F.J. Moreno-Velo scite author profile

Abstract-Fuzzy-logic-based inference techniques provide efficient solutions for control problems in classical and emerging applications. However, the lack of specific design tools and systematic approaches for hardware implementation of complex fuzzy controllers limits the applicability of these techniques in modern microelectronics products. This paper discusses a design strategy that eases the implementation of embedded fuzzy controllers as systems on programmable chips. The development of the controllers is carried out by means of a reconfigurable platform based on field-programmable gate arrays. This platform combines specific hardware to implement fuzzy inference modules with a general-purpose processor, thus allowing the realization of hybrid hardware/software solutions. As happens to the components of the processing system, the specific fuzzy elements are conceived as configurable intellectual property modules in order to accelerate the controller design cycle. The design methodology and tool chain presented in this paper have been applied to the realization of a control system for solving the navigation tasks of an autonomous vehicle.Index Terms-Autonomous vehicles, embedded systems, fieldprogrammable gate arrays (FPGAs), fuzzy control, intellectual property (IP).

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Automatic tuning of complex fuzzy systems with Xfuzzy

Moreno-Velo

Baturone

Barriga

et al. 2007

Fuzzy Sets and Systems

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Using Xfuzzy Environment for the Whole Design of Fuzzy Systems

Baturone

Moreno-Velo

Sánchez-Solano

et al. 2007

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Abstract-From 1992, Xfuzzy environment has been improving to ease the design of fuzzy systems. The current version, Xfuzzy 3, which is entirely programmed in Java, includes a wide set of new featured tools that allow automating the whole design process of a fuzzy logic based system: from its description (in the XFL3 language) to its synthesis in C, C++ or Java (to be included in software projects) or in VHDL (for hardware projects). The new features of the current version have been exploited in different application areas such as autonomous robot navigation and image processing.

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Design of Embedded DSP-Based Fuzzy Controllers for Autonomous Mobile Robots

Baturone

Moreno-Velo

Blanco

et al. 2008

IEEE Trans. Ind. Electron.

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Abstract-Fuzzy controllers are used in many applications because of their rapid design by translating heuristic knowledge, robustness against perturbations, and smoothness in the control action. However, they require parallel processing and special operators (such as fuzzification or defuzzification) which are not available at standard digital signal processors (DSPs), thus complicating its direct implementation. This paper describes an efficient design methodology which allows starting with any kind of fuzzy controller and subsequently transforming it until obtaining a system suitable for an easy DSP implementation. Such methodology is greatly aided by the design environment Xfuzzy 3. The parking problem of an autonomous robot is described to illustrate the steps of this methodology. Real experiments with the autonomous robot ROMEO 4R demonstrate the efficiency of the designed fuzzy controller embedded into a stand-alone card based on a fixed-point DSP from Texas Instruments.

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F.J. Moreno-Velo

Automatic Design of Fuzzy Controllers for Car-Like Autonomous Robots

FPGA Implementation of Embedded Fuzzy Controllers for Robotic Applications

Automatic tuning of complex fuzzy systems with Xfuzzy

Using Xfuzzy Environment for the Whole Design of Fuzzy Systems

Design of Embedded DSP-Based Fuzzy Controllers for Autonomous Mobile Robots

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