Limitation of Emotions in AI Devices

 Limitation of Emotions in AI Devices

V.Kobishankar and K.Thiruthanigesan

HND in Computing and Software Development, ESoft Metro Campus Jaffna,

Sri Lanka

University College of Jaffna, University of Vocational Technology, Jaffna, Sri Lanka

 In this world, the number of robots and their needs are increasing, so that all researchers are beginning to develop robots that meet their needs. As a result, the dominance of robots is beginning to increase in this world. It has also been successful in providing robots with a sense of humanity in the space of time, but there is a problem with their senses. Robots are made of such as iron, which makes them more powerful than humans. Because of this, there is a difficulty in providing the senses to the robots, so the emotions given to the robots must be controlled. or Identify the needs of robots in the fields that are created robots and provide them with the necessary senses. The robot has been used in a variety of ways. The emotions given to these individual-friendly robots must be controlled because they are humanoid. They being as an assistant to man, so it is important to avoid unnecessary emotions or reduce their exposure. For example, the emotion of anger is too low for these types of robots, but the emotion of happiness should be high. gettering data of design part as an output of emotion experiment results for Nao, pepper, kismet robots and then these paragraphs evaluate total robot’s total average percentage emotions. Therefore, when delivering emotions to these types of robots, the percentage of emotions required is increased and the percentage of unwanted emotions is reduced. Such as sad emotion 65% - 85%, Fear emotion 50% - 65%, Pride emotions 60% - 85%, Happiness 80% - 100%, Natural 60% - 80% and excitement 60% - 80% and this study avoid Angry emotion in this human aid robots’ type and this study recommend include Emotion control system in this type robots. This is what the research recommends.

 1           INTRODUCTION

Introduction

Now a day’s Artificial intelligence systems are a major part of human life also be a major branch of computer science, which has become a most essential part of the technology sector.  This type of Artificial intelligence mechanism is aimed at developing an intelligent machine. Research related to operational intelligence is highly technical and specialized.

And especially robots are the most Artificial intelligent system in the world in nowadays and the robots are using most of the works for humans and the robots are successful Discovery for this technological world because this robot is Shrinking lot of works easily. And the robots are built by different types mostly divided by different departments and that department works wisely.

  Robots

Robots that resemble humans are called androids; However, many robots are not made in human models. Industrial robots, for example, are designed to perform a series of tasks that are not facilitated by human-like construction. A robot can be controlled remotely by a human operator, sometimes from a greater distance. Telecommunication is a complex robot that is remotely controlled by the human operator of the telecommunication system, which provides the space and ability for a person to communicate in a remote, dangerous or alien environment. Telepresence robots that physically simulate experience and certain capabilities may help with many possibilities, such as remote business consulting, health care, home monitoring, and child care.

The number of robots is now very high in this world. These robots are beneficial and evil to man in many ways. Despite concerns that such robots may turn people into productive jobs, these robots may work with humans as "robots" where they collaborate with people instead of taking their jobs. Another important application of AI for robots that have attracted attention in recent years is autonomous or self-driving cars. The use of these types of robot cars is attractive because human driver error is the most common cause of accidents. But the likelihood of a robot car crash is because a robot car is not tired, weak, or careless in the way of a human driver. It has a lot more potential to be safe than man-driven vehicles.

Human-robot interaction (HRI)

Human-Robot Interaction (HRI) Currently Very detailed and varied research and design Action. With that, the literature is expanding rapidly Hundreds of publications each year are the function of many professional associations and temporary meetings, mostly in the mechanical and electrical technology fields of Engineering, Computer and Control Science, and Artificial intelligence. Every year since 2006, The IEEE held a special symposium Human-Robot Interaction (IEEE Robotics and Automation Society, 2015). Goodrich and Although Schultz (2007) is an excellent A slightly dated survey of the literature.

Human-automation communication, for example, on operating aircraft, has long been a serious issue in human factors, and to date, manpower has been relatively neglected by our society, but accepted by others, for example, human-computer communication. However, the requirements for participation in the research and design of human communication features and robot research are huge. Human factors experts can explicitly benefit from an advanced understanding of dynamics, control, and computer science (artificial intelligence), but must find ways to collaborate with engineers in these fields in research, conceptual design, and evaluation.

 Emotions

Aristotle (384–322 BCE) wrote: “Emotions are emotions that affect the judgment of men, who participate in pain or pleasure. Anger, pity, and fear are the opposite of them. "Emotion is really multidimensional and involves many important psychological events. Some emotions are enough to worry about a particular person, subject, or situation. Grief, happiness, or depression are all too common. V. Emotional empathy If the person's "walls" are always there, or if it is almost unnoticed, one's emotional intensity is essential to one's physical vitality or mental health. A., Sadness or a person's feeling remorse after committing a crime or feeling grief at a funeral.

Emotion in Robots

Robots have sensors associated with human intelligence. Humans can perceive their environment according to natural intelligence. Robots can be equipped with many such senses to perceive their surroundings. There is a comprehensive body of research on the recognition of human emotions based on different parameters such as voice, facial expression, and body language. VRA technology describes a complete sensory framework that can be clearly identified in speech (excitement, pain, fear, cognitive function, and so on) to identify emotions from the voice. The association between these various emotional stress traits can help determine whether a statement, among other things, is true, deceptive, uncertain, and inaccurate. The person's speech can provide a lot of information about his or her emotional state. This information is present in acoustic properties such as base frequency, pitch, noise, speech rate, and frequency range. Emotions in a robot can help you gain life-like human-computer interaction (HCI). The emotion of a Robot Provides information about many aspects of the current state. They can tell the purpose of the robot, its internal and external position, and it may reveal what the robot is "up to". Feelings of how the robot feels about the environment with the robot. They show how the robot is influenced by those around it, what kind of emotions it has, and how it applies to the changing world around him.

 Problem in brief

Man has transformed these robots into the most important part of their daily lives. He wants to fulfill his need through robots. And these robots are supposed to be human, not just mechanical. And the world is trying to provide robots with human-like emotions in which they have found success.

So, this study discusses the ways in which emotions can be controlled or restricted rather than fully delivered to the robots, and the benefits that come from providing them.

Proposed emotional percentage in emotional control system

Aim and Objective

The process of creating emotional robots in this world has been expanded. However, the literature points out that the attitude of these robots to emotions is not well known, especially in the case of emotion regulation. This research is aimed at narrowing the gap and enriching the research on emotion regulation in robots. These results can be used to make recommendations for improving the quality of robots.

  Aim

Make recommendations of limitation of emotions for improving the quality of robots.

 Objectives

1.      Reviewing the literature on the emotions and the development of robots being provided to robots.

2.      Exploring the use and importance of emotions in the robot field.

3.      Compare various modern-day robots and collect statistics.

4.      Identify such things as improvements in emotion regulation in the robot field.

Organization of the Thesis

This section summarizes the organization of this dissertation.

Chapter 01      Introduction of the research title, explaining the importance by providing Aim and Objectives.

Chapter 02      Elaborating the complete researches that are made in past with the proper analysis of the emotions of robots.

Chapter 03      Getting the overall summary of the robots related to their emotions and finalizing the data.

Chapter 04      Explanation of the proposed methodology and analysis by implementing the methodology to get the expected outcome.  

Chapter 05      Explains the results and discussions that are made with the implemented analytical and study and they are discussed.

Chapter 06      Extracts the conclusion on the overview with emotions of robots that are made by analytical studies of the thesis.

 Summary

Robots are an essential part of today's world. It is imperative that you pay full attention to the emotions presented to you. Therefore, humans have the advantages and disadvantages of robots with these emotions. And by limiting emotions, the key is to create robots that will benefit most people. The following literature describes how building robots can control emotions.

Total results

1           CONCLUSION

In this research, the aims are to Make recommendations of the limitation of emotions for improving the quality of robots so above paragraphs showing how to selected human aid robots as this experiment and then selected robots and their experiment's emotions output results. And then how to calculate the overall average in every emotion in selected robots. and then recommend to the new percentage of results of human aid robots type so in our aim is make recommendations of limitation of emotions for improving the quality of robots so this aim is completed. But so many Disruptions are coming in this doing research parts as well didn’t get the methodology of this part and didn’t get robots experiments emotions results but here finally recommended limited emotions for robots Such as sad emotion 65% - 85%, Fear emotion 50% - 65%, Pride emotions 60% - 85%, Happiness 80% - 100%, Natural 60% - 80% and excitement 60% - 80% and this study avoid Angry emotion in this humanitarian aid robots’ type and this study recommend include Emotion control system in this type robots.  so here, I achieved my aim successfully.

Future work

Here This study future work did the same experiment on all of the types of emotion given robots and getting data from these types of many robots results of emotion percentages and then did an experiment of did the same thing of methodology part of this research paper and then recommended percentages and limited emotions which mean every type of robots are different ways reflect emotions so which type of robots that robots jobs based finding wanted emotions and unwanted emotions and then build final recommended output. And then that recommended emotions and their minimum to maximum level percentage are installed or build emotion control system so this time the study strongly says please build emotion control system on your new build type of robots it makes a new way of robot’s industry.

Proposed emotional percentage in emotional control system