Data processing: measuring – calibrating – or testing – Measurement system – Orientation or position
Reexamination Certificate
1999-07-14
2002-12-17
Wachsman, Hal (Department: 2857)
Data processing: measuring, calibrating, or testing
Measurement system
Orientation or position
C702S176000, C702S178000, C702S142000, C368S010000
Reexamination Certificate
active
06496787
ABSTRACT:
FIELD OF THE INVENTION
The invention relates generally to the measurement of the loft time and speed of a vehicle relative to the ground. Such measurements are particularly useful in sporting activities like skiing and mountain biking where users desire information relating to their speed and/or loft, or “air” time.
BACKGROUND OF THE INVENTION
It is well known that many skiers enjoy high speeds and jumping motions while traveling down the slope. High speeds refer to the greater and greater velocities which skiers attempt in navigating the slope successfully (and sometimes unsuccessfully). The jumping motions, on the other hand, include movements which loft the skier into the air. Generally, the greater the skier's speed, the higher the skier's loft into the air.
The interest in high speed skiing is apparent simply by observing the velocity of skiers descending the mountain. The interest in the loft motion is less apparent; although it is known that certain enthusiastic skiers regularly exclaim “let's catch some air” and other assorted remarks when referring to the amount and altitude of the lofting motion.
The sensations of speed and jumping are also readily achieved in other sporting activities, such as in mountain biking. Many mountain bikers, like the aforementioned skiers, also crave greater speeds and “air” time.
However, persons in such sporting activities typically only have a qualitative sense as to speed and loft or “air” time. For example, a typical snowboarding person might regularly exclaim after a jump that she “caught” some “big sky,” “big air” or “phat air” without ever quantitatively knowing how much time really elapsed in the air.
It is, accordingly, an object of the invention to provide apparatus and methods for determining the “air” time of participants in sporting activities such as skiing and mountain biking.
It is another object of the invention to provide apparatus and methods for determining the speed of participants in sporting activities such as skiing and mountain biking.
It is yet another object of the invention to provide improvements to sporting devices which are ridden by sporting participants, and which provide a determination of speed and/or loft time of the device.
These and other objects of the invention will become apparent in the description which follows.
SUMMARY OF THE INVENTION
The invention concerns the detection and display of loft, or “air” time and/or speed of vehicles such as sporting vehicles, including non-motorized vehicles like skis, bikes, and snowboards. The invention thus provides a visual and quantitative measure of how much “air” time and, in certain aspects, how fast a user moves in a particular activity.
The invention provides, in one aspect, apparatus for determining the loft time of a moving vehicle off of a surface. A loft sensor senses a first condition that is indicative of the vehicle leaving the surface, and further senses a second condition indicative of the vehicle returning to the surface. A microprocessor subsystem, e.g., a microcontroller, determines a loft time that is based upon the first and second conditions, and the loft time is thereafter displayed to a user of the apparatus by a display, e.g., a LCD or LED display. Preferably, a power module such as a battery is included in the apparatus to power the several components. In addition, a housing preferably connects and protects the microprocessor subsystem and the user interface; and further such that the housing is attachable to the vehicle.
According to another aspect, the invention includes memory for storing information representative of at least one of the following: (i) the first and second conditions, (ii) the loft time, (iii) a speed of the vehicle, (iv) successive records of loft time, (v) an average loft time, (vi) a total loft time, (vii) a dead time, (viii) a real activity time, and (ix) a numerical ranking of successive records.
One preferred aspect of the invention includes a speed sensor, connected to the microprocessor subsystem, which senses a third condition that is indicative of a velocity of the vehicle. In this aspect, the microprocessor subsystem includes means for converting the third condition to information representative of a speed of the vehicle. Accordingly, the apparatus provides a user with both loft time, e.g., “air” time, and a speed of the vehicle.
In yet another aspect, the display of the invention can display selective information, including one or more of the following: the loft time; a speed of the vehicle; a peak loft time; an average loft time; a total loft time; a dead time; a real activity time; an average speed; an indication that loft time is being displayed; an indication that speed is being displayed; an indication that dead time is being displayed; an indication that real activity time is being displayed; successive records of loft information; successive records of speed information; a distance traveled by the vehicle; a height achieved by the vehicle off of the surface; and an indication of a number of a successive record relative to all successive records.
In still another aspect, the invention includes a user interface for providing external inputs to the apparatus, including one or more of the following: a start/stop button for selectively starting and stopping the acquisition of data by the apparatus; a display-operate button for activating the display means selectively; a speed/loft toggle button for alternatively commanding a display of loft time information and speed information of the vehicle; means for commanding a display of successive records of loft time information selectively; means for commanding a display of successive records of speed information selectively; means for commanding a display of information corresponding to average loft time; means for commanding a display of information corresponding to average speed; means for commanding a display of total loft time; means for commanding a display of dead time; means for commanding a display of distance traveled by the vehicle; means for commanding a display of height achieved by the vehicle off of the surface; and means for commanding a display of real activity time.
Preferably, the microprocessor subsystem of the invention includes a clock element, e.g., a 24-hour clock, for providing information convertible to an elapsed time. Accordingly, the subsystem can perform various calculations, e.g., dead time, on the data acquired by the apparatus for display to a user.
In another aspect, the loft sensor is constructed with one of the following technologies: (i) an accelerometer that senses a vibrational spectrum; (ii) a microphone assembly that senses a noise spectrum; (iii) a switch that is responsive to a weight of a user of the vehicle; (iv) a voltage-resistance sensor that generates a voltage indicative of a speed of the vehicle; and (v) a plurality of accelerometers connected for evaluating a speed of the vehicle.
In a preferred aspect, the loft sensor of the invention senses a spectrum of information, e.g., a vibrational or sound spectrum, and the microprocessor subsystem determines the first and second conditions relative to a change in the spectrum of information. Further, the microprocessor subassembly interprets the change in the spectrum to determine the loft time.
For example, one aspect of a loft sensor according to the invention includes one or more accelerometers that generate a vibrational spectrum of the vehicle. In such an aspect, the first and second conditions correspond to a change in the vibrational spectrum. By way of another example, one loft sensor of the invention includes a microphone subassembly that generates a noise spectrum of the vehicle; and, in this aspect, the first and second conditions correspond to a change in the detected noise spectrum. Because these spectrums are influenced by the particular activity of a user, e.g., standing in a ski line, a microprocessor subsystem of the invention preferably includes means for assessing boundary conditions of the spectrum and for excluding certain condit
Darcy Dennis M.
Flentov Peter
Vock Curtis A.
Lathrop & Gage L.C.
PhatRat Technologies, Inc.
Vock, Esq. Curtis A.
Wachsman Hal
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