Alerta

METHOD FOR GENERATING AN OBJECT STATUS CLASSIFIER, METHOD FOR CLASSIFYING THE OBJECT STATUS, MOBILE CLIENT DEVICE FOR OBTAINING A SET OF DATA ASSOCIATED WITH AN OBJECT WHICH STATUS IS TO BE CLASSIFIED, OBJECT STATUS CLASSIFICATION DEVICE, OBJECT STATUS CLASSIFICATION SYSTEM, COMPUTER-READABLE DATA CARRIERS AND DIAGNOSTIC TOOL

Resumen de: WO2025040769A1

The proposed technical solution relates to the field of information technology, more specifically to the field of machine learning, and can be used to classify the state of an object based on the collected features of the object. A special case of the invention is a method for generating an object state classifier performed using a processor of a computer device.

METHOD AND PROCESSOR CIRCUIT FOR CONSUMPTION OPTIMIZATION OF FULLY AUTOMATED OR PARTIALLY AUTOMATED DRIVING MANEUVERS OF A MOTOR VEHICLE, MOTOR VEHICLE EQUIPPED ACCORDINGLY, AND SYSTEM

Resumen de: US2025065909A1

A method for consumption optimization of fully automated or partially automated driving maneuvers of a motor vehicle is provided. The disclosure provides that a self-learning system is operated by a processor circuit, and by way of which driving situation data is received, and the driving situation data is provided to a model of machine learning as input variables and the model is used to generate a specification signal for the at least one driver assistance system from the input variables, and consumption data of a consumption measurement is received and the consumption data is mapped on an evaluation signal by way of an evaluation function, and a training algorithm that trains the model is signaled by way of the evaluation signal, if, for the respective driving situation, the used specification is to be retained or enhanced or avoided.

FIELD PUMP EQUIPMENT SYSTEM

Resumen de: US2025067164A1

A method can include, receiving by a computational device at a wellsite, real-time, time series data from pump equipment at the wellsite, where the wellsite includes a wellbore in contact with a fluid reservoir; using the computational device, processing the time series data as input to a trained machine learning model to detect a performance issue of the pump equipment; and issuing a signal responsive to detection of the performance issue.

Deep Learning Methods For Biosynthetic Gene Cluster Discovery

Resumen de: US2025069701A1

The present disclosure relates to computer-implemented methods and systems for identifying biosynthetic gene clusters (BGCs) that encode pathways for the production of secondary metabolites. Secondary metabolites that target genes or gene products that are homologous to, e.g., human genes or gene products may have utility as potential drug compounds.

FAST AND SCALABLE MULTI-TENANT SERVE POOL FOR CHATBOTS

Resumen de: US2025068980A1

Techniques are disclosed for providing a scalable multi-tenant serve pool for chatbot systems. A query serving system (QSS) receives a request to serve a query for a skillbot. The QSS includes: (i) a plurality of deployments in a serving pool, and (ii) a plurality of deployments in a free pool. The QSS determines whether a first deployment from the plurality of deployments in the serving pool can serve the query based on an identifier of the skillbot. In response to determining that the first deployment cannot serve the query, the QSS selects a second deployment from the plurality of deployments in the free pool to be assigned to the skillbot, and loads a machine-learning model associated with the skillbot into the second deployment, wherein the machine-learning model is trained to serve the query for the skillbot. The query is served using the machine-learning model loaded into the second deployment.

Methods and Systems for Discovery of Embedded Target Genes in Biosynthetic Gene Clusters

Resumen de: US2025069699A1

The present disclosure relates to computer-based methods and systems for identifying genes associated with biosynthetic gene clusters (BGCs), including embedded target genes (ETaGs) that are homologs of potential therapeutic targets, using comparative genomics techniques and machine learning models.

GUI for Interacting with Analytics Provided by Machine-Learning Services

Resumen de: US2025068978A1

A data pipeline tool provides a machine-learning design interface that a user can utilize (e.g., via an electronic device such as a personal computer, tablet, or smart phone) to design or configure data pipelines or workflows defining the manner in which ML models are developed, trained, tested, validated, or deployed. Once deployed, a designed ML model may generate predictive results based on input data fed to the ML model. The tool may present the predictive results via a GUI, and may enable a user to mark-up or otherwise interact with those predictive results. The tool may enable the user to share the results (which may include a mark-up or annotation provided by a user).

TRAINING OR USING SETS OF EXPLAINABLE MACHINE-LEARNING MODELING ALGORITHMS FOR PREDICTING TIMING OF EVENTS

Resumen de: US2025068944A1

Certain aspects involve building timing-prediction models for predicting timing of events that can impact one or more operations of machine-implemented environments. For instance, a computing system can generate program code executable by a host system for modifying host system operations based on the timing of a target event. The program code, when executed, can cause processing hardware to a compute set of probabilities for the target event by applying a set of trained timing-prediction models to predictor variable data. A time of the target event can be computed from the set of probabilities. To generate the program code, the computing system can build the set of timing-prediction models from training data. Building each timing-prediction model can include training the timing-prediction model to predict one or more target events for a different time bin within the training window. The computing system can generate and output program code implementing the models' functionality.

SYSTEMS AND METHODS FOR TREATMENT SELECTION

Resumen de: US2025069746A1

There is disclosed a method and a system for predicting the efficacy of one or more treatments. A completed questionnaire may be received from a patient requiring treatment. The responses to the questionnaire may be input to a machine learning algorithm (MLA). The MLA may have been trained using labelled patient data. A predicted efficacy of one or more treatments and a prototype corresponding to the patient may be received from the MLA. An interface may be output indicating the predicted efficacy of the one or more treatments and the prototype.

MACHINE-LEARNING SYSTEM FOR CLICKSTREAM-BASED CONTENT INTEREST PREDICTION

Resumen de: US2025069113A1

A method includes receiving client data of a client that includes at least one of clickstream data and analytic data of the client. For each of a number of trained machine learning (ML) models corresponding, respectively, to a number of campaigns, campaign-specific features are extracted from the client data, and a campaign interest prediction score is generated by inputting the campaign-specific features extracted for the ML model into the ML model. At least one campaign, from among the plurality of campaigns, is assigned to the client based on the generated campaign interest prediction scores. The clickstream data includes a plurality of pages visited by the client, and the analytic data of the client includes at least one of phone call data, chat message data, email data, or survey data of the client.

PRODUCING AN AUGMENTED DATASET TO IMPROVE PERFORMANCE OF A MACHINE LEARNING MODEL

Resumen de: WO2023212804A1

Producing an augmented dataset to improve performance of a machine learning model. A test series is created for a first type of data transformation, the test series defining a set of test values for at least one parameter characterizing the first type of data transformation. Test datasets are generated based on a source dataset, each of the test datasets corresponding to a respective test value of the set of test values for said at least one parameter characterizing the first type of data transformation. Each of the test datasets is input to the machine learning model to produce a corresponding model output. At least one score is determined for each test dataset based at least in part on the corresponding model output. Robustness metrics of the first type of data transformation are determined based on a function which maps said at least one score of each of the test datasets to said at least one parameter characterizing the first type of data transformation. A set of one or more data augmentations are determined to be applied to the source dataset based at least in part on said one or more robustness metrics of the first type of data transformation. An augmented dataset is generated based on the source dataset using the determined set of one or more data augmentations.

METHOD FOR GENERATING AN OBJECT STATUS CLASSIFIER, METHOD FOR CLASSIFYING THE OBJECT STATUS, MOBILE CLIENT DEVICE FOR OBTAINING A SET OF DATA ASSOCIATED WITH AN OBJECT WHICH STATUS IS TO BE CLASSIFIED, OBJECT STATUS CLASSIFICATION DEVICE, OBJECT STATUS CLASSIFICATION SYSTEM, COMPUTER-READABLE DATA CARRIERS AND DIAGNOSTIC TOOL

Resumen de: EP4513392A1

The proposed technical solution relates to the field of information technology, more specifically to the field of machine learning, and can be used to classify the state of an object based on the collected features of the object. A special case of the invention is a method for generating an object state classifier performed using a processor of a computer device.

SYSTEM AND METHOD FOR DETERMINING ONE OR MORE PERFORMANCE INDICATOR VALUES FOR A PLURALITY OF PHYSICAL COMPONENTS IN A TECHNICAL INSTALLATION

Resumen de: EP4513388A1

Disclosed is an engineering system (102) and a method (400) for determining one or more performance indicator values for a plurality of physical components (108A-108N) in a technical installation (106) to be visualized in a multi-layered manner. The method comprises receiving, by a processing unit (202), a request to determine one or more performance indicator values associated with one or more physical components in the technical installation (106), determining one or more physical components associated with the one or more performance indicators based on analysis of an engineering design and corresponding engineering project of the technical installation, determining a first knowledge graph from a second knowledge graph, and determining, the requested one or more performance indicator values using a trained machine learning model on the first knowledge graph.

MISUSE INDEX FOR EXPLAINABLE ARTIFICIAL INTELLIGENCE IN COMPUTING ENVIRONMENTS

Resumen de: US2025061332A1

A mechanism is described for facilitating misuse index for explainable artificial intelligence in computing environments, according to one embodiment. A method of embodiments, as described herein, includes mapping training data with inference uses in a machine learning environment, where the training data is used for training a machine learning model. The method may further include detecting, based on one or more policy/parameter thresholds, one or more discrepancies between the training data and the inference uses, classifying the one or more discrepancies as one or more misuses, and creating a misuse index listing the one or more misuses.

CALCULATING RISK SCORE ASSOCIATED WITH A PHYSICAL STRUCTURE FOR A NATURAL DISASTER PERIL USING HAZARD AND VULNERABILITY MODELS

Resumen de: US2025061171A1

Examples described herein include methods and computing systems which may include examples of calculating risk scores for certain natural disasters perils based on machine learning model outputs. For example, a machine learning model may weight each of the pixels of a map in accordance with the set of weights associated with a structure, to calculate a risk score for a particular natural disaster peril associated with that structure. A plurality of risk selections may be provided to a user computing device for selection by a user, with those risk selections being associated with that risk score. Advantageously, the computing system facilitates the interaction of datasets with different measurement parameters in a machine learning model. In normalizing datasets before providing the datasets to input nodes of a machine learning model, a computing system may efficiently provide hazard and vulnerability outputs of the machine learning model.

DATA PROCESSING SYSTEM WITH MACHINE LEARNING ENGINE TO PROVIDE OUTPUT GENERATING FUNCTIONS

Resumen de: US2025061492A1

Methods, apparatuses, systems, and computer-readable media for identifying and executing one or more interactive condition evaluation tests and collecting and analyzing user behavior data to generate an output are provided. In some examples, user information may be received and one or more interactive condition evaluation tests may be identified. An instruction may be transmitted to a computing device of a user and executed on the computing device to enable functionality of one or more sensors that may be used in the identified tests. Upon initiating a test, data may be collected from the one or more sensors. The collected sensor data may be transmitted to the system and processed using one or more machine learning datasets. Additionally, user behavior data may be collected and processed using one or more machine learning datasets. The sensor data, the user behavior data, and other data may be used together to generate an output.

DEVICES, SYSTEMS AND METHODS FOR SORTING AND LABELLING FOOD PRODUCTS

Resumen de: US2025058360A1

Devices, systems and methods for sorting and labelling food products are provided. Respective spectra of food products for a plurality of segments of a line are received at a controller from at least one line-scan dispersive spectrometer configured to acquire respective spectra of the food products for the plurality of segments of the line. The controller applies one or more machine learning algorithms to the respective spectra to classify the plurality of segments according to at least one of one or more food parameters. The controller controls one or more of a sorting device and a labelling device according to classifying the plurality of segments to cause the food products to be one or more of sorted and labelled according to the at least one of the one or more food parameters.

Systems and methods for improved core sample analysis

Resumen de: AU2025200759A1

SYSTEMS AND METHODS FOR IMPROVED CORE SAMPLE ANALYSIS Provided herein are methods and systems for improved core sample analysis. At least one image of a core sample may be analyzed to determine structural data associated with the core sample (e.g., attributes of the core sample). A machine learning model may analyze the at least one image and determine one or more attributes associated with the core sample. The machine learning model may generate a segmentation mask. An output image may be generated. A user may interact with the output image and provide one or more user edits. The one or more user edits may be provided to the machine learning model for optimization thereof.

SYSTEM FOR DIAGNOSING, TRACKING, AND PREDICTING RECOVERY PATTERNS IN PATIENTS WITH TRAUMATIC BRAIN INJURY

Resumen de: US2025057466A1

Described are platforms, systems, media, and methods for evaluating, monitoring, and/or treating a subject for brain injury based on machine learning analysis of one or more of brain imaging features, clinical features, demographic features, or speech features.

SYSTEM AND METHOD FOR EFFICIENTLY RENDERING ONE OR MORE SCENES IN A COMPUTER SIMULATED ENVIRONMENT

Resumen de: WO2025036871A1

Disclosed is a system, apparatus, method for efficiently rendering one or more scenes in a computer simulated environment. The method comprises receiving visual data from one or more data acquisition devices configured to acquire data pertaining to one or more entities interacting in an industrial environment. The method comprises identifying real-world scene from the industrial environment in real-time, wherein the real-world scene is identified using one or more machine learning models on the received visual data; fetching a preconfigured animated scene from a knowledge base based on a comparison with the identified real-world scene; rendering the preconfigured animated scene fetched from the knowledge base in the computer simulated environment; detecting a deviation in the real-world scene when compared with the preconfigured animated scene being rendered in the computer simulated environment; and rendering the real-world scene in the computer simulated environment in response to the detected deviation.

CIRCUIT WIRING DETERMINATION METHOD AND RELATED DEVICE

Resumen de: EP4510036A1

A circuit wiring determining method relates to the field of circuit layouts. The method includes: obtaining information used to describe a port and a pin; determining a plurality of candidate connection paths based on the information about the port and the pin; obtaining a cost value of each candidate connection path by using a machine learning model, where the cost value indicates impact of the candidate connection path on a total quantity of connection paths between a plurality of ports and a plurality of pins; and determining at least one target connection path from the plurality of candidate connection paths based on the cost value. In this application, the cost value of the candidate connection path is effectively evaluated by using the machine learning model, and a preferred target connection path is determined based on the cost value, to increase a quantity of connections between the ports and the pins of an entire circuit.

SYSTEM AND METHOD FOR EFFICIENTLY RENDERING ONE OR MORE SCENES IN A COMPUTER SIMULATED ENVIRONMENT

Resumen de: EP4510056A1

Disclosed is a system, apparatus, method for efficiently rendering one or more scenes in a computer simulated environment. The method comprises receiving visual data from one or more data acquisition devices configured to acquire data pertaining to one or more entities interacting in an industrial environment. The method comprises identifying real-world scene from the industrial environment in real-time, wherein the real-world scene is identified using one or more machine learning models on the recevied visual data; fetching a preconfigured animated scene from a knowledge base based on a comparison with the identified real-world scene; rendering the preconfigured animated scene fetched from the knowledge base in the computer simulated environment; detecting a deviation in the real-world scene when compared with the preconfigured animated scene being rendered in the computer simulated environment; and rendering the real-world scene in the computer simulated environment in response to the detected deviation.

MACHINE LEARNING TO ALLOCATE RESOURCES

Resumen de: US2025053893A1

Techniques for resource allocation using machine learning are provided. A plurality of user segments is identified based on a plurality of features describing the users, and a set of predicted conversion scores is generated for the plurality of user segments using a trained surrogate model. A set of user segments, from the plurality of user segments, is selected by processing the set of predicted conversion scores using an acquisition model. A first resource allocation is generated for the set of user segments at a first point in time, where at least one user segment not included in the set of user segments is not allocated resources at the first point in time.

MACHINE-LEARNING TECHNIQUES FOR PREDICTING UNOBSERVABLE OUTPUTS

Resumen de: US2025053859A1

In some aspects, a computing system can generate and optimize a machine learning model to estimate an unobservable capacity of a target system or entity. The computing system can access training vectors which include training predictor variables, training performance indicators, and task quantities. A training performance indicator indicating performance outcome corresponding to the predictor variables and a task quantity associated with a task assigned to the target entity that leads to the training performance indicator. The machine learning model can be trained by performing adjustments of parameters of the machine learning model to minimize a loss function defined based on the training vectors. The trained machine learning model can be used to estimate the capacity of the target system or entity for handling tasks and be used in assigning tasks to the target entity according to the determined capacity.

SYSTEM FOR DETERMINING QUANTITATIVE MEASURE OF DYADIC TIES

Nº publicación: US2025053895A1 13/02/2025

Solicitante:

6DOS LLC [US]
6DOS, LLC

Resumen de: US2025053895A1

Described are platforms, systems, and methods for determining quantifiable measures of dyadic ties. In one aspect, a method comprises receiving contextual data for a user from at least one data source; processing the contextual data through a first machine-learning model to determine quantifiable measures of dyadic ties between the user and each of a plurality of individuals, the first machine-learning model trained with previously received contextual data of a plurality of other users; determining a grouping for the user based on the determined quantifiable measures, the grouping comprising at least one of the individuals; and providing, through a user-interface, access to the determined quantifiable measures to members of the grouping.