The of aspects: organizational & technical. The organizational

The DMO(decision making operation) noticeable by two kinds of aspects: organizational & technical. The organizational aspect are these linked to companies’  day -2- day function ; where decision should be made and aligned with the companies’ strategy.

The technical aspect include the toolkit used to help the decision making process such as IS , DR, FM , and AD. This work gives light on a subsidiary of the aspects combined to determine an integrated decision-making model using BD, BI, DSS, and organization learning all work together to provided  DM with a reliable imagination of resolution-related way. The primary goal of this work is to perform a theoretical analysis and discussion about these aspects .(IS- information systems)(DR- data repositories)(FM- formal modeling)(AD- analysis of decisions)(BD-big data)(BI- business intelligence)(DM- decision maker)1 Introduction Organizations need to use a structured view of information to improve their DM process.

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To achieve this structured view, they have to collect and store data, perform an analysis, and transform the results into useful and valuable information. To perform these analytical and transformational processes, it is necessary to make use of an appropriate environment composed of a large and generalist repository, a processor core with the appropriate intelligence BI, and a UI . The repository must be filled with data originating from many different kinds of ext and int DS  These repositories are the DW generalists and DM and most recently, BD. The BD concept and its applications have emerged from the increasing volumes of ext and int data from organizations that are differentiated from other data? bases in 4Vs : volume, velocity, variety, and value. Volume considers the data amount, velocity refers to the speediness with which data may be analyzed and processed, variety describes the different kinds and sources of data that may be structured, and value refers to valuable discoveries hidden in great datasets  Big Data has the potential to aid in identifying opportunities related to decision in the intelligence phase of Simon’s model. In some cases, the stored data may be used to aid the decision-making process. In this context, the term “intelligence” refers to knowledge discovery with mining algorithms.

In this way, Big Data use can be aligned with the application of Business Intelligence (BI) tools to provide an intelligent aid for organizational processes. The data necessary to obtain the business perceptions must be acquired, filtered, stored, and analyzed after the available data are heterogeneous and in a great volume. The processes of filtering and analysis of the data are very complex, because of that it is necessary the use BI strategies and tools. The main proposal of the present study is to develop an investigation that describes the roles of Big Data, and BI in the decision-making process, and to provide researchers and practitioners with a clear vision of the challenges and opportunities of applying data storage technologies so that new knowledge can be discovered. The sequence of this work is as follows.

Section 2 provides a background for BD and some of its applications. Section 3 introduces the concept of DSS. Section 4 conceptutilize BI and presents its organizational and technological components. Section 5 presents a scheme for the integration between Big Data, BI, decision structuring and making process, and organizational learning. Section 6 contains a discussion about the integration perspective of the decision-making process, according the scheme presented in Sect. 5. Finally, the conclusion presents the limitations of this study and highlights the insights this work has gained2 Big Data With data increasing globally, the term “Big Data” is mainly used to describe large datasets.

Compared with other traditional databases, Big Data includes a large amount of unstructured data that must be analyzed in real time. Big Data also brings new opportunities for the discovery of new values that are temporarily hidden . Big Data is a broad and abstract concept that is receiving great recognition and is being highlighted both in academics and business. It is a tool to support the decision-making, process by using technology to rapidly analyze large amounts of data of different types (e.g., structured data from relational databases and unstructured data such as images, videos, emails, transaction data, and social media interactions) from a variety of sources to produce a stream of actionable knowledge .

After the data is collected and stored, the biggest challenge is not just about managing it but also the analysis and extraction of information with significant value for the organization. Big Data works in the presence of unstructured data and techniques of data analysis that are structured to solve the problem . A combination called the 4Vs characterizes Big Data in the literature: volume, velocity, variety, and value . Volume has a great influence when describing Big Data as large amounts of data are generated by individuals, groups, and organizations.    The second item, velocity, refers to the rates at which Big Data are collected, processed, and prepared—a huge, steady stream of data that is impossible to process with traditional solutions, for this reason, it is important to consider not only “where” data are stored but also “how” they are stored.

The third item, variety, is related to the types of data generated from social sources, including mobile and traditional data. With the explosion of social networks, smart devices, and sensors, data have become complex because they include semi-structured and unstructured information from log files, web pages, index searches, cross media, e-mail, documents, and forums. Finally, the value can be discovered from the analysis of the hidden data, so Big Data can provide new findings of new values and opportunities to assist in making decisions. However, management of this data can be considered as a challenge for organizations . In order to demonstrate the differentiation between Big Data and Small Data, we analyzed them using five main characteristics: data sources, volume, velocity, variety, and value, in Table 1. Importantly, relational databases are not obsolete, on the contrary, they continue to be useful to a number of applications. In practice, how larger a database becomes, the higher the cost of processing and labor, so it is necessary to optimize and add new solutions to improve storage providing greater flexibility. For the purpose to better understand the impact of science and Big Data solutions, the applications and Big Data solutions in the following different contexts will be presented: education, social media and social networking, and smart cities.

Grillenberger and Fau used educational data to analyze student performance . Their learning styles were also clarified by the use of Big Data in conjunction with teaching strategies to gain a better understanding of the students’ knowledge and an assessment of their progress. These data can also help identify groups of students with similar learning styles or their difficulties, thus defining a new form of personalized learning resources based on and supported by computational models. Big Data has created new opportunities for researchers to achieve high relevance when working in social networks. In this context, Chang, Kauffman and Kwon used communications environments to discuss the causes of the paradigm shift and explored the ways that decision support is researched, and, more broadly, applied to the social sciences .

In the context of a smart city, Dobre and Xhafa provide a platform for process automation collection and aggregation of large-scale information. Moreover, they present an application for an intelligent transportation system . The application is designed to assist users and cities to resolving the traffic problems in big cities. The combination of these services provides support for the application in intelligent cities that can, benefit from using the information dataset. The value of Big Data is driving the creation of new tools and systems to facilitate intelligence in consumer behavior, economic forecasting, and capital markets. Market domination may be driven by which companies absorb and use the best data the fastest.

Understanding the social context of individuals’ and organizations’ actions means a company can track not only what their customers do but also get much closer to learning why they do what they do.To date, for the use of Big Data, a modern infrastructure is needed to overcome the limitations related to language and methodology. Guidelines are needed in a short time in order to deal with such complexities, as different tools and techniques and specific solutions have to be defined and implemented. Furthermore, different channels through which data are collected daily increases the difficulties of companies in identifying which is the right solution to get relevant results from the data path.

In this context, the technology of BI and DSS will be presented.3 Decision Support Systems (DSS)Information and knowledge are the most valuable assets for organizations’ decision-making processes and need a medium to process data into information loaded with value and relevance for use in organizational processes. Information Systems (IS) represent these media. Specifically focused on the decision-making process, the DSS work for the processing, analyzing, sharing, visualizing of important information to aid in the process of knowledge aggregation and transformation, and thereby improve the organizational knowledge. DSS are IS designed to support solutions for decision-making problems. The term DSS has its origin in two streams: the original studies of Simon’s research team in the late 1950s and the early 1960s and the technical works on interactive computer systems by Gerrity’s research team in the 1960s .

In a more detailed definition, DSS are interactive, computer-based IS that help decision-makers utilize data, models, solvers, visualizations, and the user interface to solve semi-structured or unstructured problems. DSS are built using a DSS Generator (DSSG) as an assembling component . DSS have a strict link with intelligence-design-choice model, but acting with more power in the choice phase . Their main objective is to support a decision by determining which alternatives to solve the problem are more appropriate. Although the choice is made by a human agent (a manager, treated as a decision-maker within this process), the DSS role is to provide a friendly interface where the agents can build scenarios and simulate and obtain reports and visualizations to support the decisions . This kind of system has a set of basic elements that includes a data base and a model base with their respective management, the business rules to process data according a chosen model (e.g.

, the core of the system), and a user interface . Data and model bases and their respective management systems allow for business rules in processing data according to a model to formulate the possibilities of solutions for the problem.4 Integrated Model for Decision-Making Process, Big Data, and BI Tools Simon’s decision model summarizes the decision-making process into three phases, as introduced previously. Each phase this model is susceptible to the use of methods and tools from organizational and technological perspectives. The organizational perspec? tive may use Problem Structuring Methods (PSM); Multi-criteria Decision Aid (MCDA); and KM techniques such as brainstorming, communities of practice, best practices, narratives, yellow pages, peers assistance, and knowledge mapping. These methods and techniques aids in the knowledge elicitation of the actors involved in the decision-making process, thus contributing to identify the necessary expertise necessary for solve the specific problem in question, as in the case of PSM and KM techniques, or acting to provide recommendations to solve this problem, as in the case of MCDA.

Technological tools involve data repositories (e.g., data warehouses and data marts) filled with data from public sources, BI or even AI and Problem Solving Methods (PSolM) originated from Knowledge Engineering (KE) (e.g.

, CommonKADs and Meth? odology and Tools Oriented to Knowledge-Based Engineering Applications MOKA).These tools are important elements that contribute to store, access and analyze information, discovering and sharing knew knowledge in databases and even supporting the application of the organizational perspective’s methods and technics. The main purpose of this work is the integration of the decision-making process with some of these tools presented in Fig. 2, considering the perspective of the predictive approach to decision-making. In this perspective, the use of methods to structure deci? sion problems and suggest alternatives to choose from is an important issue and an efficient way to support the DSS design and development. Combined with the predictive approach, this process makes use of BI tools to provide domain information to aid all the phases of the process.It is noteworthy that some of these elements are framed within the phases of Simon’s model.

In the phase of intelligence, by making use of Big Data powered by internal and external data sources, organizations can make use of BI strategies and tools to aid in identifying relevant information, and then the generation of decision opportunities occurs. The function of the design phase is to provide a methodology to aid the choice of the alternatives based in what was defined in the problem structuring process during the intelligence phase. This design must also be incorporated into this methodology, as formal aspects related to the method or model that are defined according the problems identified during the problem structuring process. The development of DSS has madethe use of this model viable by allowing the decision-makers, through a friendly and easy-to-use interface, to perform a series of configurations. In the final phase of choice, the decision-makers will use the results generated by DSS to complete the decision-making process with the choice of one, or a set of, alter? natives, that will then be implemented by the organization. All these processes produce new knowledge to be combined with previous knowl? edge about the domain of the problem. This new knowledge will provide feedback to power the Big Data so that it can be used as necessary, thus fulfilling its role in the organizational learning process.Each aspects of the integrated model is described as follows: 1- Content acquisition through public and private organizational data sources: This is mainly concerned with the collection, storage, and integration of relevant infor? mation necessary to produce a content item.

In the course of this process, informa? tion is being pooled from internal or external sources for further processing. Big Data incorporates different types of sources, including text, audio, video, social networks, images, time forecasting, etc. Strictly, the main purpose of this element is none other than the data acquisition from Big Data to use in decision-making process.

2- Intelligence: The whole world is producing a great amount of data. Thus, this is relevant as Big Data obtains its value from three of the 4Vs: volume, variety, and velocity. In this phase, aggregated values from stored data have a fundamental role for the creation of opportunities and alternatives once the data are analyzed. More? over, in this context it is important to highlight the importance of data visualization. For example, in a spreadsheet is difficult to identify trends in data. However, the use of graphics and images improve the perception for the data analysis helping a faster recognition of trends or patters and improving the capacity of the data analyst to perform his work.

Based on the visualization provided by the elements that composes Big Data concept, corrective actions can be done in case of deviations and negative trends. Therefore, in the intelligence phase the concept of Big Data should not be analyzed only with volume, but can improve the ability to view this data, filtering a large volume of data in different contexts of information. Visualization techniques are now extremely important for the generation of value of the concept of Big Data. After all, Big Data is not a concept just about data, but we can extract insights and intelligence and visualization is the fundamental key to the decision-making process. The intelligence represents the capacity to aggregate value to acquired data in order to obtain relevant information, applicable in the organizational problem solving. This information should be capable of contextualize with internal and external phenomena of the organization, ensuring the other following elements the necessary power of action to satisfactorily contribute to resolve the problem.

3- Opportunities and alternatives generation: This is the process of creating alternative, which is not a trivial task. It starts with dataset analysis that enable decision makers to obtain a global view of the process. Then, from the analyses performed through BI tools with Big Data content, decision-makers pro-actively create opportunities and generate opportunities to solve the decision problem. This phase also works for the definition of the criteria, which the decision-makers will use to judge or evaluate each alternative.

4- DSS: With the opportunities identified and having the criteria and alternatives to evaluate, DSS may be implemented according a decision problem that will predict which method is the most adequate. DSS will act in helping decision-makers in obtaining an indication or a recommendation of alternatives to choose from that will be implemented to solve the problem. 5- Implementation of decision: After a choice is made, alternatives will be implemented  in organizations to actively solve the identified problem. As a last element, the Organizational Learning says respect to all these processes’ elements generating important knowledge about the decision problem. This knowledge may be captured, registered, and stored in a knowledge repository to provide organizational memory about the problem domain and will be available for use at any time. The standard flow of this new knowledge, after the implementation of the chosen action, runs to private (or internal) data sources, e.g.

, a base of managerial practices.5 Conclusion The increasing amount of data that arrives at organizations accumulate through electronic  communication is amazing, in that not only has the volume of the data change, but also the variety of information collected in through several communication channels ranging from clicks on the Internet to the unstructured information from social media. In addition, the speed at which organizations can collect, analyze, and respond to information in different dimensions is increasing.

Big Data has become a generic term, but in essence, it presents two challenges for organizations. First, business leaders must implement new technologies and then prepare for a potential revolution in the collection and measurement of information. Second, and most important, the organization as a whole must adapt to this new philosophy about how decisions are made by understanding the real value of Big Data. Organizations must understand the role of the Big Data associated with decision-making, with the emphasis on creating opportunities from these decisions, because we live in a world that is always connected, and where consumer preferences change every hour. Thus, analysts can check multiple communication channels simultaneously and trace certain profiles or decider behaviors. The main contribution of this work is to promote the integrated view of Big Data, BI and DSS inside the context of decision-making process, assisting managers to create new opportunities to resolve a specific problem.

The crucial point is to look widely for new sources of data to help make a decision. Furthermore, Big Data not only transforms the processes of management and technology but it also promotes changes in culture and learning in organizations. Ultimately, Big Data can be very useful if used adequately in the decision-making process, but just its use will not guide the decision itself and it will not generate alter? natives or predict the results. For this, the participation of decision-makers is essential, as their experience and tacit knowledge are necessary to aggregate value over information and the possible knowledge stored. From this initial study, where the idea of get an integrated view of all these elements as decision-making tools, we can create a set of perspectives to apply in future researches, as example a detailed exploration focused on each phase of the model.

Other ideas: semantic exploration of Big Data applied to decision problems structuring, direct integration between Big Data and BI tools to fulfil organizational repositories providing data to the information systems.


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