- New York NY, US Jarin Schmidt - Eden Prairie MN, US Clarke Porter - Minneapolis MN, US Peter Pascale - Edina MN, US Andrew Stockinger - Bloomington MN, US Ronald Lancaster - Saint Paul MN, US
International Classification:
G06F 17/50 G06Q 10/06
Abstract:
Techniques described herein relate to executing and monitoring physical simulations within a digital credential platform. Physical simulation evaluation systems may be implemented including sensor-based monitoring systems, simulation output systems, and/or simulation environment control systems. Particular types of digital credential simulations may be determined and executed within a physical environment, during which a plurality of sensors may be used to monitor the physical actions of a credential receiver during physical simulation. The physical action data may be analyzed and compared to digital credential requirements to determine one or more digital credentials to be generated and issued to the credential receiver.
Tracking Digital Credential Usage In A Sensor-Monitored Environment
- New York NY, US Jarin Schmidt - Eden Prairie MN, US Clarke Porter - Minneapolis MN, US Peter Pascale - Edina MN, US Andrew Stockinger - Bloomington MN, US Ronald Lancaster - Saint Paul MN, US
International Classification:
G06Q 30/00
Abstract:
Techniques described herein relate to tracking and analyzing digital credential usage in sensor-monitored environments. A digital credential platform server may receive data identifying credential receivers, and then retrieve the digital credentials generated and issued to the credential receivers. The digital credential platform server may then determine sets of physical activities associated with the digital credentials issued to a credential receiver, and may use sensor-based monitoring systems to detect the user actions of the credential receiver and compare those actions to the physical activities associated with the credentials. Comparisons between the user actions detected for the credential receiver, and the physical activities associated with the receiver's credentials, may be used to determine re-credentialing time periods, credential expiration times, and the like.
Generating Digital Credentials With Associated Sensor Data In A Sensor-Monitored Environment
- New York NY, US Jarin Schmidt - Eden Prairie MN, US Clarke Porter - Minneapolis MN, US Peter Pascale - Edina MN, US Andrew Stockinger - Bloomington MN, US Ronald Lancaster - Saint Paul MN, US
International Classification:
G06Q 30/00 G06F 17/24 G06T 7/73 G06K 9/00
Abstract:
Techniques described herein relate to generating and issuing digital credentials within a credentialing environment, including storing digital credentials with associated sensor data collected via a sensor-monitored environment. Digital credential generation systems may include sensor-based monitoring or detection systems, along with digital credential generation and issuing components. During an evaluation of a credential receiver, and generation/issuance of digital credentials to the receiver, the receiver may be monitored using various sensors. The digital credential generation system may determine and store the relevant sensor data in a digital credential storage repository associated with the particular credential receiver. The associated sensor data may serve as authentication data and/or evidence of the completion of the credential criteria by the receiver. Additionally, the stored sensor data may be automatically applied to additional digital credential criteria, to allow the system to automatically generate and issue updated and/or additional digital credentials to receivers.
Generating Digital Credentials Based On Sensor Feedback Data
- New York NY, US Jarin Schmidt - Eden Prairie MN, US Clarke Porter - Minneapolis MN, US Peter Pascale - Edina MN, US Andrew Stockinger - Bloomington MN, US Ronald Lancaster - Saint Paul MN, US
International Classification:
G06Q 30/00
Abstract:
Techniques described herein relate to analyzing, generating, and issuing digital credentials based on feedback associated with credential receivers. Digital credential generation systems may use sensor detection systems to monitor the user actions of the credential receiver and capture sensor data of the user during the interactive assessments and other credentialing processes. The captured sensor data then may be stored as feedback data, along with the responses from the receiver collected during the interactive assessments. Feedback data may be evaluated and used to authenticate the user, determine eligibility determinations for certain digital credentials, and the like.
- New York NY, US Jarin Schmidt - Eden Prairie MN, US Clarke Porter - Minneapolis MN, US Peter Pascale - Edina MN, US Andrew Stockinger - Bloomington MN, US Ronald Lancaster - Saint Paul MN, US
International Classification:
G06Q 30/00 G06F 17/30
Abstract:
Techniques described herein relate to receiving multiple sources of verified data associated with a digital credential receiver, and mapping the digital credential receiver to one or more data field data objects based on analyses of the verified data. In some embodiments, a digital credential platform server may analyze the various data sources associated with the digital credential receiver, in order to determine and calculate correlation scores between the digital credential receiver and various field data objects. A combination of analyses and/or comparisons may be used between the credential receiver data and the corresponding retrieved from field data objects, such as the digital credential objects earned by the credential receiver, the credential receiver's verified evaluation records, and/or the career phase of the digital credential receiver.
- New York NY, US Jarin Schmidt - Eden Prairie MN, US Clarke Porter - Minneapolis MN, US Peter Pascale - Edina MN, US Andrew Stockinger - Bloomington MN, US Ronald Lancaster - Saint Paul MN, US
International Classification:
G06Q 30/00 G06Q 10/06 G06N 99/00
Abstract:
Techniques described herein relate to determining model profiles of credential receivers corresponding to particular field objects. A digital credential platform server may receive data corresponding to a plurality of credential receivers, identify particular subsets of the credential receivers associated with particular field data objects, and then determine and analyze credential receiver data to determine sets of capabilities associated with the receiver. The determined sets of capabilities associated with each credential receiver may be analyzed, and based on the analyses, one or more model profiles of capabilities may be generated for the field data object. The various analyses may include regression analyses, trained machine learning algorithms, and/or other mathematical analyses capable of identifying model capabilities profiles for credential receivers.
Digital Credential Analysis In A Digital Credential Platform
- New York NY, US Jarin Schmidt - Eden Prairie MN, US Clarke Porter - Minneapolis MN, US Peter Pascale - Edina MN, US Andrew Stockinger - Bloomington MN, US Ronald Lancaster - Saint Paul MN, US
International Classification:
G06Q 30/00
Abstract:
Techniques described herein relate to analyzing and valuating individual issuances of digital credentials to particular users within a digital credential platform. A digital credential platform server may receive and/or retrieve data relating to digital credential receivers and particular types of digital credentials. The platform server then may query data stores of field data objects and determine various field data objects associated with the particular types of digital credentials. Value data may be determined for any associated field data objects, and the platform server then may compute values for the particular types of digital credentials based on the values for the corresponding field data objects. In some cases, valuations of particular types of digital credential may depend on characteristics of credential receivers, such as the set of additional digital credentials currently or previously issued to the credential receiver, or additional factors such as individual receiver characteristics or location.
Generating Digital Credentials Based On Actions In A Sensor-Monitored Environment
- New York NY, US Jarin Schmidt - Eden Prairie MN, US Clarke Porter - Minneapolis MN, US Peter Pascale - Edina MN, US Andrew Stockinger - Bloomington MN, US Ronald Lancaster - Saint Paul MN, US
International Classification:
H04L 29/06
Abstract:
Techniques described herein relate to generating and issuing digital credentials to digital credential receivers, based on actions detected within sensor-monitored environments. Digital credential generators may include operation evaluation systems having a plurality of configurable sensors directed to detect user activity within a physical environment. Evaluation systems may monitor physical environments associated with a user, in order to detect various user actions performed within the environment during a predetermined time period. Sets of user operations may be determined based on the physical actions, and the user operations may be compared to digital credential criteria associated with a plurality of different digital credential types. The system may generate digital credentials based on the eligibility determinations for corresponding digital credential templates, and issue the digital credentials to the associated credential receivers.