Medical School University of South Dakota Sanford School of Medicine Graduated: 1990
Procedures:
Allergen Immunotherapy Arthrocentesis Cardiac Stress Test Circumcision Continuous EKG Destruction of Benign/Premalignant Skin Lesions Electrocardiogram (EKG or ECG) Pulmonary Function Tests Skin Tags Removal Vaccine Administration
Conditions:
Anemia Anxiety Dissociative and Somatoform Disorders Anxiety Phobic Disorders Atopic Dermatitis Atrial Fibrillation and Atrial Flutter
Languages:
English Spanish
Description:
Dr. Larson graduated from the University of South Dakota Sanford School of Medicine in 1990. He works in Watertown, SD and specializes in Family Medicine. Dr. Larson is affiliated with Prairie Lakes Healthcare System.
David W. Jensen - Mapleton UT, US Keith Davis - Albany OR, US Boyd Kimber Gunnell - Somerville MA, US Gregory James Larson - Vail AZ, US David L. Blunck - Canby OR, US Tyler Evans - Salt Lake City UT, US Steve Hansen - Draper UT, US Sarita Rogers - Boise ID, US Jennifer Boyce - Renton WA, US Eve Pate - Provo UT, US James T. Ayers III - Doraville GA, US
International Classification:
D04C 1/00 D04C 3/00
US Classification:
87 8, 87 33
Abstract:
An apparatus, system, and method are disclosed for the manufacture of composite lattice structures comprising a weaving mechanism configured to position fibers in a lattice structure, the weaving mechanism comprising one or more bobbins , each one or more bobbin configured to carry fiber and a plurality of horn gears configured to move the one or more bobbins across the face of the weaving mechanism to control the position of the fiber carried by the one or more bobbins in the lattice structure, and a shape retention structure configured to hold the fibers in lattice structure. Beneficially, such an apparatus, system, and method would automate the process of manufacturing composite lattice structures and reduce the costs associated with the existing methods for manufacturing such structures.
- Provo UT, US Robert K. Seolas - Alpine UT, US Tyler Broadbent - Lehi UT, US Dan Reno - Orem UT, US Gregory Larson - Orem UT, US
International Classification:
G06F 9/448 H04L 12/26
Abstract:
A computer system for identifying execution paths of analytic elements comprises computer-executable instructions that configure the computer system to identify an orphan analytic element and a second analytic element associated with a network-connected software application. The system can also be configured to identify, with a computer processor, one or more common attributes associated with the orphan analytic element and the second analytic element. Based upon the one or more common attributes, the computer system can identify an execution path for the orphan analytic element. Additionally, the system can be configured to execute, at the one or more computer processors, the network-connected software application, capture network communications generated by the network-connected software application, and generate observed execution paths based on the captured network communications. The system can additionally generate a report indicating the frequency of analytic element execution paths associated with the network-connected software application.
- Lehi UT, US Alex Bean - Orem UT, US Gregory Larson - Lehi UT, US
International Classification:
G06Q 40/00 G06Q 20/34
Abstract:
A system and method for authorizing, managing, and tracking expenses made by an agent on behalf of a principal is disclosed. The principal assigns a budget to the agent including parameters describing permitted expenditures. The agent requests of the principal via a Transaction Authorization System authorization for an expenditure. If the principal authorizes, the agent is permitted to make the transaction. The transaction is described and categorized by the agent via the Transaction Authorization System and information from the transaction, the budget, and the request process is compiled into a report.
- Provo UT, US Robert K. Seolas - Alpine UT, US Tyler Broadbent - Lehi UT, US Dan Reno - Orem UT, US Gregory Larson - Orem UT, US
International Classification:
G06F 17/30 G06Q 30/02
Abstract:
A computer system for managing a configuration of analytic elements comprises computer-executable instructions that configure the computer system to receive, at the computer system, a dataset of information, which can include analytic elements executable within a network-connected software application and attributes associated with the analytic elements. Based on the dataset of information, the system can define rules configured to describe attributes of analytic elements. Additionally, the system can be configured to store the rules within a digital database that includes a set of rules configured to describe attributes of analytic elements. The system can also be configured to capture network communications generated by network-connected software applications, and identify non-conforming network communications within the network communications that are associated with non-conforming analytic elements analogous to conforming analytic elements such that, when executed, the non-conforming analytic elements fails to conform to one or more rules.
- Provo UT, US Robert K. Seolas - Alpine UT, US Tyler Broadbent - Lehi UT, US Dan Reno - Orem UT, US Gregory Larson - Orem UT, US
International Classification:
G06F 17/30 G06Q 30/02
Abstract:
A computer system for managing a configuration of network-based analytic elements accesses one or more webpages. Each of the webpages is represented at least in part by webpage source code. The computer parses the webpage source code associated with the webpages. The computer system identifies within the webpage source code a plurality of network-based analytic elements executable within a network-connected software application, and one or more webpage source code attributes that comprise information relating to the rendering of the webpage source code. Based on the dataset of information, the computer system defines a first rule configured to associate at least one network-based analytic element with a webpage source code attribute. Additionally, the computer system stores the first rule within a digital database, the digital database comprising a set of rules configured to describe attributes of the plurality of network-based analytic elements.
- Provo UT, US Robert K. Seolas - Alpine UT, US Tyler Broadbent - Lehi UT, US Dan Reno - Orem UT, US Gregory Larson - Orem UT, US
International Classification:
G06F 11/36 G06F 17/30 H04L 12/24
Abstract:
Disclosed embodiments include a computer system for verifying proper configuration of analytic elements. The computer system identifies an analytic element associated with a network-connected software application. The computer system also executes the analytic element such that the analytic element initiates a network communication with a remote server. The computer system then searches a dataset for information relating to the network communication from the analytic element. The dataset comprises network communications received by a remote server. When the network communication generated by the analytic element is not found within the dataset, the computer system generates a report that the analytic element is not functioning properly.
Translation Of Natural Language Into User Interface Actions
- Provo UT, US John Raymond Pestana - Orem UT, US Tyler Broadbent - Lehi UT, US Gregory Larson - Orem UT, US
Assignee:
OVSERVEPOINT, INC. - Provo UT
International Classification:
G06F 3/16 G06F 3/0481 G06F 17/28
Abstract:
Embodiments are directed to methods and systems for deriving automation instructions. In one scenario, a computer system derives automation instructions by performing the following: rendering a user interface (UI) based on information from an information source and receiving natural language inputs from a user, where the natural language inputs specify an element description and an action type for UI elements rendered in the UI. The method also includes identifying UI elements in the UI that match the element descriptions in the natural language input and whose actions are performable according to their specified action type, and mapping the natural language inputs into executable code using information that corresponds to the identified UI elements.
Automatic Execution Of Objects In A User Interface
- Provo UT, US John Raymond Pestana - Orem UT, US Tyler Broadbent - Lehi UT, US Gregory Larson - Orem UT, US
International Classification:
G06F 9/44 G06F 17/22
Abstract:
Embodiments are directed to traversing and mapping a user interface. In one scenario, a computer system performs a method for traversing and mapping a user interface that includes the following: rendering a user interface (UI) based on data received from an information source, constructing an element collection with UI elements, the element collection describing relationships that exist between the UI elements, traversing the element collection to identify various node element types, identifying, within a pre-defined action set, an action associated with at least one of the identified node element types, executing the identified action against the identified node element types, and logging at least one network request resulting from the executed action.
Mount Pleasant Elementary School Oregon City OR 1960-1961, Salem Heights Elementary School Salem OR 1961-1962, Cloverdale Elementary School Turner OR 1962-1967, Cascade Junior High School Turner OR 1967-1970
Community:
Brian Smith, Ann Weisenhaus, Linda Sullivan, Brenda Suchocki, Dawn Perth