- Brookfield CT, US Daniel Posnack - Fort Lauderdale FL, US Peter Arn - Roxbury CT, US Wendy Para - Las Vegas NV, US S. Adam Hacking - Nashua NH, US Micheal Mueller - Oil City PA, US Jonathan Greene - Denver CO, US Steven Mason - Las Vegas NV, US
Assignee:
ROM TECHNOLOGIES, INC. - Brookfield CT
International Classification:
G16H 10/60 G06F 21/64 G16H 40/67 G16H 20/00
Abstract:
A system for processing medical claims, comprising a processor configured to receive device-generated information from a medical device. The device-generated information includes performance information. The processor generates a first biometric signature, and using the device-generated information, generates a second biometric signature, wherein the second biometric signature uses the performance information. Using the first and second biometric signatures, the processor generates a signature comparison. Using the signature comparison, the processor generates a signature indicator and transmits the signature indicator.
Method And System For Implementing Dynamic Treatment Environments Based On Patient Information
- Brookfield CT, US Daniel Posnack - Fort Lauderdale FL, US Peter Arn - Roxbury CT, US Wendy Para - Las Vegas NV, US S. Adam Hacking - Nashua NH, US Micheal Mueller - Oil City PA, US Joseph Guaneri - Merrick NY, US Jonathan Greene - Denver CO, US
International Classification:
G16H 20/40 G16H 10/60 A63B 22/06 G16H 40/67
Abstract:
A system that comprises a memory device storing instructions, and a processing device communicatively coupled to the memory device. The processing device executes the instructions to: receive user data obtained from records associated with a user; generate a modified treatment plan based on the user data; and send, to a treatment apparatus accessible to the user, the modified treatment plan, wherein the modified treatment plan causes the treatment apparatus to update at least one operational aspect of the treatment apparatus, and update at least one operational aspect of at least one other device communicatively coupled to the treatment apparatus.
Systems And Methods Of Using Artificial Intelligence And Machine Learning For Generating An Alignment Plan Capable Of Enabling The Aligning Of A User's Body During A Treatment Session
- Brookfield CT, US Daniel Posnack - Fort Lauderdale FL, US Peter Arn - Roxbury CT, US Wendy Para - Las Vegas NV, US S. Adam Hacking - Nashua NH, US Micheal Mueller - Oil City PA, US Joseph Guaneri - Brookfield CT, US Jonathan Greene - Denver CO, US
Methods, systems, and computer-readable mediums for generating, by an artificial intelligence engine, an alignment plan capable of enabling, during a treatment session, the aligning of a user's body. The method comprises generating machine learning models trained to identify alignment plans. The method also comprises receiving treatment data that comprises a first position of the user's body, aspects of a treatment plan, and one or more attributes of the user. The method further comprises generating the alignment plan by using the machine learning models. The generating is based on at least the aspects of the treatment plan and at least one of the one or more attributes of the user. The alignment plan may comprise a target position of the user's body and one or more elements for adjusting the user's body from the first position to the target position. The method also comprises transmitting the plan to a computing device.
Method And System For Monitoring Actual Patient Treatment Progress Using Sensor Data
- Brookfield CT, US Daniel Posnack - Fort Lauderdale FL, US Peter Arn - Roxbury CT, US Wendy Para - Las Vegas NV, US S. Adam Hacking - Nashua NH, US Michael Mueller - Oil City PA, US Joseph Guaneri - Merrick BY, US Jonathan Greene - Denver CO, US
A method includes receiving treatment data pertaining to a user capable of using a treatment device to perform a treatment plan and receiving activity data pertaining to the user while the user engages in at least one activity. The method also includes generating treatment information using the treatment data and the activity data and writing to an associated memory, for access by a healthcare professional, the treatment information. The method also includes modifying at least one aspect of the treatment plan in response to receiving, from the healthcare professional, treatment plan input including at least one modification to the at least one aspect of the treatment plan.
- Brookfield CT, US Daniel Posnack - Fort Lauderdale FL, US Peter Arn - Roxbury CT, US Wendy Para - Las Vegas NV, US S. Adam Hacking - Nashua NH, US Micheal Mueller - Oil City PA, US Jonathan Greene - Denver CO, US Steven Mason - Las Vegas NV, US
A computer-implemented system for processing medical claims is disclosed. The system includes a medical device configured to be manipulated by a user while the user performs a treatment plan; a patient interface associated with the medical device, the patient interface comprising an output configured to present telemedicine information associated with a telemedicine session; and a processor. During the telemedicine session, the processor is configured to receive information from a medical device. Using the device-generated information, the processor is further configured to determine device-based medical coding information. The processor is further configured to transmit the device-based medical coding information to a claim adjudication server.
Systems And Methods For Using Machine Learning To Control An Electromechanical Device Used For Prehabilitation, Rehabilitation, And/Or Exercise
- Brookfield CT, US Daniel Posnack - Fort Lauderdale FL, US Peter Arn - Roxbury CT, US Wendy Para - Las Vegas NV, US S. Adam Hacking - Nashua NH, US Micheal Mueller - Oil City PA, US Joseph Guaneri - Merrick NY, US Jonathan Greene - Denver CO, US
Systems, methods, and computer-readable mediums for operating an electromechanical device are disclosed. The system includes, in one example, the electromechanical device, a patient portal, and a computing device. The computing device is configured to receive user data relating to a user, and receive treatment data relating to treatment plans and outcomes. The computing device is also configured to generate a prehabilitation plan by using a machine learning model to process the user data and the treatment data. The computing device is further configured to select, for the electromechanical device, an electromechanical device configuration that enables exercises of the prehabilitation plan to be performed by the user such that performance improves an area of the user's body. The computing device is also configured to enable the electromechanical device to implement the electromechanical device configuration.
Computerized Systems And Methods For Military Operations Where Sensitive Information Is Securely Transmitted To Assigned Users Based On Ai/Ml Determinations Of User Capabilities
- Brookfield CT, US Daniel Posnack - Fort Lauderdale FL, US Peter Arn - Roxbury CT, US Wendy Para - Las Vegas NV, US S. Adam Hacking - Nashua NH, US Micheal Mueller - Oil City PA, US Joseph Guaneri - Merrick NY, US Jonathan Greene - Denver CO, US
International Classification:
G16H 20/30 A63B 24/00 G16H 50/30
Abstract:
Disclosed are systems and methods for a computerized framework that leverages artificial intelligence (AI)/machine learning (ML) mechanisms to assign selected individuals to military operations. The disclosed framework comparatively analyzes an ops sheet of a military operation and profile data related to a user(s), and automatically determines user(s) who are optimal for the operation. The determined user or users possess the physical and/or intellectual capabilities to accurately and efficiently, with respect to real-world and electronic resources, perform and complete the operation. The disclosed framework provides a computerized platform that selects users for highly specific tasks based on the users' analyzed skill sets, and based on computerized determinations of how such users are predicted to perform using those skill sets, securely and/or confidentially provides the users access to information related to the operation.
System And Method To Enable Remote Adjustment Of A Device During A Telemedicine Session
- Brookfield CT, US Daniel Posnack - Fort Lauderdale FL, US Peter Arn - Roxbury CT, US Wendy Para - Las Vegas NV, US S. Adam Hacking - Nashua NH, US Micheal Mueller - Oil City PA, US Joseph Guaneri - Merrick NY, US Jonathan Greene - Denver CO, US
Assignee:
ROM TECHNOLOGIES, INC. - Brookfield CT
International Classification:
G16H 40/67 G16H 80/00 G16H 20/30 H04L 67/025
Abstract:
A computer-implemented system comprising a treatment device, a patient interface, and a processing device is disclosed. The treatment device is configured to be manipulated by a user while the user performs a treatment plan. The patient interface comprises an output device configured to present telemedicine information associated with a telemedicine session. The processing device is configured to receive a treatment plan for a patient; during the telemedicine session, use the treatment plan to generate at least one parameter; and responsive to at least one trigger condition occurring, control at least one operation of the device.
Resumes
Director Of Trading At Ceros Financial Services, Inc.
Digital Trike since Jan 2001
Founder | Strategy | President
Education:
University of Utah 1996 - 2003
Skills:
Strategy Development Strategic Consulting Web Development Mobile Applications Software Development Hardware Development User Interface Design Google Analytics Strategy E-commerce Information Architecture
City Wide Security Systems Inc. Security Control Equipment. Sys/Monitor. Security System Consultants. Security Cameras. Consultants - Security
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