Feature detection apparatus and methods for training of robotic navigation
First Claim
1. A method of determining a motor control signal for a robot based on an analysis of a sensor input, the method comprising:
- analyzing the sensor input based on a first transformation process applied based on a presence of one or more first features present in the sensor input with a first characteristic;
analyzing the sensor input based on a second transformation process applied based on a presence of one or more second features present in the sensor input with a second characteristic, the second characteristic being different from the first characteristic;
determining a feature history comprising a plurality of features determined based on at least the acts of analyzing the sensor input based on the first transformation process over a first time interval and analyzing the sensor input based on the second transformation process over a second time interval;
normalizing each of the plurality of features using a statistical parameter determined from the feature history;
providing a plurality of the normalized features to a classification process for detecting at least one relevant feature among the plurality of the normalized features, the at least one relevant feature being characterized by a relevancy parameter that is larger than a predetermined threshold;
selecting from a plurality of control signals a motor control signal associated with the at least one relevant feature; and
executing the selected motor control signal, thereby causing a target task to be performed by the robot;
wherein the act of selecting the motor control signal is effectuated based on a prior contemporaneous occurrence of the motor control signal and the at least one relevant feature.
1 Assignment
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Accused Products
Abstract
A robotic device may be operated by a learning controller comprising a feature learning configured to determine control signal based on sensory input. An input may be analyzed in order to determine occurrence of one or more features. Features in the input may be associated with the control signal during online supervised training. During training, learning process may be adapted based on training input and the predicted output. A combination of the predicted and the target output may be provided to a robotic device to execute a task. Feature determination may comprise online adaptation of input, sparse encoding transformations. Computations related to learning process adaptation and feature detection may be performed on board by the robotic device in real time thereby enabling autonomous navigation by trained robots.
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Citations
19 Claims
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1. A method of determining a motor control signal for a robot based on an analysis of a sensor input, the method comprising:
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analyzing the sensor input based on a first transformation process applied based on a presence of one or more first features present in the sensor input with a first characteristic; analyzing the sensor input based on a second transformation process applied based on a presence of one or more second features present in the sensor input with a second characteristic, the second characteristic being different from the first characteristic; determining a feature history comprising a plurality of features determined based on at least the acts of analyzing the sensor input based on the first transformation process over a first time interval and analyzing the sensor input based on the second transformation process over a second time interval; normalizing each of the plurality of features using a statistical parameter determined from the feature history; providing a plurality of the normalized features to a classification process for detecting at least one relevant feature among the plurality of the normalized features, the at least one relevant feature being characterized by a relevancy parameter that is larger than a predetermined threshold; selecting from a plurality of control signals a motor control signal associated with the at least one relevant feature; and executing the selected motor control signal, thereby causing a target task to be performed by the robot; wherein the act of selecting the motor control signal is effectuated based on a prior contemporaneous occurrence of the motor control signal and the at least one relevant feature. - View Dependent Claims (2, 3, 4, 5)
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6. An apparatus configured to determine a motor control signal for a robot based on an analysis of an input signal, the apparatus comprising:
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a processor; and a non-transitory computer-readable medium configured to store at least one computer program thereon, the computer program comprising a plurality of instructions configured to, when executed by the processor, cause the apparatus to; analyze the input signal based on a first transformation process applied based on a presence of at least one first feature from the input signal with a first characteristic; analyze the input signal based on a second transformation process applied based on a presence of at least one second feature from the input signal with a second characteristic, the second characteristic being different from the first characteristic; determine a plurality of features based on the analysis of the input signal based on the first transformation process over a first time interval and the analysis of the input signal based on the second transformation process over a second time interval; normalize each of the plurality of features using a statistical parameter derived from the plurality of features; provide a plurality of normalized features to a classification process configured to detect at least one relevant feature among the plurality of normalized features, the at least one relevant feature comprising a relevance parameter that exceeds a predetermined threshold; select from a plurality of control signals a motor control signal associated with the at least one relevant feature with the relevance parameter that exceeds the predetermined threshold; and apply the selected motor control signal to the robot, thereby causing the robot to execute a target task; wherein the selection of the motor control signal is based on a prior simultaneous occurrence of the motor control signal and the at least one relevant feature. - View Dependent Claims (7, 8, 9, 10, 11, 12)
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13. A system for determining a motor control signal for a robotic apparatus based on an analysis of an external input, the system comprising:
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a sensor configured to receive the external input; a non-transitory computer-readable memory configured to store a plurality of computer instructions; and at least one processing component configured to cause the plurality of computer instructions to, when executed; analyze the external input via a first transformation process applied based on a presence of a first set of features from the input signal with a first characteristic; analyze the external input via a second transformation process applied based on a presence of a second set of features from the external input with a second characteristic; determine a plurality of features based on the analysis of the external input via the first transformation process over a first period of time and the analysis of the external input via the second transformation process over a second period of time; normalize each of the plurality of features using a statistical parameter determined from the plurality of features; provide a plurality of normalized features to a classification process configured to detect one or more relevant features among the plurality of normalized features, the one or more relevant features comprising a relevance value that exceeds a threshold; and select from a plurality of control signals a motor control signal associated with the one or more relevant features with the relevance value that exceeds the threshold; wherein the selection of the motor control signal is based on a previous concurrent occurrence of the motor control signal and the one or more relevant features; and wherein the robotic apparatus is configured to execute a task based on the selection of the motor control signal. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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Specification