Patents Assigned to Voyan Technology
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Patent number: 6498694Abstract: A method and system for servo error integration in read-channel equalization are described. In the present invention servo error is integrated into an equalizer. Also described in the present invention are methods and systems for determining the servo error.Type: GrantFiled: June 15, 2000Date of Patent: December 24, 2002Assignee: Voyan TechnologyInventor: Sunil C. Shah
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Patent number: 6487696Abstract: A method and system for designing a compensator for a system is described. A structure of a model set and a compensator set is defined. The defined model set and compensator set is processed. Model set, compensator set, and model subsets are created from the processed model and compensator set. The created model set, compensator set, model subsets are evaluated.Type: GrantFiled: March 2, 2001Date of Patent: November 26, 2002Assignee: Voyan TechnologyInventors: Thorkell Gudmundsson, Mark Erickson, Cecilia Galarza, Dan Hernandez, Tom Pare
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Patent number: 6452291Abstract: The present invention includes a method and system for reducing switching transients via large signal/small signal thresholding. The present invention prevents a switch from occurring if when the system (i.e., the system under control) is in small signal mode and permits switches to occur when the system is in large signal mode. Large signal and small signal modes are determined by comparing the difference between the most current value of a comparator variable and the final setpoint with a threshold distance. The system is in small signal mode if the most current value of the comparator variable less the final setpoint value is less than the threshold distance. Otherwise, the system is in large signal mode.Type: GrantFiled: July 1, 1999Date of Patent: September 17, 2002Assignee: Voyan TechnologyInventors: Mark Erickson, Thorkell Gudmundsson, Pradeep Pandey
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Patent number: 6404581Abstract: A scheme for management of uncertainty in control systems that require adaptation is described. The scheme removes as much uncertainty as possible at design time and manufacturing time by taking advantage of available compute resources in pre-computing a large set of robustness-performance tradeoff based model controllers at different operating conditions for different values of uncertainty parameters that occur in-use and in manufacturing. A group of control models, and corresponding model controllers with an uncertainty bound larger than the best-tuned controller, are generated. A subset of the model controllers is implemented in the system at manufacturing time based on characterization of the system. The subset of model controllers is switched at run time based on transient information received during operation of the system.Type: GrantFiled: October 4, 2000Date of Patent: June 11, 2002Assignee: Voyan TechnologyInventor: Sunil C. Shah
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Patent number: 6294394Abstract: The present invention includes a method and system for limiting the ramp rate of a variable under control in order to control stress in a process or plant under control. The present invention takes a limit curve provided by the user and combines that limit curve with a scale factor curve obtained from a model of the system to produce an allowable limit curve. A ramp rate limiter then uses the allowable limit curve to control the ramp rate of the variable under control such that the ramp rate of the variable under control is able to achieve the maximum allowable limit but no more.Type: GrantFiled: July 1, 1999Date of Patent: September 25, 2001Assignee: Voyan TechnologyInventors: Mark Erickson, Thorkell Gudmundsson, Sunil C. Shah
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Patent number: 6289255Abstract: A method for computer-aided design. The method includes the steps of representing a computer-aided design activity as a design cycle and defining a goal of the design activity. The method also includes the steps of defining alternate design steps toward achieving the goal. According to one embodiment, the design activity is represented as a graph containing the alternate design steps. According to this embodiment, a cost metric is assigned for each of the alternate design steps that includes elements representing relative costs of taking each of a plurality of paths in the graph. Element values and bounds on the cost metric are the determined by searching the graph to project costs incurred upon execution of each of the alternate design steps to achieve the goal. The cost of achieving the goal is then optimized by selecting one of the alternate design steps associated with a smallest cost metric.Type: GrantFiled: November 24, 1998Date of Patent: September 11, 2001Assignee: Voyan TechnologyInventors: Sunil C. Shah, Pradeep Pandey
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Patent number: 6289508Abstract: The present invention is a method and apparatus for dynamic optimization of a dynamic physical system having a device under control and a controller along with a modeling system having an estimator and a constrained nonlinear program. The time varying trajectories of the dynamic physical system are parameterized and run through the modeling system in order to produce a set of optimal time varying setpoint trajectories to be used in the dynamic physical system. The optimal time varying setpoint trajectories optimize the physical system to produce the desired end result (or product) of the dynamic physical system.Type: GrantFiled: June 14, 2000Date of Patent: September 11, 2001Assignee: Voyan TechnologyInventors: Mark A. Erickson, Pradeep Pandey, Sunil C. Shah, Thorkell Gudmundsson
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Patent number: 6285971Abstract: A method for the estimation of the state variables of nonlinear systems with exogenous inputs is based on improved extended Kalman filtering (EKF) type techniques. The method uses a discrete-time model, based on a set of nonlinear differential equations describing the system, that is linearized about the current operating point. The time update for the state estimates is performed using integration methods. Integration, which is accomplished through the use of matrix exponential techniques, avoids the inaccuracies of approximate numerical integration techniques. The updated state estimates and corresponding covariance estimates use a common time-varying system model for ensuring stability of both estimates. Other improvements include the use of QR factorization for both time and measurement updating of square-root covariance and Kalman gain matrices and the use of simulated annealing for ensuring that globally optimal estimates are produced.Type: GrantFiled: August 10, 1999Date of Patent: September 4, 2001Assignee: Voyan TechnologyInventors: Sunil C. Shah, Pradeep Pandey
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Patent number: 6278898Abstract: A method for computing model error bounds for system identification of stochastic systems is disclosed. The model error bounds take the form of additive frequency-weighted singular value bounds such that they are directly used in H∞ and &mgr;-synthesis robust control design methods. The largest singular value of the additive uncertainty bound is determined by performing a high number of simulations for the model uncertainty. Simulated values of the uncertainty are computed for a large data population, such that each candidate entry of simulated value lies on the 3-sigma ellipsoids defined by the covariance functions. For each simulated value of uncertainty, the maximum singular values are then determined. In order to determine the scalar uncertainty function needed for robust control design, the maximum over the population of the maximum singular values of uncertainty simulated values is then computed.Type: GrantFiled: June 30, 1999Date of Patent: August 21, 2001Assignee: Voyan TechnologyInventor: Sunil C. Shah
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Patent number: 6230062Abstract: A scheme for management of uncertainty in control systems that require adaptation is described. The scheme removes as much uncertainty as possible at design time and manufacturing time by taking advantage of available compute resources in pre-computing a large set of robustness-performance tradeoff based model controllers at different operating conditions for different values of uncertainty parameters that occur in-use and in manufacturing. A group of control models, and corresponding model controllers with an uncertainty bound larger than the best-tuned controller, are generated. A subset of the model controllers is implemented in the system at manufacturing time based on characterization of the system. The subset of model controllers is switched at run time based on transient information received during operation of the system.Type: GrantFiled: June 30, 1999Date of Patent: May 8, 2001Assignee: Voyan TechnologyInventor: Sunil C. Shah
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Patent number: 6195594Abstract: A method for computer aided design of a product or process. The method includes the steps of representing a computer-aided design activity as a design cycle. The design cycle is then converted into individual iterations of decisions to be made within the design cycle. The individual iterations of decisions are then mapped into a hierarchical structure of influence diagrams. The decision making process of the influence diagrams are performed and data is collected from the decision process that has been performed. The remaining unexecuted decisions and their posterior probabilities are updated based upon the outcomes of the decision process that was most recently performed.Type: GrantFiled: June 30, 1999Date of Patent: February 27, 2001Assignee: Voyan TechnologyInventors: Sunil C. Shah, Pradeep Pandey, Thorkell Gudmundsson, Mark Erickson
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Patent number: 6167360Abstract: The present invention is a method and apparatus for dynamic optimization of a dynamic physical system having a device under control and a controller along with a modeling system having an estimator and a constrained nonlinear program. The time varying trajectories of the dynamic physical system are parameterized and run through the modeling system in order to produce a set of optimal time varying setpoint trajectories to be used in the dynamic physical system. The optimal time varying setpoint trajectories optimize the physical system to produce the desired end result (or product) of the dynamic physical system.Type: GrantFiled: July 24, 1998Date of Patent: December 26, 2000Assignee: Voyan TechnologyInventors: Mark A. Erickson, Pradeep Pandey, Sunil C. Shah, Thorkell Gudmundsson
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Patent number: 6114670Abstract: The present invention includes a method and system for nonlinear feedforward control for ramp following and overshoot minimization in a plant under control. The present invention augments a feedforward system with a nonlinear compensation mechanism for minimizing the overshoot that occurs in a conventional feedforward system.Type: GrantFiled: July 1, 1999Date of Patent: September 5, 2000Assignee: Voyan TechnologyInventors: Mark Erickson, Thorkell Gudmundsson
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Patent number: 6041172Abstract: A method for processing signals and controlling a physical system in which measurements are obtained at different time scales and/or different space scales. Signals generated from the physical system are processed by first creating a first dynamic model at a first time/space scale that consists of a first set of parameters, a first set of states and a first set of inputs. A second dynamic model at a second time/space scale is also created and consists of a second set of parameters, a second set of states and a second set of inputs. At least one of the first set of parameters in the first dynamic model are computed from the second set of states in the second dynamic model. A second estimator is then created to produce estimates of the second set of states using the second dynamic model, measurements from the first physical system at the second time scale.Type: GrantFiled: November 26, 1997Date of Patent: March 21, 2000Assignee: Voyan TechnologyInventors: Sunil C. Shah, Pradeep Pandey, Mark A. Erickson
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Patent number: 5991525Abstract: A method for the estimation of the state variables of nonlinear systems with exogenous inputs is based on improved extended Kalman filtering (EKF) type techniques. The method uses a discrete-time model, based on a set of nonlinear differential equations describing the system, that is linearized about the current operating point. The time update for the state estimates is performed using integration methods. Integration, which is accomplished through the use of matrix exponential techniques, avoids the inaccuracies of approximate numerical integration techniques. The updated state estimates and corresponding covariance estimates use a common time-varying system model for ensuring stability of both estimates. Other improvements include the use of QR factorization for both time and measurement updating of square-root covariance and Kalman gain matrices and the use of simulated annealing for ensuring that globally optimal estimates are produced.Type: GrantFiled: August 22, 1997Date of Patent: November 23, 1999Assignee: Voyan TechnologyInventors: Sunil C. Shah, Pradeep Pandey
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Patent number: 5880959Abstract: A method for computer-aided design. The method includes the steps of representing a computer-aided design activity as a design cycle and defining a goal of the design activity. The method also includes the steps of defining alternate design steps toward achieving the goal. According to one embodiment, the design activity is represented as a graph containing the alternate design steps. According to this embodiment, a cost metric is assigned for each of the alternate design steps that includes elements representing relative costs of taking each of a plurality of paths in the graph. Element values and bounds on the cost metric are the determined by searching the graph to project costs incurred upon execution of each of the alternate design steps to achieve the goal. The cost of achieving the goal is then optimized by selecting one of the alternate design steps associated with a smallest cost metric.Type: GrantFiled: November 25, 1997Date of Patent: March 9, 1999Assignee: Voyan TechnologyInventors: Sunil C. Shah, Pradeep Pandey