A New Generation of Rules-based Approach: Mivar-based Intelligent Planning of Robot Actions (MIPRA) and Brains for Autonomous Robots
To create autonomous robots, both hardware and software are needed. If enormous progress has already been made in the field of equipment, then robot software depends on the development of artificial intelligence. This article proposes a solution for creating “logical” brains for autonomous robots, n...
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| Published in | International journal of automation and computing Vol. 21; no. 5; pp. 919 - 940 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Berlin/Heidelberg
Springer Berlin Heidelberg
01.10.2024
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 2731-538X 2153-182X 1476-8186 2731-5398 2153-1838 1751-8520 |
| DOI | 10.1007/s11633-023-1473-1 |
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| Abstract | To create autonomous robots, both hardware and software are needed. If enormous progress has already been made in the field of equipment, then robot software depends on the development of artificial intelligence. This article proposes a solution for creating “logical” brains for autonomous robots, namely, an approach for creating an intelligent robot action planner based on Mivar expert systems. The application of this approach provides opportunities to reduce the computational complexity of solving planning problems and the requirements for the computational characteristics of hardware platforms on which intelligent planning systems are deployed. To theoretically and practically justify the expediency of using logically solving systems, in particular Mivar expert systems, to create intelligent planners, the MIPRA (Mivar-based Intelligent Planning of Robot Actions) planner was created to solve problems such as STRIPS for permutation cubes in the Blocks World domain. The planner is based on the platform for creating expert systems of the Razumator. As a result, the Mivar planner can process information about the state of the subject area based on the analysis of cause-effect relationships and an algorithm for automatically constructing logical inference (finding a solution from “Given” to “Find”). Moreover, an important feature of the MIPRA is that the system is built on the principles of a “white box”, due to which the system can explain any of its decisions and provide justification for the actions performed in the form of a retrospective of the stages of the decision-making process. When preparing a set of robot actions aimed at changing control objects, expert knowledge is used, which is the basis for the functioning algorithms of the planner. This approach makes it possible to include an expert in the process of organizing the work of the intelligent planner and use existing knowledge about the subject area. Practical experiments of this study have shown that instead of many hours and powerful multiprocessor servers, the MIPRA on a personal computer solves the planning problems with the following number of cubes: 10 cubes can be rearranged in 0.028 seconds, 100 cubes in 0.938 seconds, and 1 000 cubes in 84.188 seconds. The results of this study can be used to reduce the computational complexity of solving tasks of planning the actions of robots, as well as their groups, multilevel heterogeneous robotic systems, and cyber-physical systems of various bases and purposes. Practical demonstration of MIPRA:
https://mivar.org/en/about/contacts/ |
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| AbstractList | To create autonomous robots, both hardware and software are needed. If enormous progress has already been made in the field of equipment, then robot software depends on the development of artificial intelligence. This article proposes a solution for creating “logical” brains for autonomous robots, namely, an approach for creating an intelligent robot action planner based on Mivar expert systems. The application of this approach provides opportunities to reduce the computational complexity of solving planning problems and the requirements for the computational characteristics of hardware platforms on which intelligent planning systems are deployed. To theoretically and practically justify the expediency of using logically solving systems, in particular Mivar expert systems, to create intelligent planners, the MIPRA (Mivar-based Intelligent Planning of Robot Actions) planner was created to solve problems such as STRIPS for permutation cubes in the Blocks World domain. The planner is based on the platform for creating expert systems of the Razumator. As a result, the Mivar planner can process information about the state of the subject area based on the analysis of cause-effect relationships and an algorithm for automatically constructing logical inference (finding a solution from “Given” to “Find”). Moreover, an important feature of the MIPRA is that the system is built on the principles of a “white box”, due to which the system can explain any of its decisions and provide justification for the actions performed in the form of a retrospective of the stages of the decision-making process. When preparing a set of robot actions aimed at changing control objects, expert knowledge is used, which is the basis for the functioning algorithms of the planner. This approach makes it possible to include an expert in the process of organizing the work of the intelligent planner and use existing knowledge about the subject area. Practical experiments of this study have shown that instead of many hours and powerful multiprocessor servers, the MIPRA on a personal computer solves the planning problems with the following number of cubes: 10 cubes can be rearranged in 0.028 seconds, 100 cubes in 0.938 seconds, and 1 000 cubes in 84.188 seconds. The results of this study can be used to reduce the computational complexity of solving tasks of planning the actions of robots, as well as their groups, multilevel heterogeneous robotic systems, and cyber-physical systems of various bases and purposes. Practical demonstration of MIPRA:
https://mivar.org/en/about/contacts/ To create autonomous robots, both hardware and software are needed. If enormous progress has already been made in the field of equipment, then robot software depends on the development of artificial intelligence. This article proposes a solution for creating “logical” brains for autonomous robots, namely, an approach for creating an intelligent robot action planner based on Mivar expert systems. The application of this approach provides opportunities to reduce the computational complexity of solving planning problems and the requirements for the computational characteristics of hardware platforms on which intelligent planning systems are deployed. To theoretically and practically justify the expediency of using logically solving systems, in particular Mivar expert systems, to create intelligent planners, the MIPRA (Mivar-based Intelligent Planning of Robot Actions) planner was created to solve problems such as STRIPS for permutation cubes in the Blocks World domain. The planner is based on the platform for creating expert systems of the Razumator. As a result, the Mivar planner can process information about the state of the subject area based on the analysis of cause-effect relationships and an algorithm for automatically constructing logical inference (finding a solution from “Given” to “Find”). Moreover, an important feature of the MIPRA is that the system is built on the principles of a “white box”, due to which the system can explain any of its decisions and provide justification for the actions performed in the form of a retrospective of the stages of the decision-making process. When preparing a set of robot actions aimed at changing control objects, expert knowledge is used, which is the basis for the functioning algorithms of the planner. This approach makes it possible to include an expert in the process of organizing the work of the intelligent planner and use existing knowledge about the subject area. Practical experiments of this study have shown that instead of many hours and powerful multiprocessor servers, the MIPRA on a personal computer solves the planning problems with the following number of cubes: 10 cubes can be rearranged in 0.028 seconds, 100 cubes in 0.938 seconds, and 1 000 cubes in 84.188 seconds. The results of this study can be used to reduce the computational complexity of solving tasks of planning the actions of robots, as well as their groups, multilevel heterogeneous robotic systems, and cyber-physical systems of various bases and purposes. Practical demonstration of MIPRA: https://mivar.org/en/about/contacts/ |
| Author | Aladin, Dmitry Varlamov, Oleg |
| Author_xml | – sequence: 1 givenname: Oleg orcidid: 0000-0002-6081-3076 surname: Varlamov fullname: Varlamov, Oleg email: ovarlamov@gmail.com, o.varlamov@mivar.org organization: Department of Information Processing and Management Systems, RI MIVAR, Bauman Moscow State Tchnical University (BMSTU) – sequence: 2 givenname: Dmitry orcidid: 0000-0001-6644-9319 surname: Aladin fullname: Aladin, Dmitry organization: Department of Information Processing and Management Systems, RI MIVAR, Bauman Moscow State Tchnical University (BMSTU) |
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| SubjectTerms | Algorithms Artificial Intelligence Automation Computer Science Cubes Cyber-physical systems Expert systems Hardware Multiprocessing Permutations Personal computers Planning Research Article Robot control Robots Software Task complexity |
| Title | A New Generation of Rules-based Approach: Mivar-based Intelligent Planning of Robot Actions (MIPRA) and Brains for Autonomous Robots |
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