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Frank A Fornari

from Newport, RI
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Connected to:
Alejandro Fornaris, 33James B Fornari, 58John D Fornari, 68Mario G Fornaris, 51Mercedes Fornaris, 51Sophie E Fornaris, 31Anna E Fornaro, 65Harry F Fornarotto, 88Marie B Fornaro, 83John H Fornasar, 72

Frank Fornari Phones & Addresses

  • 11 Catherine St, Newport, RI 02840 (401) 619-4038
  • Middletown, RI
  • 137 Narragansett Ave, Jamestown, RI 02835 (401) 560-0489 (401) 560-0088 (401) 560-0449
  • Cranston, RI
  • Bonita Springs, FL
  • Wakefield, RI
  • North Kingstown, RI

Resumes

Resumes

Frank Fornari Photo 1

Chairman

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Location:
10640 Stroganof Dr, Anchorage, AK 99507
Industry:
Sports
Work:
Biomech
Chairman
Biomech Sports
Chief Executive Officer
Education:
Ohio University Heritage College of Osteopathic Medicine
Saint Vincent College
Bachelors, Bachelor of Science Medical College of Virginia
Doctorates, Doctor of Philosophy, Toxicology, Philosophy, Pharmacology Ross University School of Medicine
Temple University
Medical College of Virginia
Skills:
Sports
Frank Fornari Photo 2

Frank Fornari

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Frank Fornari Photo 3

Frank Fornari

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Frank Fornari Photo 4

Chief Executive Officer At Dominion Diagnostics

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Location:
Providence, Rhode Island Area
Industry:
Hospital & Health Care
Frank Fornari Photo 5

Ceo At Dominion Diagnostics

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Location:
Providence, Rhode Island Area
Industry:
Hospital & Health Care

Business Records

Name / Title
Company / Classification
Phones & Addresses
Frank Fornari
Manager
Biomech Health, LLC
711 5 Ave S, Naples, FL 34102
Frank Fornari
Managing
Homes That Heal LLC
3920 Via Del Rey, Bonita Springs, FL 34134
Frank Fornari
Managing
Biomech Sensor, LLC
711 5 Ave S, Naples, FL 34102
Frank Fornari
Managing
Biomech Fitness, LLC
711 5 Ave S, Naples, FL 34102
Frank Fornari
Manager
Biomech Golf Instruction, LLC
711 5 Ave S, Naples, FL 34102
Frank Fornari
Managing
Biomech Sports, LLC
711 5 Ave S, Naples, FL 34102
Frank Fornari
Manager
Biomech Golf Equipment, LLC
711 5 Ave S, Naples, FL 34102
Frank Fornari
Managing
Biomech Tennis, LLC
711 5 Ave S, Naples, FL 34102

Publications

Us Patents

Systems And Methods For Real-Time Data Quantification, Acquisition, Analysis, And Feedback

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US Patent:
20220241643, Aug 4, 2022
Filed:
Mar 29, 2022
Appl. No.:
17/656904
Inventors:
- Midlothian VA, US
Frank FORNARI - Naples FL, US
International Classification:
A63B 24/00
A63B 69/36
A63B 71/06
Abstract:
This disclosure relates to systems, media, and methods for quantifying and monitoring exercise parameters and/or motion parameters, including performing data acquisition, analysis, and providing scientifically valid, clinically relevant, and/or actionable diagnostic feedback. Embodiments may be related to systems, devices, methods, and computer-readable media for providing baseline-adjusted real-time feedback to a user. Embodiments may include determining a type of activity for the user. Embodiment may include receiving data from the one or more motion sensors indicating a time-dependent series of three axis acceleration data and three-axis orientation data. Embodiments additionally may include providing a graphical user interface with a real-time representation of the received data. The real-time representation may include a scaled representation of at least one dimension of the time-dependent series of three axis acceleration data and three-axis orientation data for at least one of the one or more motion sensors based on the updated baseline adjustment.

Systems And Methods For Elastic Delivery, Processing, And Storage For Wearable Devices Based On System Resources

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US Patent:
20210255687, Aug 19, 2021
Filed:
Jan 25, 2021
Appl. No.:
17/157626
Inventors:
- Midlothian VA, US
Frank Fornari - Naples FL, US
Jeff Rowberg - Salem VA, US
International Classification:
G06F 1/3212
H04B 17/318
G06F 1/16
Abstract:
The present disclosure relates to systems and methods for elastic delivery, processing, and storage for wearable devices based on system resources. For example, a wearable apparatus may have at least one battery; at least one sensor configured to measure at least one property associated with a user of the wearable apparatus; at least one memory storing measurements from the at least one sensor and instructions; at least one transmitter configured to send data to a device remote from the wearable apparatus; and at least one processor configured to execute the instructions to: receive, from the at least one battery, an indicator of a charge; and based on the received indicator, sending a command to the at least one sensor to operate in a low-power mode or a high-power mode, the low-power mode having. a lower sampling rate than the high-power mode.

Systems And Methods For Reaction Measurement

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US Patent:
20210093240, Apr 1, 2021
Filed:
Jul 10, 2020
Appl. No.:
16/926318
Inventors:
- Midlothian VA, US
Igor PERIC - Barcelona, ES
Frank FORNARI - Naples FL, US
International Classification:
A61B 5/16
G09B 19/00
G06F 3/01
G06K 9/00
A61B 5/00
G06F 3/0484
A61B 5/11
Abstract:
This disclosure relates to systems, media, and methods for quantifying and monitoring visual acuity, motor skill, and cognitive ability of user through measuring user activities while the user responds to prompts on an electronic device. Disclosed embodiments may receive image data from a user-facing camera, motion data from a sensor device attached to the user, location data from a touchscreen, and time data measuring a user's response times. Disclosed embodiments may provide graphical user interfaces to which the user responds and calculate health metrics based on characteristics of the user response. Disclosed embodiments may calculate visual acuity, motor skill, and cognitive ability metrics based on data measured, while the user responds to the graphical user interfaces. Disclosed embodiments may include comparing the metrics to respective baseline values and providing an alert when the metrics deviate from threshold values indicating a change in user health.

Systems And Methods For Wearable Devices That Determine Balance Indices

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US Patent:
20210060382, Mar 4, 2021
Filed:
Aug 14, 2020
Appl. No.:
16/993518
Inventors:
- Midlothian VA, US
Frank FORNARI - Naples FL, US
International Classification:
A63B 24/00
Abstract:
The present disclosure relates to systems and methods for balance index determination. For example, a wearable apparatus may have at least one gyroscope configured to measure angular velocity about a first axis; at least one inertial measurement device (IMU) configured to measure deviation along a second axis and a third axis; at least one memory storing instructions; and at least one processor configured to execute the instructions to: receive angular velocity measurements over a period of time from the at least one gyroscope; receive deviations from the second axis and from the third axis over the period of time from the at least one IMU; weight the deviations based on directions associated with the deviations; and generate a composite balance index based on the angular velocity measurements, the weighted deviations from the second axis, and the weighted deviations from the third axis.

Systems And Methods For Real-Time Data Quantification, Acquisition, Analysis, And Feedback

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US Patent:
20200245900, Aug 6, 2020
Filed:
Apr 20, 2020
Appl. No.:
16/853567
Inventors:
- Midlothian VA, US
Frank FORNARI - Naples FL, US
Igor PERIC - Barcelona, ES
Jeff ROWBERG - Salem VA, US
Alexander MASLENNIKOV - North Potomac MD, US
Bridget BELL - Henrico VA, US
International Classification:
A61B 5/11
A61B 5/06
A61B 5/00
A61B 5/15
Abstract:
This disclosure relates to systems, media, and methods for providing near-instantaneous feedback from real-time motion sensor data. In an embodiment, the system may perform operations including loading at least one target motion trigger. Disclosed embodiments may receive real-time sensor data from the first motion sensor detachably fixed to a user. Additionally, disclosed embodiments may include calculating a motion profile based on the real-time sensor data, the motion profile describing a multi-dimensional representation of acceleration of a motion performed by the user. Disclosed embodiments may also include comparing the at least one target motion trigger to the calculated motion profile to determine if the motion performed by the user corresponds to the target motion. Further, disclose embodiments may include transmitting, based on the comparison, an instruction to provide an alert to a user.

Systems And Methods For Elastic Delivery, Processing, And Storage For Wearable Devices Based On System Resources

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US Patent:
20200241621, Jul 30, 2020
Filed:
Jan 24, 2020
Appl. No.:
16/752096
Inventors:
- Midlothian VA, US
Frank FORNARI - Naples FL, US
Jeff ROWBERG - Salem VA, US
International Classification:
G06F 1/3212
G06F 1/16
H04B 17/318
Abstract:
The present disclosure relates to systems and methods for elastic delivery, processing, and storage for wearable devices based on system resources. For example, a wearable apparatus may have at least one battery; at least one sensor configured to measure at least one property associated with a user of the wearable apparatus; at least one memory storing measurements from the at least one sensor and instructions; at least one transmitter configured to send data to a device remote from the wearable apparatus; and at least one processor configured to execute the instructions to: receive, from the at least one battery, an indicator of a charge; and based on the received indicator, sending a command to the at least one sensor to operate in a low-power mode or a high-power mode, the low-power mode having. a lower sampling rate than the high-power mode.

Systems And Methods For Real-Time Data Quantification, Acquisition, Analysis, And Feedback

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US Patent:
20190336825, Nov 7, 2019
Filed:
Jul 15, 2019
Appl. No.:
16/512253
Inventors:
- Midlothian VA, US
Frank FORNARI - Naples FL, US
International Classification:
A63B 24/00
A63B 69/36
A63B 71/06
Abstract:
This disclosure relates to systems, media, and methods for quantifying and monitoring exercise parameters and/or motion parameters, including performing data acquisition, analysis, and providing scientifically valid, clinically relevant, and/or actionable diagnostic feedback. Embodiments may be related to systems, devices, methods, and computer-readable media for providing baseline-adjusted real-time feedback to a user. Embodiments may include determining a type of activity for the user. Embodiment may include receiving data from the one or more motion sensors indicating a time-dependent series of three axis acceleration data and three-axis orientation data. Embodiments additionally may include providing a graphical user interface with a real-time representation of the received data. The real-time representation may include a scaled representation of at least one dimension of the time-dependent series of three axis acceleration data and three-axis orientation data for at least one of the one or more motion sensors based on the updated baseline adjustment.

Systems And Methods For Real-Time Data Quantification, Acquisition, Analysis And Feedback

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US Patent:
20180188284, Jul 5, 2018
Filed:
Aug 25, 2017
Appl. No.:
15/687410
Inventors:
- Midlothian VA, US
Frank FORNARI - Naples FL, US
International Classification:
G01P 21/00
G01P 13/00
G01P 3/00
G01P 15/18
G06F 3/0484
Abstract:
This disclosure relates to systems, media, and methods for quantifying and monitoring exercise parameters and/or motion parameters, including performing data acquisition, analysis, and providing scientifically valid, clinically relevant, and/or actionable diagnostic feedback. Disclosed embodiments may receive real-time sensor data from a motion sensor or sensors mounted on a user and/or equipment while a user performs a test motion. Disclosed embodiments may also calculate a test motion profile based on the real-time sensor data, the test motion profile describing a multi-dimensional representation of the test motion performed by the user or computed motion profiles. Disclosed embodiments may include comparing the test motion profile to a template motion profile to determine a deviation amount for the test motion profile indicating how the test motion deviated from the template motion profile. Still further embodiments may correlate test motion profiles over time with health indicators.
Control profile
Frank A Fornari from Newport, RI Get Report