Robotics and Expert System

IEEE Journal of Oceanic Engineering, 1986

The purpose of this article is to introduce readers to the basic principles of rule-based expert systems. Four topics are discussed in subsequent sections: (1) Definition; (2) Structure of an expert system; (3) State of the art and (4) Impact and future research.

2016

Artificial intelligence (AI), is a division of computer science that explores intelligent behavior, learning and adaptation in machines. Artificial intelligence is a young science and is still a fragmented collection of subfields. The field of robotics is closely related to Artificial intelligence. Robotics is the science and technology of robots, their design, manufacture, and application. Robots play an important role in day to day fields. The first truly modern robot, digitally operated, programmable, and teachable, was invented by George Devol in 1954 and was ultimately called the Unimate. This paper deals about the clear knowledge of artificial intelligence in robotics, how do robots work, their components, some types of robots, how robots interact with human, their properties and some of their uses.

Since the beginning of the development of artificial intelligence until today, have been written many papers and books in which has been presented progression of artificial intelligence. Artificial intelligence is a relatively young science. Emerged during sixties of the 20th century and from then until today, on its development and improvement are working teams of scientists from all parts of the world in specially equipped laboratories. Over time and developing, the computer data processing is increasingly turning to symbolic data, and less toward numerical. Category of programs that deals with assisting in decision-making in well-defined areas of knowledge are called expert system. These are systems that mimic the knowledge of an expert (human). They are also the most prevalent area of the artificial intelligence. In this article we will explain the necessity of using expert systems in the artificial intelligence.

Artificial Intelligence, 2004

The objective of expert systems is the use of Artificial Intelligence tools so as to solve problems within specific prefixed applications. In the last two decades a great experimental effort together with some theoretical knowledge have been employed to investigate the completeness and consistency of knowledge-based systems and to clarify the structure of these systems. Nevertheless, there is often a gap in the formalism which allows the structuring of the expert system programming towards the expert system design. In the last years, a new field called Ontological Engineering, defined by the IEEE as "the field that establishes a set of concepts, axioms, and relationships that describe a domain of scientific or technological interest" is trying to fill this gap. The work presented here may be placed in this context. In particular, the paper deals with the development of an expert system valid to optimize the adaptation transients arising in adaptive control using a logic formalism previously described, providing good simulation results. Its structure is composed by a supervisor based on an expert network organization and designed to improve the transient performances in the adaptive control of a planar robot. Apart form the basic adaptation scheme consisting of an estimation algorithm plus an adaptive controller, two additional coordinated expert systems are used to update an adaptation gain and the sampling period with a master expert system coordinating both above expert systems.

Proceedings of the 1st International Symposium on Automation and Robotics in Construction (ISARC)

As the construction process and the construction site both increase in complexity, expert systems will increasingly augment or replace conventional algorithmic programs in which all decisions have to be anticipated and pre-programmed. Expert systems are applicable to a wide range of tasks, and many, problems in the construction domain, such as estimating, scheduling, structure diagnosis and site investigation are potential expert system applications. The development of construction robots provides many new applications for expert systems including tasks such as sensor interpretation and equipment diagnosis, operational planning and operational monitoring. 2. Expert Systems Versus Algorithmic Applications In order to put expert systems into proper context, the nature and limitations of conventional computer programs must first be examined. A computer program consists of a recipe of rules that completely specifies the problem solving sequence and actions: 1Prepared for presentation at the Workshop Conference on Robotics in Construction,

2015

The development of Artificial Intelligent (AI) technology system can be a wide scope; for an instant, there are rule-based expert system, frame-based expert system, fuzzy logic, neural network, genetic algorithm, etc. The remarkable achievement applications of AI has been reported in different disciplines including field of medicals, militaries, chemistry, engineering, manufacturing, management, and others. Its’ discoveries and contributions through of AI study since the early 1970s were be significant step to enhance better performance of human work activities and probably replaced by these technologies. Today, there a lot of intelligent machine is available in everywhere such as airport gate scanner, movie theater counter ticket, vending machine, ATM machine, washing machine, etc. Expert system has been used widely in many areas and industries. This paper is described the current research and development of expert system.

2012

In this paper we will discuss a survey on various work done in different areas using Expert System(ES). Different methods and algorithms are used in different areas to solve the problem. An expert system is created to solve problems in a particular narrow domain of expertise. There are two different ways developers look at application areas for ES i.e. first, functional nature of problem and secondly, the application domain. One of the key characteristics of an ES is the explanation facility. With this capability, an ES can explain how it arrives at its conclusion. This survey is aimed at reviewing the recent scientific aspects of various research done on ES using different techniques like Case Based Reasoning(CBR), Rule-Based, Fuzzy Logic etc. Keywords— Expert System, Case Based Reasoning, CLIPS,

Computers & Industrial Engineering, 1991

The number and types of industrial robots available on the market make the selection process an increasingly difficult one for potential robot users. This paper describes an expert system designed for the selection of industrial robots. The system takes into account functional, organizational as well as economical criteria in the selection process. It is user friendly and runs on the VAX/I 1-750 central processor.

Expert Systems with Applications, 2005

Control structures and algorithms (conventional control, fuzzy control, data-based control, modelfree control, sliding mode control, neuro-fuzzy control), Theory and applications of soft computing, Systems modelling, identification and optimization (including nature-inspired algorithms), Computeraided design of control system, Applications to mechatronics systems (including automotive systems and mobile robots, embedded systems, control of power plants, servo systems, electrical driving systems)

1997