Daniel Posnack
51Patents
22h-index
9Co-inventors
70Inventor score
Filing activity: Sep 15, 2020 → Nov 27, 2023
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US11325005B2 | Systems and methods for using machine learning to control an electromechanical device used for prehabilitation, rehabilitation, and/or exercise | Human Necessities | 91 | Active |
| US11348683B2 | System and method for processing medical claims | Physics | 87 | Active |
| US11282604B2 | Method and system for use of telemedicine-enabled rehabilitative equipment for prediction of secondary disease | Physics | 85 | Active |
| US11282608B2 | Method and system for using artificial intelligence and machine learning to provide recommendations to a healthcare provider in or near real-time during a telemedicine session | Human Necessities | 84 | Active |
| US11282599B2 | System and method for use of telemedicine-enabled rehabilitative hardware and for encouragement of rehabilitative compliance through patient-based virtual shared sessions | Physics | 84 | Active |
| US11069436B2 | System and method for use of telemedicine-enabled rehabilitative hardware and for encouraging rehabilitative compliance through patient-based virtual shared sessions with patient-enabled mutual encouragement across simulated social networks | Physics | 84 | Active |
| US11295848B2 | Method and system for using artificial intelligence and machine learning to create optimal treatment plans based on monetary value amount generated and/or patient outcome | Physics | 84 | Active |
| US11328807B2 | System and method for using artificial intelligence in telemedicine-enabled hardware to optimize rehabilitative routines capable of enabling remote rehabilitative compliance | Human Necessities | 83 | Active |
| US11101028B2 | Method and system using artificial intelligence to monitor user characteristics during a telemedicine session | Physics | 83 | Active |
| US11071597B2 | Telemedicine for orthopedic treatment | Physics | 83 | Active |
| US11284797B2 | Remote examination through augmented reality | Physics | 83 | Active |
| US11317975B2 | Method and system for treating patients via telemedicine using sensor data from rehabilitation or exercise equipment | Physics | 83 | Active |
| US11087865B2 | System and method for use of treatment device to reduce pain medication dependency | Physics | 83 | Active |
| US11309085B2 | System and method to enable remote adjustment of a device during a telemedicine session | Electricity | 83 | Active |
| US11139060B2 | Method and system for creating an immersive enhanced reality-driven exercise experience for a user | Human Necessities | 83 | Active |
| US11075000B2 | Method and system for using virtual avatars associated with medical professionals during exercise sessions | Physics | 83 | Active |
| US11270795B2 | Method and system for enabling physician-smart virtual conference rooms for use in a telehealth context | Human Necessities | 80 | Active |
| US11410768B2 | Method and system for implementing dynamic treatment environments based on patient information | Human Necessities | 80 | Active |
| US11404150B2 | System and method for processing medical claims using biometric signatures | Physics | 80 | Active |
| US11701548B2 | Computer-implemented questionnaire for orthopedic treatment | Human Necessities | 69 | Active |
| US11508482B2 | Systems and methods for remotely-enabled identification of a user infection | Physics | 45 | Active |
| US11265234B2 | System and method for transmitting data and ordering asynchronous data | Electricity | 39 | Active |
| US11445985B2 | Augmented reality placement of goniometer or other sensors | Human Necessities | 2 | Active |
| US11826613B2 | Persuasive motivation for orthopedic treatment | Human Necessities | 1 | Active |
| US11950861B2 | Telemedicine for orthopedic treatment | Physics | 0 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.