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Critical power adaptive training with varying parameters

An adaptive and power output technology, which is applied in the direction of adjusting coordination training equipment, adjusting cardiovascular system training equipment, teaching aids, etc., can solve the problems of inaccurate estimation of time or intensity training indicators, etc.

Pending Publication Date: 2020-10-23
NAUTILUS INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, these still require a dedicated heart rate monitor connected to the person, are inaccurate, and do not properly estimate the limits of time or intensity training metrics

Method used

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  • Critical power adaptive training with varying parameters
  • Critical power adaptive training with varying parameters
  • Critical power adaptive training with varying parameters

Examples

Experimental program
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Embodiment Construction

[0038] Turning now to the attached drawings, figure 1 is a block diagram illustrating an overview of an apparatus upon which some implementations of the disclosed technology may operate. The apparatus may include the hardware components of apparatus 100, which may evaluate the critical power and use the evaluation to generate an adaptive training program. Apparatus 100 may include one or more input devices 120 that provide input to CPU (processor)(s) 110 to notify it of events. These events may be managed by a hardware controller that interprets signals received from input devices and communicates the information to CPU 110 using a communication protocol. Input devices 120 include, for example, instruments on exercise equipment that measure values ​​indicative of power output (e.g., revolutions, speed, incline, resistance, etc.), accelerometers, pedometers, touch screens, infrared sensors, wearable device inputs devices, camera or image-based input devices, microphones, mic...

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Abstract

An adaptive training system can determine a finite work capacity and critical power and use those determinations to generate an adaptive training programs for workout parameters. To determining a finite work capacity and critical power, the adaptive training system can receive workout data; generate data points by determining, for each workout, a maximum amount of work done for each of multiple time window sizes; fit these workout data points to a function; and determine a critical power and finite work capacity based on the fitted function. Once the adaptive training system has determined a critical power and finite work capacity, the adaptive training system can use them to generate an adaptive training program by keeping a function defined by a set of workout parameters below an abilityfunction that is based on the critical power and finite work capacity.

Description

Background technique [0001] Millions of people want to train and look better. Quite difficult for many due to insufficient time or effort. Many systems have been developed to help people start training or maximize their training efforts. For example, people read fitness magazines, participate in exercise routines, take classes, hire personal trainers, etc. Although some of these programs are tailored to the individual, they often fail to maximize human potential or cause frustration due to overwork. One reason for this is that many of these programs are not based on measurements of a person's potential to exercise. Even for programs that have been customized for individuals using some of the previous methods, these methods have been difficult to implement and have inaccurate results. Additionally, training programs based on these measurements fail to provide the correct intensity level and duration. [0002] For example, VO2 is a measurement system that determines the max...

Claims

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Application Information

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IPC IPC(8): G16H40/63G16H40/67G16H20/30
CPCG16H40/63G16H40/67G16H20/30A63B2225/50A63B2230/01A63B2225/105A63B2220/18A63B2220/17A63B2071/0625A63B2220/836A63B2220/30A63B2220/833A63B71/0622A63B24/0075A63B2071/065A63B2024/0068A63B2230/75A63B2071/0675A63B2225/20A63B2071/0655A63B2220/807A63B2220/808A63B2220/806A63B24/0006A63B2220/20A63B2220/40A63B24/0087A63B2024/0093A63B24/0062A63B2220/80A63B2024/0012A63B71/0619G16H50/30G09B19/0038A63B22/0235A63B22/0605A63B22/0023
Inventor 约书亚·S·史密斯
Owner NAUTILUS INC
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