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Kalman filtering, smoothing, and recursive robot arm forward and inverse dynamics (1987)

Rodriguez, Guillermo

In: Other Sources

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Publication Date: 2011-08-19

Description: The recursive difference equations of Kalman filtering and Bryson-Frazier fixed time-interval smoothing, arising in the state estimation theory for linear state space systems, are used here to solve problems of serial manipulator inverse and forward dynamics. The configuration analyzed is that of a joint connected N-link serial manipulator attached to an immobile base. The equivalence between the filtering and smoothing techniques from state estimation theory and recursive robot dynamics methods is demonstrated. Several areas for future research are suggested.

Keywords: CYBERNETICS

Type: IEEE Journal of Robotics and Automation (ISSN 0882-4967); RA-3; 624-639

Format: text

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2

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Recursive forward dynamics for multiple robot arms moving a common task object (1989)

Rodriguez, Guillermo

In: Other Sources

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Publication Date: 2011-08-19

Description: Recursive forward dynamics algorithms are developed and presented for an arbitrary number of robot arms moving a commonly held object. The multiarm forward dynamics problem is to find the angular accelerations at the joints and the contact forces that the arms impart to the task object. The problem also involves finding the acceleration of this object. The multiarm forward dynamics solutions provide a thorough physical and mathematical understanding of the way several arms behave in response to a set of applied joint moments. Such an understanding simplifies and guides the subsequent control design and experimentation process. The forward dynamics algorithms also provide the necessary analytical foundation for conducting analysis and simulation studies. The multiarm algorithms are based on the filtering and smoothing approach recently advanced for single-arm dynamics, and they can be built up modularly from the single-arm algorithms. The algorithms compute recursively the joint angle accelerations, the contact forces, and the task-object accelerations. Algorithms are also developed to evaluate in closed form the linear transformations from the active joint moments to the joint angle accelerations, to the task object accelerations, and to the task-object contact forces. A possible computing architecture is presented as a precursor to a more complete investigation of the computational performance of the dynamics algorithms.

Keywords: CYBERNETICS

Type: IEEE Transactions on Robotics and Automation (ISSN 1042-296X); 5; 510-521

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An innovations approach to decoupling of multibody dynamics and control (1989)

Rodriguez, G.

In: CASI

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Publication Date: 2013-08-31

Description: The problem of hinged multibody dynamics is solved using an extension of the innovations approach of linear filtering and prediction theory to the problem of mechanical system modeling and control. This approach has been used quite effectively to diagonalize the equations for filtering and prediction for linear state space systems. It has similar advantages in the study of dynamics and control of multibody systems. The innovations approach advanced here consists of expressing the equations of motion in terms of two closely related processes: (1) the innovations process e, a sequence of moments, obtained from the applied moments T by means of a spatially recursive Kalman filter that goes from the tip of the manipulator to its base; (2) a residual process, a sequence of velocities, obtained from the joint-angle velocities by means of an outward smoothing operations. The innovations e and the applied moments T are related by means of the relationships e = (I - L)T and T = (I + K)e. The operation (I - L) is a causal lower triangular matrix which is generated by a spatially recursive Kalman filter and the corresponding discrete-step Riccati equation. Hence, the innovations and the applied moments can be obtained from each other by means of a causal operation which is itself casually invertible.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: Proceedings of the 3rd Annual Conference on Aerospace Computational Control, Volume 1; p 71-7

Format: application/pdf

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4

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Kalman-like estimation for static distributed systems Antenna shape from radiation measurements (1985)

Scheid, R. E., Jr. ; Rodriguez, G.

In: Other Sources

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Publication Date: 2011-08-19

Description: This paper advances an approach to the determination of shape of static distributed systems. It also illustrates the application of the approach to the problems of surface diagnosis of large parabolic reflectors. The estimation methods developed combine in an optimal sense the information from an elliptic model of the structure and from measurements of the structural deflection and of the far-field pattern changes due to the structural deformation. The estimators have a predictor-corrector structure, quite similar to that of a Kalman filter. The system model is first used to obtain a predicted estimate. A correction term is then added to the prediction to obtain the final state estimate. The relative weighting between prediction and correction terms is determined by an estimator gain. As in a Kalman filter, the estimator gain can be expressed in terms of the state estimation error covariance.

Keywords: CYBERNETICS

Format: text

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5

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Intelligent test integration system (1988)

Padalkar, S. ; Purves, B. ; Williams, R. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: A new test technology is described which was developed for space system integration. The ultimate purpose of the system is to support the automatic generation of test systems in real time, distributed computing environments. The Intelligent Test Integration System (ITIS) is a knowledge based layer above the traditional test system components which can generate complex test configurations from the specification of test scenarios.

Keywords: CYBERNETICS

Type: NASA, Marshall Space Flight Center, Second Conference on Artificial Intelligence for Space Applications; p 177-185

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6

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Coupling expert systems and simulation (1988)

Rodriguez-Moscoso, J. ; Kawamura, K. ; Padalkar, S. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: A prototype coupled system called NESS (NASA Expert Simulation System) is described. NESS assists the user in running digital simulations of dynamic systems, interprets the output data to performance specifications, and recommends a suitable series compensator to be added to the simulation model.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: Second Conference on Artificial Intelligence for Space Applications; p 85-92

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7

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Kalman filtering, smoothing and recursive robot arm forward and inverse dynamics (1986)

Rodriguez, G.

In: CASI

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Publication Date: 2019-06-28

Description: The inverse and forward dynamics problems for multi-link serial manipulators are solved by using recursive techniques from linear filtering and smoothing theory. The pivotal step is to cast the system dynamics and kinematics as a two-point boundary-value problem. Solution of this problem leads to filtering and smoothing techniques identical to the equations of Kalman filtering and Bryson-Frazier fixed time-interval smoothing. The solutions prescribe an inward filtering recursion to compute a sequence of constraint moments and forces followed by an outward recursion to determine a corresponding sequence of angular and linear accelerations. In addition to providing techniques to compute joint accelerations from applied joint moments (and vice versa), the report provides an approach to evaluate recursively the composite multi-link system inertia matrix and its inverse. The report lays the foundation for the potential use of filtering and smoothing techniques in robot inverse and forward dynamics and in robot control design.

Keywords: CYBERNETICS

Type: NASA-CR-180135 , JPL-PUB-86-48 , NAS 1.26:180135

Format: application/pdf

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8

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Research on an expert system for database operation of simulation-emulation math models. Volume 2, Phase 1: Results (1985)

Kawamura, K. ; Beale, G. O. ; Hsieh, B. J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A reference manual is provided for NESS, a simulation expert system. This manual gives user information regarding starting and operating NASA expert simulation system (NESS). This expert system provides an intelligent interface to a generic simulation program for spacecraft attitude control problems. A menu of the functions the system can perform is provided. Control repeated returns to this menu after executing each user request.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: NASA-CR-178457 , NAS 1.26:178457

Format: application/pdf

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Research on an expert system for database operation of simulation-emulation math models. Volume 1, Phase 1: Results (1985)

Rodriguez-Moscoso, J. J. ; Kawamura, K. ; Hsieh, B. J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The results of the first phase of Research on an Expert System for Database Operation of Simulation/Emulation Math Models, is described. Techniques from artificial intelligence (AI) were to bear on task domains of interest to NASA Marshall Space Flight Center. One such domain is simulation of spacecraft attitude control systems. Two related software systems were developed to and delivered to NASA. One was a generic simulation model for spacecraft attitude control, written in FORTRAN. The second was an expert system which understands the usage of a class of spacecraft attitude control simulation software and can assist the user in running the software. This NASA Expert Simulation System (NESS), written in LISP, contains general knowledge about digital simulation, specific knowledge about the simulation software, and self knowledge.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: NASA-CR-178456 , NAS 1.26:176086

Format: application/pdf

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10

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Recursive mass matrix factorization and inversion: An operator approach to open- and closed-chain multibody dynamics (1988)

Rodriguez, G. ; Kreutz, K.

In: CASI

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Publication Date: 2019-06-28

Description: This report advances a linear operator approach for analyzing the dynamics of systems of joint-connected rigid bodies.It is established that the mass matrix M for such a system can be factored as M=(I+H phi L)D(I+H phi L) sup T. This yields an immediate inversion M sup -1=(I-H psi L) sup T D sup -1 (I-H psi L), where H and phi are given by known link geometric parameters, and L, psi and D are obtained recursively by a spatial discrete-step Kalman filter and by the corresponding Riccati equation associated with this filter. The factors (I+H phi L) and (I-H psi L) are lower triangular matrices which are inverses of each other, and D is a diagonal matrix. This factorization and inversion of the mass matrix leads to recursive algortihms for forward dynamics based on spatially recursive filtering and smoothing. The primary motivation for advancing the operator approach is to provide a better means to formulate, analyze and understand spatial recursions in multibody dynamics. This is achieved because the linear operator notation allows manipulation of the equations of motion using a very high-level analytical framework (a spatial operator algebra) that is easy to understand and use. Detailed lower-level recursive algorithms can readily be obtained for inspection from the expressions involving spatial operators. The report consists of two main sections. In Part 1, the problem of serial chain manipulators is analyzed and solved. Extensions to a closed-chain system formed by multiple manipulators moving a common task object are contained in Part 2. To retain ease of exposition in the report, only these two types of multibody systems are considered. However, the same methods can be easily applied to arbitrary multibody systems formed by a collection of joint-connected regid bodies.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: NASA-CR-182516 , JPL-PUBL-88-11 , NAS 1.26:182516

Format: application/pdf

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