2009
DOI: 10.2514/1.37056
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Control of Mobile Robots Using the Soar Cognitive Architecture

Abstract: This paper describes the development of a system that uses computational psychology (the Soar cognitive architecture) for the control of unmanned vehicles. A multithreaded software system written using Java and integrated with the Soar cognitive architecture has been implemented on two types of mobile robots. Soar can be used as a general purpose robotic intelligence system and can handle a wide variety of sensor inputs and motor-control outputs. The use of existing computational psychology methods (such as So… Show more

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Cited by 17 publications
(8 citation statements)
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“…The sensor inputs and motor control outputs are controlled in Java while the symbolic data is stored in Soar. CRS has been used on both wheeled and legged robots [4]. It has also been used with several types of sensor input systems (vision, sonar, GPS, compass, touch, etc.).…”
Section: Hybrid Approach To Complex Cognitionmentioning
confidence: 99%
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“…The sensor inputs and motor control outputs are controlled in Java while the symbolic data is stored in Soar. CRS has been used on both wheeled and legged robots [4]. It has also been used with several types of sensor input systems (vision, sonar, GPS, compass, touch, etc.).…”
Section: Hybrid Approach To Complex Cognitionmentioning
confidence: 99%
“…Examples of these are Soar [14], ACT-R [15], and EPIC [16]. Some of these have been implemented on mobile robots [4,17].…”
Section: Cognitive Architecturesmentioning
confidence: 99%
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“…This system uses a cognitive architecture (based on ACT/R) for decision making but allows for sub-symbolic processing, such as neural networks, for processing sensor data. We have also used the Soar cognitive architecture coupled to sensor inputs and motor outputs [50], as shown in Figure 6. These hybrid approaches will be needed in the near term to build intelligent systems.…”
Section: An Engineering Approach To Developing Conscious Systemsmentioning
confidence: 99%
“…Even cognitive architectures (e.g. [46], Soar [47,48], SS-RICS [48], and ACT/R [49]), which have been implemented on mobile robots ( [50], [48]), are not even close to human intelligence and power and have only rudimentary learning ability. The IEEE Computational Intelligence Society is more focused on sub-symbolic processes such as neural networks, genetic algorithms, and fuzzy logic, which may lead to large-scale intelligent systems.…”
Section: Animalmentioning
confidence: 99%