agility evaluation approach, which covers identiﬁcation of agile supply-chain capabilities and drivers. It also presents a conceptual model and a framework to deﬁne agility level and barriers within the supply-chain. In the paper, fuzzy logic approach is preferred, owing to its capability to incorporate and deal with problems involving impreciseness and vagueness phenomena. Threshold-value in this study for the case organization is set to 0.24829. The outcome of the adopted approach indicates that 21 attributes performed below the threshold value; these attributes are further categorized as agility barriers. These are the barriers within their supply chain that impact the agility-level. For the case organization, the foremost priority is to enhance maintainability and serviceability to make it ﬂexible and inexpensive to establish an agile responsive supply chain. At the same time, it should have priority to focus on development and integration of their core competencies to deal with cross-functional and cross-enterprise issues in supply chain. For the case organization, the agility level was found “very agile,” although it is below the “extremely agile.” Thus, a study was developed to understand the behaviour of the supply chain agility and assess/evaluate it to support decision makers in order to develop a strategic solution for different organizational barriers.


Introduction
In the dynamic, competitive, and unpredictable market, customer demand can be satisfied through different strategies which are related to suppliers, manufacturers, distributors, retailers, and customers, and also get controlled by flows of material, finance, information, and technology [1,2]. To explore competitive base and strategies, business organizations should practice moulding their supply-chain with a knowledge-rich environment and integration of resources. This also helps with understanding the behaviour of supply-chain and developing assessment for supporting decision makers to develop alternative strategies for a specific organizational problem. To cover the previous aspects, supply chain agility has been studied. Agility is capability to quickly-sense and timely-respond to market dynamics and sustainable customers, whereas sustainable agility is the supply chain agility when it is supported at every level of the organization interactions over processes and tools [3]. The notion of supply chain agility has been introduced due to parallel developments in the areas of agile systems and manufacturing as well as supply chain management [4]. Initially, it has been defined with respect to the agile enterprise [5], products and workforce [6], capabilities [7], virtual teaming [8], and now with the sustainable environment [9]. The early proponents of agility defined it as a system with exceptional internal capabilities to meet the rapidly changing needs of the market place with speed and flexibility [10]. The internal capacities of the firm include hard and soft technologies, human resources, educated and highly motivated management, and information and communication technologies, while flexibility often implies responding to customer demand almost in real time high responsiveness among product models or between product lines [10]. Subsequently, agility is defined as an ability of an organization to respond rapidly to changes in demand, both in terms of volume and variety [11], and is all about customer responsiveness and market turbulence and need of specific capabilities [8]. Successively, researchers [9,12] defined agile supply chain as an ability to have visibility of demand, flexible and quick response and synchronized operations; and suggested that it can be evaluated with both hard and soft criteria of flexibility, profitability, quality, innovativeness, and proactivity, speed of response, cost, and robustness. Later, in response to dynamic demand, to manage disruption risks and to guarantee uninterrupted services, researchers [13][14][15] redefined agility that enables an organization to evolve products and services quickly and economically in response to the customers' dynamic demands and, have focused on inducing velocity and flexibility in the supply chain to reduce waste and avoid customer dissatisfaction. They also suggested agility performance measures as product quality, product innovation, and process innovation; all geared towards flexibility and lead time reduction.
Thus, agile sustainable supply chain concerns change, uncertainty, and unpredictability within its business environment and makes appropriate consistent responses to changes. Therefore, an agile sustainable supply chain requires various distinguishing capabilities. These capabilities include four main elements [3,13,16]: responsiveness, which is the ability to identify changes and respond to them quickly, reactively, or proactively, and also to recover from them; competency, which is the ability to efficiently and effectively realize organizational objectives; flexibility, which is the ability to implement different processes and apply different facilities to achieve the same goals; and quickness, which is the ability to complete an activity as quickly as possible.
Modelling of sustainable agile supply chain is a powerful way in order to increase understanding of the behaviour of the supply chain. Such modelling will support decision makers to develop a strategic solution for a specific organizational problem. It is evident that researchers [13,17] have addressed a number of techniques to measure supply chain agility. However, these measurements are described subjectively by linguistic terms which can always be criticized because of the limitations of the scale used to score the supply chain capabilities. Organizations have realized that agility in their supply chain is quite essential for the survival and competitiveness. In the way of implementing agility in a supply chain, the issues to be examined are agility, its measurement, agility level, and barriers [18]; and subsequently agility indexing, which in turn reveals the strategic agile position of an organization in the competitive business environment [19]. It is evident that most of the researchers presented theoretical supply chain agility assessment models and/or approaches [8,[20][21][22] and relevant performance measures contributing to supply chain agility. At the same time, some researchers have focused on investigating the efficacy of these proposed theoretical assessment models via empirical studies [5,17] and real case studies [23,24], and highlight the feasibility and applicability of agility assessment models [25,26].
In our study, when agile sustainable supply chain concept emerged first in context to the Saudi Arabian manufacturing organization, the case organization had many different questions to us, that includes: how to define and measure sustainable agility of supplychain? How to continue sustainable survive in a volatile demand? In order to answer these questions, a lot of knowledge is required in what you want to measure, how you will measure it and how you will read and assess the results. To deal with such decisions, an approach in context to Saudi Arabia is proposed after analysing the different factors which are vital to achieve supply-chain agility [27]. Here in the paper, the objective is to propose an assessment approach to quantify the relationships between supply-chain agility capabilities, enablers, and attributes to determine the needed supply-chain agilitylevel. The aim of the study is to verify and validate the proposed approach with a dairy manufacturing organization located in Saudi Arabia. The purpose of the assessment approach is to estimate agility of their supply chain and analyse barriers within their supply-chain to be able to sense required changes and respond quickly and relevantly. This paper includes six sections. This section is followed by Section 2 where brief reviews to different important capabilities, enablers, and attributes of supply-chain agility evaluation is presented. Subsequently, in Section 3, the organization case study details and proposed approach for assessing supply-chain agility are presented. The application of the proposed approach to assess sustainable supply chain agility for a manufacturing organization is presented in Section 4. Sections 5 and 6 are the managerial discussion, the main findings, the limitations of the adopted approach, and recommendations for other researchers are discussed and concluded.

Supply Chain Sustainable Agility Evaluation: A Brief Review
To help decision makers better achieve sustainable agile supply chain, different studies have attempted to assess an organization's agility. It is evident that initially researchers [5,17,[28][29][30][31][32][33] evaluated supply chain performance statistically by integrating the questionnaire data and subjective approach, and rank performance enablers of supply chain that are collected from different business professionals. Subsequently, others [34][35][36][37][38][39][40][41] suggested to integrate multiple criterions related to production, market, people, and information to evaluate the performance of supply chain. For example, researchers used the technique of preference by similarity index multi-criteria approach [42][43][44][45][46][47][48], generalized trapezoidal approach [44,45], data envelopment analysis [46,47], set theory [9,24], agent based modelling [9], and quality-function deployment [49]. Vinodh and Aravindraj [40] suggested strategies and responsibilities related to workforce and technology to evaluate supply chain performance. Sreenivasa et al. [39] proposed different ways to identify weak criteria of supply chain and overcome them by embracing the latest technological advancements. Recently, researchers [13,16] emphasize practices to increase workforce quickness, and sustainable performance to minimize damage to the environment.
To assess the supply chain agility performance, researchers adopted multiple approaches. Considering the literature over the past 10 years, the selective adopted assessment approaches and their focus are highlighted in Table 1.

Models
Focused On Structural equation model [50] Quickness in the plan, source, make, and deliver capacity of the supply chain Conceptual model [51] Impact of the relationship between supply chain competence and supply chain agility Delphi model [31] Used to develop a series of weighted agile supply chain management practices Flexible infrastructure and assimilation model [52] A model to examine how flexible infrastructure and assimilation affect supply chain agility Graph theory model [53] Assess supply chain agility aspects to achieve market share even during a disruption Analytic network process model [20] It provides a systematic approach to explore and analyse influential relationships between agile-enabling factors Grey-based decision-making model [54] To evaluate the cause and effect relationships of agile-supply enabling factors

Models Focused On
Closed-loop analytical network model [24] Is proposed to deal with the complex interrelationships among the supply chain agility aspects and attributes Data envelopment analysis model [55] To assess supply chain performance in retailing and integrate it with econometric analysis Artificial neural networks model [56] Proposes a performance prediction system through a prospective diagnosis of the supply chain agility Network-based fuzzy model [57] Approach to support supply-chain performance evaluation based on adaptive network-based fuzzy inference systems Total interpretive structural model [58] To investigate the drivers of sustainable supply chain to tackle supply chain disruptions; it considers the health protocols and automation as an essential for long-term sustainability in supply chains Thus, it is also evident that researchers in supply chain have proposed different models and approaches for assessing supply chain agility in different case organization. The contribution of our study is to update the literature about the different factors contributing to achieve a sustainable agile supply chain and propose conceptual framework and assessment approach investigating the associations between capabilities, enablers, and attributes to determine the needed agility level and how to facilitate the organization's performance.
Based on the review of the various assessment approaches for supply chain [13,14,16,59], fuzzy logic approach was highly preferred by researchers owing to its capability to incorporate and deal with problems involving impreciseness and vagueness phenomena. From literature, it is evident that researches adopted fuzzy multi-criteria decision-making methods in numerous sectors; for example: to assess sustainability of small urban neighbourhoods [60] and resilience of urban communities [61]; to locate supply chain logistic centres [62]; analysing safety hazards and occupational risks [63]; ranking alternative construction project plans [64] and renewable energy parks [65]; selection of material in the design and fabrication process [66]. The disadvantages of other approaches as that they are inflexible and must be restructured to appropriate the prevailing new circumstances as they involve several levels of linguistic terms or different membership functions usage. In addition, some of these approaches are complex mathematical equations that are challenging to solve manually. The organization case studied proposed an approach for assessing supply-chain agility. Its application and the drawn inferences are presented here in the following sections.

Evaluating Supply Chain Agility: A Case Study
The case study is one of the largest manufacturer and vertically integrated as distributor of fresh dairy products to over retailers across Arab countries. In most recent years, the organization has expanded its scope to enter different regional and international areas and to invest in farmland. It is evident that large multinationals organizations have sought to provide both local and global dynamic response to an uncertain business environment. Moreover, because of dynamic customer requirements, the organization has found it increasingly difficult to ensure consistent growth.
To evaluate supply-chain agility of the largest manufacturer and distributor, the framework of the proposed approach has seven steps; each of which are illustrated here below; broadly, they are categories in three main phases. Phase I involves examination of the organization business operation environment and identification of agility enablers and attributes to develop the agility conceptual model. Phase II is a frame of the methodology to assess and synthesize the listed agility-enablers and agility-attributes contribution, for the purpose of obtaining supply chain agility index. Subsequently, in Phase III, the agilityindex is matched with a suitable linguistic term to determine the supply-chain agilitylevel. Phase III calculates the performance index for each attribute of supply-chain for the purpose of picking out major barriers to enable decision makers to respond effectively and implement corrective measures. The framework of the proposed approach consists of four capabilities, six enablers, and 93 attributes as presented in the below Figure 1.The enablers and corresponding attributes are listed here below (refer Table 2). below; broadly, they are categories in three main phases. Phase I involves examination of the organization business operation environment and identification of agility enablers and attributes to develop the agility conceptual model. Phase II is a frame of the methodology to assess and synthesize the listed agility-enablers and agility-attributes contribution, for the purpose of obtaining supply chain agility index. Subsequently, in Phase III, the agility-index is matched with a suitable linguistic term to determine the supply-chain agility-level. Phase III calculates the performance index for each attribute of supply-chain for the purpose of picking out major barriers to enable decision makers to respond effectively and implement corrective measures. The framework of the proposed approach consists of four capabilities, six enablers, and 93 attributes as presented in the below Figure  1.The enablers and corresponding attributes are listed here below (refer Table 2).

Proposed Approach in Phases
Phase I: Examination of the organization business operation environment and identification of agility enablers and attributes; their weights and performance ratings to achieve sustainable supply chain (Steps 1-3).
Step 1: Identification of Agility-Capabilities, Enablers, and Attributes via Survey To prepare for supply-chain agility assessment, the evaluators in the organization must survey challenges in the business environment and identify supply-chain performance evaluation criterions. So, the number of experts at the case organization were surveyed to identify agility-capabilities, agility-enablers, and attributes. In addition, we referred to the literature that is related to the evaluation of supply-chain agility [27], and a comprehensive conceptual model is proposed (refer to Figure 1). The conceptual model is divided into three interrelated levels. The first level includes agile supply chain capabilities. These capabilities are measured through different enablers which are included in the subsequent second level. Finally, each enabler is divided into multiple attributes which are included in the last level. Thus, supply-chain agility conceptual model for the case organization consists of four capabilities, six enablers, and 93 attributes are as listed in the above Table 2.
Step 2: Setting of Ratings, Weights, and Corresponding Fuzzy-Set After identifying competences and drivers of agile supply-chain, agility assessment scale is set using fuzzy logic through linguistic assessment and translation. It is almost impractical to directly assign weights and performance ratings to vague agility drivers; therefore, linguistic terms are used in the proposed process. For the purpose of assigning weights and performance ratings to identified agility-capabilities, agility-enablers, and agility-attributes, the assessment scale is adopted and fixed. For the assessment scale and corresponding fuzzy numbers, refer to Table 3 [14,78]. Table 3. Ratings, Weights, and Fuzzy-Set. In order to assess performance ratings and level of weights assigned to supply chain enablers and attributes in the case organization, a team of a number of cross-functional experts was formed at the case organization. These experts represent the heads of various departments within the organization with more than ten years work experience so that they are well aware about the working culture of the organization and its supply chain. The expert members included the planning manager, purchasing manager and purchasing team leader, warehousing manager, design manager, production manager, quality control manager, customer service manager, and a supply chain specialist. Since the number of experts in previous published literature ranges between four to seven experts [13][14][15][16]19,59], nine experts were approached and were asked to respond questionnaire based data sheet in the form of linguistic terms. These experts' linguistic responses are converted into fuzzy numbers.

Step 3: Fuzzy Ratings and Fuzzy Weights Computation
Several indicators were proposed to synthesize and aggregate multiple decision maker's evaluations like arithmetic mean, median, and mode. Here in this paper, we adopted the arithmetic mean to aggregate the evaluations of multiple organization experts. For given enabler i (i m), fuzzy performance rating (R j ) and weight (W j ) for each attribute j (j n) are computed using the below Equations (1) and (2) [13,16], individually.
Similarly, for given enabler i (i m), each enabler weight is derived using Equation (3).
For the case organization, the computation of fuzzy performance rating and weight for supply chain agility enabler "organization management" (i = 1) and supply chain attribute "Material planning" (j = 1) are presented here below.
Fuzzy performance rating (R 1 ) of the agile supply chain attribute titled "Material planning" is calculated as (refer to Equation (1)). Similarly, for the same attribute (j = 1), the fuzzy weight W 1 is calculated as (refer to Equation (2) The fuzzy weight for the agile supply chain enabler (i = 1) "organization management" is calculated as (refer to Equation (3) Applying the above computations, for each enabler i, fuzzy weights (W i ) are computed and highlighted in Table 4, and for each attribute j, fuzzy performance ratings (R j ) and fuzzy weights (W j ) are estimated. Phase II: Assessment and synthesizing the Phase I listed enablers and attributes contribution in the supply-chain, for the purpose of obtaining agility-index (steps 4 and 5).

Step 4: Computation of Agility Indices for Each Enabler
For each agility enabler and corresponding multiple attributes, it is important to consolidate the fuzzy ratings and weights, and it is represented by an overall fuzzy agility index for each enabler, and that is further used to determine the organization's overall agility-level. Using a weighted approach, refer to Equation (4) [13,84,85]. Fuzzy agility index (FAI) is computed for each enabler (i m).
For the case organization, the overall fuzzy agility-index (FAI) at the enabler "organization management" (j = 1) is calculated as (refer to Equation (4)). Using the above computational approach, the agility indices pertaining to the case organization supply chain agility enablers are computed and highlighted in Table 5. Step 5: Computation of Supply Chain Agility Fuzzy Index Making use of agility indices for each enabler's (refer to above Table 5) supply chain agility fuzzy index (SCAFI) is computed as below (refer Equation (5)):

Supply chain agility fuzzy index
Thus, the supply chain agility fuzzy index pertaining to the case organization is identified using Equation (5)  Phase III: Estimate the agility level of sustainable supply-chain for the purpose of picking out major barriers to enable decision makers to respond effectively and implement corrective measures (Steps 6 and 7).
Step 6: Matching SCAFI with the Linguistic Terminology to Estimate the Overall Agility-Level Once SCAFI is computed (refer above Step 5), to estimate supply chain agility level (SCAL), the matching of SCAFI with linguistic terms is done using numerous approaches; for example, Euclidean distance [14,86], successive approximation [87], and piecewise decomposition [87,88]. Several recommendations referred to utilize the Euclidean distance method because it is the most intuitive and easiest method when compared to others for humans to use in perceiving proximity [14,81]. The Euclidean distance method is used to calculate the Euclidean distance from a given fuzzy number to each of fuzzy numbers representing the expression set of natural-language agility level. The Euclidean distance D between SCAFI and SCAL is computed as below (refer to Equation (6)) [13,85]: In above Equation (6), (o t , q t , s t ) is the corresponding fuzzy set for given agility level linguistic terms (or members) for each t 1 to 5.
The smallest Euclidean distance between SCAFI and SCAL is identified among five calculated distances (refer Equation (6) Similarly, other Euclidean distances for given agility level linguistic terms (or members) for each t 1 to 5 are computed and presented here below in matrix form.

so corresponding t is 2, it means very agile is overall agility level]
Therefore, as a result of matching a linguistic agility level with the minimum D, the supply chain agility level for the case organization is evaluated as "very agile." Step 7: Identify Barriers to Improve Sustainable Supply Chain Agility-Level After defining SCAL of the case organization, it is set to identify the barriers to achieve the next level of agility, a fuzzy performance index (FPI) is computed by combining computed rates and weights for supply chain enablers and attributes that influence agility level. With dropping of FPI, the contribution degree for a factor of agile supply drops. Therefore, the fuzzy performance index (FPI) defines the main barriers of agile supply chain, and is computed using Equation (7) [13,14,16,67]: In Equation (7), for the given i and j, FPI j ≈ (A j , B j , C j ) i is fuzzy performance importance index, R j ≈ (a j , b j , c j ) i is fuzzy ratings, and W j ≈ (x j , y j , z j ) i is fuzzy weights. As computation of fuzzy performance importance index results always the non-orderly set of real fuzzy numbers, the left-and-right fuzzy-ranking method has been adopted to rank fuzzy numbers [73,89,90]. The drawback of the approach is that for diverse fuzzy set numbers, the ranking score will be different [91]. The range, i.e., maximum and minimum fuzzy sets numbers are set using below Equations (8) and (9).
Thus, the left-and-right fuzzy-ranking scores is computed (refer below Equations (10) and (11)) by using sup x U FPI ij (x)ˆU max(x) : the ordinate of the intersecting point of U max and right leg of U FPI ij ; and sup x U FPI ij (x)ˆU min(x) : the ordinate of the intersecting point of U min and left leg of U FPI ij [13,92]. And, lastly FPI total score is computed by combining the left and right scores (refer below Equation (12)).
For the case organization, the supply chain agility level is "VA: very-agile"; it is still far from "EA: extremely agile." This is because of different barriers to improving within the organization supply chain that restricted the agility level. These agility barriers can be defined by obtaining FPI using above Equation (7). FPI calculation sample of the agile supply chain attribute "Material planning" (i = 1, j = 1) is as follows: Similarly, FPI of all 93 agile supply chain attributes are calculated, as listed in Table 6. As computation of fuzzy performance importance index resulted into the non-orderly set of real fuzzy numbers, Equations (8)-(12) were used to defuzzify FPIs. As a sample, the ranking score of the attribute "material planning" (i = 1, j = 1) is as follows:  Similarly, a ranking of all other agile supply chain attributes have been calculated, as listed in the Table 6.
To determine supply chain agility barriers, it is important to set a threshold value. Attributes with ranking scores less than the threshold value are barriers to supply-chain agility. Thus, based on Pareto-principle [86,87], threshold-value in this study for the case organization is set to 0.24829. Table 6 indicates that 21 attributes performed below the threshold value. These 21 agile supply chain attributes are called agility barriers, as shown in Table 7.  The attributes listed in the above Table 7 are the most important contributions allowing the case organization supply chain for improving agility. Therefore, an action plan would be implemented to enhance these barriers and improve the overall agile supply chain of the organization. The main findings and implications of the study for the case organization are discussed in the following section.

Managerial Discussion and Its Implications
The organization stakeholders and mangers as decision makers are bound to try or to establish best practices across their entire supply chain through combined efforts working towards overcoming barriers to achieve sustainable agile supply chain. For the case study on hand, their supply chain has been subject to criticism due to their lack of desired focus on supply chain strategies in context to local and global market. It is evident that a majority of the existing literature on agility assessment is being dominated by theoretical and empirical studies and conceptual models. Thus, it is projected to develop a step-by-step approach for the assessment of supply chain agility and further in result to shortlist the desired agility enablers and barriers to propel towards the desired organizational goal.
The management of the case organization set the objectives to overcome with unexpected challenges, and propelling to survive with unexpected threats of business environment. They desired to estimate their current agility to provide customer-driven products and services in a complex and dynamic interactive market, logistics, and distribution system. There is also desire to explore competitive base and sustainable strategies to be successful in a changing market environment. The presented approach is adopted by the management to increase understanding of the behaviour of their supply chain.
The approach also supported them to develop a strategic solution for their specific organizational agility barriers. Here in the presented case study, the stakeholders and managers as decision makers have realized that agility in their sustainable supply chain is quite essential for the survival and competitiveness. In the way of implementing agility in the sustainable supply chain, the issues to be examined were discussed about agility, its measurement, agility level, and barriers. The assessment of agility in supply chains is termed by managers as an indicator and evaluation of the strategic agile position of their supply chain in the present and future competitive business environment. Stakeholders set freehand to explore managerial practice having a knowledge-rich environment and integration of resources. The presented approach is widely acceptable by the organizational decisions makers, since it assisted the managers in better achieving and easy to measure organization' agility of supply chain. The framework presented is systematic and comprehensive of multiple factors that contribute to achieving sustainable supply chain agility.
From the computation of agility indices for each sustainable enabler, the decision makers are suggested to focus in order of priority on organization management, followed by both information management and strategic commitments, and then to strategic management, lastly least importance to both customer sensitivity and human competence in their supply chain.
Organization management is an agility sustainable enabler factor in dealing with material handling, layout, equipment, processes, plant, etc. Market-oriented financial goals, return on assets, market share, and growth rate all contribute to enhancing organizational and supply chain productivity. Strategic management is an agility enabler contributing to the goal of the strategic alliances among supply chain partners, which is to obtain cost and quality advantages as well as to guarantee the smooth flow of operations. The strategies related to business management, inventory, time management, production and quality, and product design and service contribute to enhance supply chain agility. Strategic commitment is a factor to enhance and encourage eco-innovation to proactively update the manufacturing processes and production schedule within supply chain partners. Information management refers to sharing of agile practices, sharing of information architecture and tradable competencies, final product information, and partners' feedback among the supply chain participants. Customer sensitivity and human competence are factors determining the agility of a supply chain. These factors refer to practices used by an organization to enhance their relationship with customers to serve their needs in a timely and cost-efficient manner by employees through continuous improvement-focused approaches. This is achieved by understanding, analysing, and managing customer expectations, and effectively and efficiently dealing with complaints. This is determined by the employees within the organization, who are assessed based on training and motivation.

Conclusions
The proposed approach is efficient to rank sustainable enablers and attributes for evaluating supply chain agility, and is also capable of handling multiple quantitative and qualitative attributes, but there are some limitations. In this context, from the results of the fuzzy assessment of sustainable supply chain agility for the case organization, it is evident that the manufacturing organization supply chain is very agile. There are twenty-one barriers (refer the above Table 7) out of the total ninety-three attributes (refer above Table 2) within their supply chain that impact the agility-level. Within selected agility barriers, the case organization should have foremost priority on strategies to enhance maintainability and serviceability to make it flexible and inexpensive to establish agile responsive supply chain. At the same time, it should have priority to focus on development and integration of their core competencies to deal with cross-functional and cross-enterprise issues in supply chain. While, in response to an uncertain, comparative, and dynamic global market, and having focus on flexibility and agility, the least preference would be given to demandsupply planning, supply-chain partners' feedback, as well as universalization of market or customer. The limitations and recommendations for other researchers are concluded here below.
Limitations of the assessment approach depends on the managerial perspective of the experts, who are associated in the organization to evaluate the importance of all aspects such as strategy, marketing, and technology. Furthermore, identification of agility capabilities, enablers, and attributes vary from one organization or industry to another; these should be appropriate to organization's own specific environment and considerations. In addition, the computation of weights, overall agility level, or index are complicated and not easily appreciated by managers. So, these calculations can be computerized to increase accuracy while reducing both computation time and the possibility of errors.
Similarly, supply chain agility assessment was carried out in a single manufacturing organization. However, a number of local case studies could be conducted in future for varied organizations across manufacturing and service sectors to improve the validity of the presented approach in future. Thus, improvement based on the use hybrid decision making approach to assess sustainable supply chain agility can be one solution to overcome on limitations.
Lastly, supply chain sustainability aspects related to economic and business performance that can be deployed in future research, are planned as:

•
Develop the model to assess the relationship between agility factors and their impact on financial performance of the sustainable supply chain network.
• Developing an approach that integrates capabilities, enablers, and attributes to design a dynamic supply chain system by incorporating information technology and networks investments and a multi-functional workforce to study the impact of supply chain agility and adaptability on corporate performance. • Developing a software that carries out the computations required to assess a sustainable supply chain to make it easy to provide online real time shortlisting of agility barriers and highlight their implications based on past experiences.

•
Conducting in-depth studies of several market segments such as automotive, electronics, pharmaceutical, entertainment, etc. as well as service, retail, and construction sectors to formulate more precise and focused different models and approaches for the assessment of supply chain. Institutional Review Board Statement: Not applicable.

Informed Consent Statement: Not applicable.
Data Availability Statement: Data is available here within the paper.