Fitness testing scale
First Claim
1. A weighing scale comprising:
- a platform region configured and arranged to support a user while the user stands on the platform region; and
a base unit configured and arranged to integratea support structure including the platform region and sensor circuitry therein, the platform region configured and arranged to engage the user with the sensor circuitry while the user stands on the platform region, and to collect physiological data from the user via the sensor circuitry,a display configured and arranged with the support structure for displaying data through the platform region,user-targeted circuitry located in the base unit and configured and arranged to operate in a fitness testing mode by instructing a userto engage the sensor circuitry via the platform region, during a reduced-exertion state of the user, the sensor circuitry being responsive to the engaging by collecting physiological data from the user, the physiological data being indicative of baseline values,to change the user'"'"'s heart rate by increasing or decreasing physical exertion, andto engage the sensor circuitry via the platform region, after instructing the user to change the user'"'"'s heart rate, the sensor circuitry being responsive to the engaging by collecting physiological data from the user indicative of a physical exertion state of the user relative to the baseline values,receive the physiological data from the sensor circuitry,determine physiological parameters of the user based on respective sets of the physiological data and a physical exertion state associated with each set; and
a communication driver configured and arranged to provide information, based on the determined physiological parameters, from the user-targeted circuitry to the display for viewing by the user through the platform region and to recognize whether the user is standing on the platform region and, in response thereto, present information via a large-area display mode when the user is not standing on the platform region and, via a reduced-area display mode in a reduced-area display region of the platform region which is adjacent to feet of the user, when the user is standing on the platform region, present information that corresponds to the physiological parameters of the user.
1 Assignment
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Accused Products
Abstract
Fitness testing scale systems and methods are implemented using a variety of approaches. According to one implementation, a fitness testing scale measures the physiological data of a user engaging sensor circuitry on a platform region of the scale. In a fitness testing mode, physiological data of the user is detected at respective states of physical exertion. The physiological data is then processed by user-targeted circuitry to determine physiological parameters of the user pertaining to the respective physical exertion states, such as may pertain to an increase in exertion or a reduction in exertion. These physiological parameters may, for example, be used to provide an indication of the physical health and fitness of the user. Such parameters may then be associated with the user and saved to a data-access circuit, and also forwarded to a display which communicates the physiological parameters among other information to the user through the platform region.
146 Citations
11 Claims
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1. A weighing scale comprising:
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a platform region configured and arranged to support a user while the user stands on the platform region; and a base unit configured and arranged to integrate a support structure including the platform region and sensor circuitry therein, the platform region configured and arranged to engage the user with the sensor circuitry while the user stands on the platform region, and to collect physiological data from the user via the sensor circuitry, a display configured and arranged with the support structure for displaying data through the platform region, user-targeted circuitry located in the base unit and configured and arranged to operate in a fitness testing mode by instructing a user to engage the sensor circuitry via the platform region, during a reduced-exertion state of the user, the sensor circuitry being responsive to the engaging by collecting physiological data from the user, the physiological data being indicative of baseline values, to change the user'"'"'s heart rate by increasing or decreasing physical exertion, and to engage the sensor circuitry via the platform region, after instructing the user to change the user'"'"'s heart rate, the sensor circuitry being responsive to the engaging by collecting physiological data from the user indicative of a physical exertion state of the user relative to the baseline values, receive the physiological data from the sensor circuitry, determine physiological parameters of the user based on respective sets of the physiological data and a physical exertion state associated with each set; and a communication driver configured and arranged to provide information, based on the determined physiological parameters, from the user-targeted circuitry to the display for viewing by the user through the platform region and to recognize whether the user is standing on the platform region and, in response thereto, present information via a large-area display mode when the user is not standing on the platform region and, via a reduced-area display mode in a reduced-area display region of the platform region which is adjacent to feet of the user, when the user is standing on the platform region, present information that corresponds to the physiological parameters of the user. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A weighing scale comprising:
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a platform region configured and arranged to support a user while the user stands on the platform region; and a base unit configured and arranged to integrate a support structure including the platform region and sensor circuitry therein, the platform region configured and arranged to engage the user with the sensor circuitry while the user stands on the platform region, and to collect physiological data from the user via the sensor circuitry, a display configured and arranged with the support structure for displaying data through the platform region, user-targeted circuitry located in the base unit and configured and arranged to operate in a fitness testing mode by instructing a user to engage the sensor circuitry via the platform region, during a reduced-exertion state of the user, the sensor circuitry being responsive to the engaging by collecting physiological data from the user, the physiological data being indicative of baseline values, to change the user'"'"'s heart rate by increasing or decreasing physical exertion, and to engage the sensor circuitry via the platform region, after instructing the user to change the user'"'"'s heart rate, the sensor circuitry being responsive to the engaging by collecting physiological data from the user indicative of a physical exertion state of the user relative to the baseline values, receive the physiological data from the sensor circuitry, determine physiological parameters of the user based on respective sets of the physiological data and a physical exertion state associated with each set; a communication driver configured and arranged to provide information, based on the determined physiological parameters, from the user-targeted circuitry to the display for viewing by the user through the platform region; a camera configured and arranged to capture image data indicative of an area around the base unit and presence of the user; image processing circuitry configured and arranged to receive the captured image data from the camera and determine color and pattern themes associated with the image data of the area around the base unit, and the presence of the user; and the display is further configured and arranged in an active mode, determined by presence of the user by the image processing circuitry, to present information that corresponds to the physiological parameters of the user, in an idle mode, determined by non-presence of the user by the image processing circuitry, to present an image indicative of the area around the base unit, based on the image data processed by the image processing circuitry.
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11. A weighing scale comprising:
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a platform region configured and arranged to support a user while the user stands on the platform region; and a base unit configured and arranged to integrate a support structure including the platform region and sensor circuitry therein, the platform region configured and arranged to engage the user with the sensor circuitry while the user stands on the platform region, and to collect physiological data from the user via the sensor circuitry, a display configured and arranged with the support structure for displaying data through the platform region, user-targeted circuitry located in the base unit and configured and arranged to operate in a fitness testing mode by instructing a user to engage the sensor circuitry via the platform region, during a reduced-exertion state of the user, the sensor circuitry being responsive to the engaging by collecting physiological data from the user, the physiological data being indicative of baseline values, to change the user'"'"'s heart rate by increasing or decreasing physical exertion, and to engage the sensor circuitry via the platform region, after instructing the user to change the user'"'"'s heart rate, the sensor circuitry being responsive to the engaging by collecting physiological data from the user indicative of a physical exertion state of the user relative to the baseline values, receive the physiological data from the sensor circuitry, determine physiological parameters of the user based on respective sets of the physiological data and a physical exertion state associated with each set; and a communication driver configured and arranged to provide information, based on the determined physiological parameters, from the user-targeted circuitry to the display for viewing by the user through the platform region and to recognize whether the user is standing on the platform region and, in response thereto, present information via a large-area display mode when the user is not standing on the platform region and, via a reduced-area display mode in a reduced-area display region of the platform region which is adjacent to feet of the user, when the user is standing on the platform region, present information that corresponds to the physiological parameters of the user, wherein the user-targeted circuitry is further configured and arranged to receive externally acquired physiological data from at least one external personal electronic device including a computer, and to use the externally acquired data, in conjunction with the physiological data acquired from the sensor circuitry for assessing a physiological condition of the user.
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Specification