Название: Cognitive Behavior and Human Computer Interaction Based on Machine Learning Algorithms
Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Жанр: Программы
isbn: 9781119792086
isbn:
Figure 1.1 Cognitive behavioral elements of broad view of human-computer interface in management [10].
Organizational context,
Technology context,
Social context,
Global context.
When designing your interface in any one of the above contexts, it should be consistent and predictable in the user choice of interacting elements. Initially, the experts need to train them to use the functionality, operation of various events; if whether they are aware of it or not, users must have to be trained; once they become familiar with elements; if they act in a certain way, they need to adopt those elements when appropriate will help to accomplish with efficiently in utmost satisfaction.
Interface elements include but are not limited to the following:
Technology and advanced technology: input, output, information, etc.
Task/job: task goals and task characters
Human: Demographics, physical/motor, cognitional level, and emotional level
Context: Organizational context, technology context, social context, and global context.
However, design usability is rapidly increasing day by day and refer primarily to the ease with connecting users accomplish their intended tasks and relatively closely associated with the use of evaluation impact calculated with the usability testing. Therefore, many perceive usability as a rather tactical aspect of any human-computer interface management system product design: the global context, social context, technology context, and organizational context. However, usability may not complete with the encompassment of all UI elements relating to ease of use. User interface elements’ outcome gives out things like flexibility, adaptability, compatibility and can ease to learn and recognize information in a possible manner and economic affordability also comes into this category [10].
1.2 Cognitive Modeling: Decision Processing User Interacting Device System (DPUIDS)
Cognitive modeling is helpful in the decision processing systems through user interface device systems. Data science and behavioral sciences are viewed as significant parts of any decision making. It gives us a powerful new tool and these are suppressing tedious tasks to make it as simple by analytic indication through behavior changes and represent their consequences day by day and presented to their visuals. Machine learning and data science studies help predict future outcomes by using analytics from widespread large data sets to assess the desired outcomes to accomplish personalized behavioral interventions. This may not be a concern for most businesses’ aspects; some of the programs are adequate and applicable to everyday issues. Through cognitive behavior assessment, the investigators and researchers are designed new algorithms to recognize the circumstances around their environments and subsequently change the negative energy to positive energy to bring out more outcomes to meet the predicted outcome. It allows us to quickly do basic arithmetic and read emotional intelligence, body language, postures and gestures, and complete sentences.
1.2.1 Cognitive Modeling Automation of Decision Process Interactive Device Example
For a typical discussion, if anyone of the person, energy is low from any number of tasks or processes or over successive or meetings or engaging intensive concentration, his or her mental energy will be going to be decreased to the point that point the automatic system needs to take over the carry out next task. Where cognitive decision processing user interface device systems are designed and developed with algorithmic prediction, there can begin to identify policymakers’ characteristics, factors, and like benefit and appropriately target the interacting people.
The paramedical structure describes the business intelligence user community decision processing system. Data analytics is a process of monitoring, the inception of inspection, cleaning of data like imbalances, identifying skewness, external noise, transforming the data and information through online analytical process and online transaction process, and modeling data to extract useful information through supporting decision-making. Data analysis process has multiple facets and strategic approaches, encompassing diverse techniques under a variety of cubes, names, under a different business, science, and social science domains. Suppose a typical user does not have the expertise or the resources to employ dedicated information technology resources to develop reports, tools, or customization applications. He or she can take the help of software tools, and the visualization of events will help make decisions. In this respect, automatic interactive visualizations are helped on behalf of users.
One aspect of decision processing user interaction device systems is a collection of integrated embodiments of events. Those who respond to a system and collect interactive visualizations methods include receiving a selection of required data through the report processing generation system. Integrated data consists of database storage systems and their active listening interfaces are given between the source senders to the received listener. Those storage databases and respective interfacing devices invoke the necessary methods, automatically generated functional activity then accomplish the user tasks. They are easy to determine an associated visualization for the selected data based on heuristics; it is said that a set of rules is used to determine the associated visualization most appropriately for interacting decision process systems [12].
Decision processing and interacting device systems identify complex data as more accessible, understandable, and usable. These systems are used in the domains like business, organizations, and various endeavors, and massive amounts of data are being collected, processed, and stored. This trend is growing exponentially with the adoption of the internet, intranet, advancing networking technologies, powerful mobile devices, wearable devices, and the like many vast device’s interconnectivity. The world makes it into a Global village and most of the devices are connected in the Internet of Things (IoT) and through Sensor Networks. The applications of the interactive device systems are one of the sets of cognitive-behavioral and neural network-related machine learning, deep learning and type of convolutional networks, and recurrent neural networks that are running an enterprise, such as without limitation, payrolls, inventory, marketing, sales and distribution, vendor management, accounting, supply chain management, and resource planning applications (Figure 1.2) [13].
Figure 1.2 Decision processing system user interface device management as external customer [13].
1.2.2 Cognitive Modeling Process in the Visualization Decision Processing User Interactive Device System
Cognitive models are useful artifacts used to understand a better way to accomplish a real-world object task in our world. In the context of knowledge representation and automated reasoning. The use of visualization tools is used to create useful patterns in the extraction of knowledge.
The important modeling visualization tools are described below with their functionality and objective role of decision processing interaction role in various devices that are shown in the below diagram (Figure 1.3) [15].
The flow chart description is step by step.
1 Views to mental model, thereby computing sensory input devices to visualize data to discover useful information. Understand and justify.
2 A СКАЧАТЬ