scholarly journals Sistem Pakar Mendiagnosa Penyakit Itp (Idiopathic Thormbocytopenict Purpura) Mengunakan Metode Variable Centered Intelligent Rule System (VCIRS)

2020 ◽  
Vol 1 (2) ◽  
pp. 94
Author(s):  
Mhd. Iskandar Romadon Hasibuan
Keyword(s):  
Artificial Intelligence ◽  
Expert System ◽  
Programming Language ◽  
Visual Basic ◽  
Thrombocytopenic Purpura ◽  
System Method ◽  
Artificial Intelligence Technology ◽  
Computer Based ◽  
Rule System ◽  
Answering Questions

At this time the use of computer peripheral technology has grown rapidly and is popular in the community. Most people use it not only for commercial purposes, but also to obtain information on the detection of disease quickly and efficiently with computer-based applications that can help the general public to find out the causes and symptoms of these diseases. For this reason, we need a system designed to be able to mimic the expertise of an expert in answering questions and solving a problem in accordance with the knowledge of an expert entered into a computer system. The development of Artificial Intelligence technology that has occurred has enabled the Expert System to be applied in detecting diseases using the programming language. One of them is in providing information about various problems, especially ITP (Idiopathic Thrombocytopenic Purpura) disease. The expert system method used is the Variable Centered Intelligent Rule System (VCIRS) used to deal with diagnosing ITP disease. With the facilities provided for users and administrators, it allows both users and administrators to use this system according to their individual needs. Users are given the ease of knowing information about ITP disease, its causes and prevention. This Expert System was created using the Microsoft Visual Basic 2008 Programming Language.

SISTEM PAKAR MENDIAGNOSA PENYAKIT HEPATITIS MENGGUNAKAN METODE VARIABLE CENTERED INTELLIGENT RULE SYSTEM (VCIRS)

2018 ◽  
Vol 2 (1) ◽  
Author(s):  
Dewi Atika Lubis ◽  
Nelly Astuti Hasibuan ◽  
Kurnia Ulfa
Keyword(s):  
Expert System ◽  
Programming Languages ◽  
System Variable ◽  
The People ◽  
System Method ◽  
Artificial Intelligence Technology ◽  
Computer Based ◽  
Rule System ◽  
Answering Questions ◽  
Device Technology

At present the use of computer device technology has grown rapidly among the people. Most people use it not  only for commercial purposes, but also to get information on disease detection quickly and efficiently with computer-based applications that can help the general public to find out the causes and symptoms of the disease. For this reason, a system is designed to be able to imitate the expertise of an expert in answering questions and solving a problem in accordance with the knowledge of an expert who is incorporated into a computer system. The development of artificial intelligence technology that has happened has enabled the expert system to be applied to its use in detecting diseases by using programming languages. One of them is in providing information about various problems, especially hepatitis. The expert system method used is a Variable Centered Intelligent Rule System (VCIRS) used to handle uncertainty in diagnosing hepatitis. With the facilities provided to the user, it allows the user to use this system according to their individual needs. Users are given easy information about the symptoms of hepatitis, and their prevention. This Expert System is created using the Microsoft Visual Basic 2008 programming language.Keywords: Expert system, Variable Centered Intelligent Rule System (VCIRS), Hepatitis

SISTEM PAKAR MENDIAGNOSA PENYAKIT VAS, KULITIS MENGGUNAKAN METODE VARIABLE CENTERED INTELLIGENT RULE SYSTEM (VCIRS)

2018 ◽  
Vol 2 (1) ◽  
Author(s):  
Pipi Susanti ◽  
Nelly Astuti Hasibuan ◽  
Kurnia Ulfa
Keyword(s):  
Expert System ◽  
Programming Languages ◽  
System Variable ◽  
System Method ◽  
Computer Device ◽  
Artificial Intelligence Technology ◽  
Computer Based ◽  
Rule System ◽  
Answering Questions ◽  
Device Technology

At this time the use of computer device technology has developed rapidly and the community. Most people use it not only for commercial purposes, but also to get information on disease detection quickly and efficiently with a computer-based application that can help the general public to find out the causes and symptoms of the disease. for that, a system is needed to imitate the expertise of an expert in answering questions and solving problems in accordance with the knowledge of an expert who is entered into a computer system. The development of artificial intelligence technology that has occurred has made it possible for expert systems to be applied to detect disease using programming languages. One of them is in providing information about various problems, especially Vasculitis. The expert system method used is a Variable Centered Intelligent Rule System (VCIRS) used to handle diagnosing vasculitis. With the facilities provided for users and administrators, allowing both users and administrators to use this system according to their individual needs. Users are given ease in knowing information about Vasculitis disease, its causes and deterrents. This expert system is created by using Microsoft Visual Basic 2008 Programming Language.Keywords: Expert System, Variable Centered Intelligent Rule System (VCIRS), Vasculitis

SISTEM PAKAR MENDIAGNOSA VIRUS MAYORA DENGAN METODE VARIABLE CENTERED INTELLIGENT RULE SYSTEM (VCIRS)

2018 ◽  
Vol 2 (1) ◽  
Author(s):  
Siti Nurhena ◽  
Nelly Astuti Hasibuan ◽  
Kurnia Ulfa
Keyword(s):  
Artificial Intelligence ◽  
Immune System ◽  
Expert System ◽  
Expert Systems ◽  
Dengue Hemorrhagic Fever ◽  
Hemorrhagic Fever ◽  
Visual Basic ◽  
Artificial Intelligence Techniques ◽  
Individual Needs ◽  
Rule System

The diagnosis process is the first step to knowing a type of disease. This type of disease caused by mosquitoes is one of the major viruses (MAVY), dengue hemorrhagic fever (DHF) and malaria. Sometimes not everyone can find the virus that is carried by this mosquito, usually children who are susceptible to this virus because the immune system that has not been built perfectly is perfect. To know for sure which virus is infected by mosquitoes, it can diagnose by seeing symptoms perceived symptoms. Expert systems are one of the most used artificial intelligence techniques today because expert systems can act as consultations. In this case the authors make a system to start a diagnosis process with variable centered intelligent rule system (VCIRS) methods through perceived symptoms. With the facilities provided for users and administrators, allowing both users and administrators to use this system according to their individual needs. This expert system is made with the Microsoft Visual Basic 2008 programming language.Keywords: Expert System, Mayora Virus, Variable Centered Intelligent Rule System (VCIRS)The diagnosis process is the first step to knowing a type of disease. This type of disease caused by mosquitoes is one of the major viruses (MAVY), dengue hemorrhagic fever (DHF) and malaria. Sometimes not everyone can find the virus that is carried by this mosquito, usually children who are susceptible to this virus because the immune system that has not been built perfectly is perfect. To know for sure which virus is infected by mosquitoes, it can diagnose by seeing symptoms perceived symptoms.Expert systems are one of the most used artificial intelligence techniques today because expert systems can act as consultations. In this case the authors make a system to start a diagnosis process with variable centered intelligent rule system (VCIRS) methods through perceived symptoms.With the facilities provided for users and administrators, allowing both users and administrators to use this system according to their individual needs. This expert system is made with the Microsoft Visual Basic 2008 programming language.Keywords: Expert System, Mayora Virus, Variable Centered Intelligent Rule System (VCIRS)

Psychological Issues in the Design of Expert Systems

1984 ◽  
Vol 28 (1) ◽  
pp. 73-77 ◽  
Author(s):  
Bruce W. Hamill
Keyword(s):  
Artificial Intelligence ◽  
Expert System ◽  
Expert Systems ◽  
Decision Aids ◽  
Non Profit ◽  
Psychological Issues ◽  
Knowledge Based ◽  
Artificial Intelligence Technology ◽  
Computer Based ◽  
Current Psychological

Recent advances in the artificial intelligence technology of knowledge-based expert systems have captivated the imaginations of designers, sponsors, and suppliers of computer-based systems in government and industry as well as researchers in university and non-profit laboratories where the technology originated. An expert system is essentially a way to capture the knowledge and expertise of a subject-matter expert and transfer it to a computer program in hopes of creating an “intelligent” computer system that will emulate the problem-solving and decision-making performance of the expert. Such systems are being built to serve as intelligent advisors and decision aids in a wide variety of application areas. We discuss conceptual issues underlying expert system design, with references to current psychological and artificial intelligence literature, and urge Consideration of these issues before undertaking development of expert systems.

scholarly journals Comparative Analysis Of Dempster Shafer Method With Certainty Factor Method For Diagnose Stroke Diseases

2018 ◽  
Vol 2 (1) ◽  
pp. 32
Author(s):  
Erwin Kuit Panggabean
Keyword(s):  
Artificial Intelligence ◽  
Comparative Analysis ◽  
Expert System ◽  
Knowledge Representation ◽  
Programming Languages ◽  
Certainty Factor ◽  
Factor Method ◽  
System Method ◽  
Artificial Intelligence Technology ◽  
Better Than

The development of artificial intelligence technology that has occurred has allowed expert systems to be applied in detecting disease using programming languages. One in terms of providing information about a variety of disease problems that have recently been feared by Indonesian society, namely stroke. Expert system method used is dempster shafer and certainty factor method is used to analyze the comparison of both methods in stroke.Based on the analysis result, it is found that certainty factor is better than demster shafer and more accurate in handling the knowledge representation of stoke disease according to the symptoms of disease obtained from one hospital in medan city, uniqueness of algorithm that exist in both methods.

scholarly journals Rancang Bangun Sistem Pakar Diagnosa Penyakit Tanaman Stroberi Menggunakan Metode Certainty Factor Berbasis Web

Repositor ◽  
2019 ◽  
Vol 1 (1) ◽  
pp. 47
Author(s):  
Nina Mauliana Noor Fajriah ◽  
Yufis Azhar ◽  
Gita Indah Marthasari
Keyword(s):  
Artificial Intelligence ◽  
Expert System ◽  
Computer Science ◽  
Programming Language ◽  
Disease Symptom ◽  
Certainty Factor ◽  
Factor Method ◽  
System Database ◽  
And Behavior

Expert system is one of the AI Development fields. AI (Artificial Intelligence) is part of a computer science which used the computer to imitate the human thoughts and behavior. The usage of a method in Expert System is very important. Thus, the most compatible method to use is the Certainty Factor method. This method is suitable to be used on Expert System to measure things and diagnosed it, will it be very sure or unsure. For example, Expert System to diagnose disease on strawberry plants. This software allows the user to diagnose the disease on strawberry plants before taking a further action. This software is using PHP programming language and store the data using MySQL system database. When the user consulting to the software, the software will show the symptoms of the disease and the user can choose the level of certainty from the chosen disease symptom. The final result from the software is a form which includes the guide of how to take the measurement of the disease based on the chosen symptoms.

Dynamics in Knowledge

2012 ◽  
pp. 1595-1612 ◽  
Author(s):  
Shigeki Sugiyama
Keyword(s):  
Artificial Intelligence ◽  
Expert System ◽  
Problem Solving ◽  
Small Area ◽  
Social Study ◽  
Engineering Science ◽  
The Past ◽  
Intelligent Software ◽  
System Method ◽  
Modern Engineering

Since the idea of “artificial intelligence with knowledge” had been introduced, so many thoughts, theories, and ideas in various fields of engineering, science, geology, social study, economics, and management methods have been proposed. Those things have been started as an extension of modern engineering control theories and practices. Firstly, expert system by using IF-Then rules came up to at a production spot in manufacturing, and then agent system method by using intelligent software programs for design, planning, scheduling, production, and management in manufacturing. And then after, the idea of “Knowledge” burst into the artificial intelligence field as a real aid for getting any purpose to be accomplished by having augmented the past key knowledge in terms of management (controlling). However, those augmented knowledge methods used to have usages only in a limited small area. In addition to this, lots of works have to be done before making the systems work for a target problem solving. And what is worse, lots of parts of systems have to be customized for a new application. This chapter introduces a new direction and a method in “Knowledge” by inaugurating the brand new idea of “Dynamics in Knowledge,” which will behave more flexibly and intelligently in real usages.

Dynamics in Knowledge

2012 ◽  
pp. 102-119
Author(s):  
Shigeki Sugiyama
Keyword(s):  
Artificial Intelligence ◽  
Expert System ◽  
Problem Solving ◽  
Small Area ◽  
Social Study ◽  
Engineering Science ◽  
The Past ◽  
Intelligent Software ◽  
System Method ◽  
Modern Engineering

Since the idea of “artificial intelligence with knowledge” had been introduced, so many thoughts, theories, and ideas in various fields of engineering, science, geology, social study, economics, and management methods have been proposed. Those things have been started as an extension of modern engineering control theories and practices. Firstly, expert system by using IF-Then rules came up to at a production spot in manufacturing, and then agent system method by using intelligent software programs for design, planning, scheduling, production, and management in manufacturing. And then after, the idea of “Knowledge” burst into the artificial intelligence field as a real aid for getting any purpose to be accomplished by having augmented the past key knowledge in terms of management (controlling). However, those augmented knowledge methods used to have usages only in a limited small area. In addition to this, lots of works have to be done before making the systems work for a target problem solving. And what is worse, lots of parts of systems have to be customized for a new application. This chapter introduces a new direction and a method in “Knowledge” by inaugurating the brand new idea of “Dynamics in Knowledge,” which will behave more flexibly and intelligently in real usages.

The Designment of Digital Greenhouse Expert System

2012 ◽  
Vol 190-191 ◽  
pp. 199-204
Author(s):  
Jun Sun ◽  
Feng Zhang ◽  
Zhuang Chen
Keyword(s):  
Artificial Intelligence ◽  
Expert System ◽  
Pest Control ◽  
Computer Technology ◽  
Basic Information ◽  
Crop Cultivation ◽  
Digital Management ◽  
Artificial Intelligence Technology ◽  
Management Techniques ◽  
Healthy Growth

In order to improve the management of crops in digital greenhouse, and give crops a healthy growth, the digital greenhouse expert system is developed based on the growth knowledge of agricultural greenhouse, computer technology and artificial intelligence technology. The expert system can provide basic information about crop growth, cultivation and management techniques, pest control and other diagnostic functions, as well as expert online answering question and so on. The development of the system is advantageous to standardize digital management of greenhouse crop cultivation, reduce the burden of planting staff, and it also can improve crop quality.

scholarly journals Uso de la Inteligencia Artificial para Incrementar la Autonomía de un Robot Móvil Mindstorms NXT en Tareas de Clasificación de Patrones

2018 ◽  
pp. 50-58
Keyword(s):  
Artificial Intelligence ◽  
Neural Networks ◽  
Artificial Neural Networks ◽  
Mobile Robot ◽  
Programming Language ◽  
Optical Sensors ◽  
Visual Basic ◽  
Artificial Vision ◽  
Artificial Neural ◽  
External Computer

Uso de la Inteligencia Artificial para Incrementar la Autonomía de un Robot Móvil Mindstorms NXT en Tareas de Clasificación de Patrones Abraham Esteban Gamarra Moreno1, Juan Gamarra Moreno2, Job Daniel Gamarra Moreno3 1 Universidad Nacional del Centro del Perú, Av. Mariscal Castilla N° 3909, Huancayo, Perú 2 Universidad Nacional Mayor de San Marcos, Calle Germán Amézaga N° 375, Lima, Perú 3 Universidad Continental, Av. San Carlos 1980, Huancayo, Perú Recibido el 16 de junio del 2018. Aceptado el 5 de julio del 2018 Resumen La inteligencia artificial es un área que intenta dotar de inteligencia a las máquinas y entre los tópicos que desarrolla están los sistemas expertos, la lógica difusa, los sistemas de planificación, los algoritmos de búsqueda, la computación evolutiva, redes neuronales artificiales entre otros. Los tópicos de la inteligencia artificial que utiliza este artículo son la visión artificial y las redes neuronales artificiales; además utiliza el microbot o robot móvil Mindstorms NXT, que tiene una capacidad limitada en el procesamiento, así como en el almacenamiento de información. La limitación del robot móvil se da porque no tiene a bordo un computador potente para procesar los algoritmos de visión artificial y de las redes neuronales artificiales; por lo que se utiliza un computador externo para realizar su control a través de la tecnología bluetooth. El procesamiento de los algoritmos de visión artificial y de redes neuronales artificiales se realiza en el computador externo y las acciones que ejecuta el robot móvil son enviadas a este, a través de la comunicación bluetooth. El artículo considera que existe autonomía en un robot móvil, cuando este realiza sus acciones sin intervención humana y los indicadores seleccionados para medir esta autonomía son la localización autónoma de los patrones a reconocer y el reconocimiento autónomo o clasificación de estos patrones. La implementación de la localización autónoma de los patrones a reconocer utiliza sensores ópticos, sensores ultrasónicos y el lenguaje de programación C#; así como el reconocimiento autónomo de patrones utiliza una cámara inalámbrica ubicada en el robot móvil, algoritmos de visión artificial, redes neuronales artificiales y el lenguaje de programación visual basic .NET. Los resultados muestran que el promedio del indicador porcentaje de patrones localizados en forma correcta en el entorno por el robot móvil Mindstorms NXT es de 37.81% cuando no se usa la inteligencia artificial y es de 97.18% cuando se usa la inteligencia artificial. Además, el promedio del indicador porcentaje de patrones reconocidos en forma correcta en el entorno por el robot móvil Mindstorms NXT es de 46.25% cuando no se usa la inteligencia artificial y es de 96.87% cuando se usa la inteligencia artificial. Descriptores: inteligencia artificial, visión artificial, redes neuronales, clasificación de patrones, sensores ópticos, sensores de ultrasonido, microbots, Mindstorms NXT. Abstract Artificial intelligence is an area that tries to equip the machines with intelligence and among the topics developed are expert systems, fuzzy logic, planning systems, search algorithms, evolutionary computation, artificial neural networks among others. The topics of artificial intelligence used in this article are artificial vision and artificial neural networks; also uses the microbot or mobile robot Mindstorms NXT, which has a limited capacity in the processing, as well as in the storage of information. The limitation of the mobile robot is because it does not have a powerful computer on board to process artificial vision algorithms and artificial neural networks; so an external computer is used to perform its control through bluetooth technology. The processing of artificial vision algorithms and artificial neural networks is done on the external computer and the actions performed by the mobile robot are sent to it, through bluetooth communication. The article considers that there is autonomy in a mobile robot, when it performs its actions without human intervention and the indicators selected to measure this autonomy are the autonomous localization of the patterns to be recognized and the autonomous recognition or classification of these patterns. The implementation of the autonomous localization of the patterns to be recognized uses optical sensors, ultrasonic sensors and the C # programming language; as well as the autonomous recognition of patterns uses a wireless camera located in the mobile robot, artificial vision algorithms, artificial neural networks and the visual basic .NET programming language. The results show that the average of the indicator percentage of patterns correctly located in the environment by the Mindstorms NXT mobile robot is 37.81% when artificial intelligence is not used and it is 97.18% when artificial intelligence is used. In addition, the average of the indicator percentage of patterns correctly recognized in the environment by the Mindstorms NXT mobile robot is 46.25% when artificial intelligence is not used and is 96.87% when using artificial intelligence. Keywords: artificial intelligence, artificial vision, artificial neural networks, pattern classification, optical sensors, ultrasound sensors, microbots.

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