`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 1 of 20 Page ID #:1828
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`EXHIBIT 1
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`
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 2 of 20 Page ID #:1829
`Case 2:19-cv-06301-AB-KS Document 77-2 immimmmmmnMflMMIMililSZQ
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`U5006013007A
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`United States Patent
`
`[19]
`
`[11] Patent Number:
`
`6,013,007
`
`Root et at.
`
`[45] Date of Patent:
`
`Jan. 11, 2000
`
`[54] A'I‘HLE'I‘E’S CPS-BASED PERFORMANCE
`MONITOR
`
`Attorney, Agent) or Firm—Sughrue, Mion, Zinn, Macpeak
`& Seas, PLLC
`
`[75]
`
`Inventors: Gary Miller Root, San Francisco;
`5221:?" van Hoorn, Ml“ Valley, both Of
`'
`'
`[73] Assignee: Liquid Spark, LLC San Francisco
`Calif.
`’
`
`’
`
`[21] Appl. NO”: 09/048314
`[32
`Filed:
`Mar. 26, 1993
`
`7
`
`Int. Cl.
`[51]
`[52] U-S- 0-
`
`[58]
`
`[56]
`
`..................................................... G01B 21/00
`
`482/8; 482/900; 482/903;
`701/213
`48211—9, 900—902;
`701/213—216; 342/357
`
`Field of Search
`
`References Cited
`US PATENT DOCUMENTS
`'
`'
`'
`9/1992 Kuo etal.
`............................... 219/211
`5,148,002
`1/1997 Krammer ......
`702/153
`5,592,401
`
`511998 Wang e! “L
`331/3?“
`5.752.929
`
`3,823,327 10/1998 Krasner
`342/337
`
`[57]
`ABSTRACT
`A Global Positioning System (GPS) based personal athletic
`performance monitor for providing an athlete with real-time
`athletic performance feedback data such as elapsed exercise
`time, distance covered, average pace, elevation dilferenee,
`distance to go andx'or advice for reaching pre-set targets. The
`monitor is integrated with an AMIFM/l"V personal radio,
`and the athletic performance feedback is provided through a
`set of audio headphones using an audio module. The monitor
`can be connected to an external personal computer via a
`serial or infrared port for further data Storage and long term
`trend analysis, or to a remote computer via modem, where
`historical erforiliance data is collected and lo ‘icall com-
`P
`s
`Y
`piled from participating athletes worldwide. Results are then
`transferred to an Internet web site which displays compari-
`son data representing the relative performances of two or
`more athletes, provides customized individual
`training
`advice and virtual competitions, and an opportunity for
`advertisers to reach highly well defined potential customers.
`Geographically and demographically targeted advertising
`messages are also downloaded to the performance monitor
`while connected to the remote computer.
`
`Primary Examiner—Glenn E. Richman
`
`38 Claims, 11 Drawing Sheets
`
`
`
`
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 3 of 20 Page ID #:1830
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 3 of 20 Page ID #:1830
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`US. Patent
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`Jan. 11,2000
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`Sheet 1 0f 11
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`6,013,007
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`to audio headphones
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`123
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` GPS receiver anfenna
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`120
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`111
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`102
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`112
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 4 of 20 Page ID #:1831
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 4 of 20 Page ID #:1831
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`US. Patent
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`Jan. 11,2000
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`Sheet 2 0f 11
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`6,013,007
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 5 of 20 Page ID #:1832
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 5 of 20 Page ID #:1832
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`US. Patent
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`Jan. 11,2000
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`Sheet 3 0f 11
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`6,013,007
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`(\Vc
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 6 of 20 Page ID #:1833
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 6 of 20 Page ID #:1833
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`U.S. Patent
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`Jan. 11, 2000
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`Sheet 4 0f 11
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`6,013,007
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`120
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`202
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 7 of 20 Page ID #:1834
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 7 of 20 Page ID #:1834
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`US. Patent
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`Jan. 11,2000
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`Sheet 5 0f 11
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`6,013,007
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`611.
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 8 of 20 Page ID #:1835
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 8 of 20 Page ID #:1835
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`US. Patent
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`Jan. 11,2000
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`Sheet 6 of 11
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`6,013,007
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`705
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`116
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`‘0‘
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`Fig. 7
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 9 of 20 Page ID #:1836
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 9 of 20 Page ID #:1836
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`US. Patent
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`Jan. 11, 2000
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`Sheet 7 0f 11
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`6,013,007
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`113
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`Fig. 8
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 10 of 20 Page ID #:1837
`Case 2:19-cv-06301—AB-KS Document 77
`2 Filed 06/26/20 Page 10 of 20 Page ID #:1837
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`US. Patent
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`Jan. 11, 2000
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`Sheet 8 0f 11
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 11 of 20 Page ID #:1838
`Case 2:19-cv-06301—AB-KS Document 77
`2 Filed 06/26/20 Page 11 of 20 Page ID #:1838
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`US. Patent
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`Jan. 11, 2000
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`Sheet 9 0f 11
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`6,013,007
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`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 12 of 20 Page ID #:1839
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 12 of 20 Page ID #:1839
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`US. Patent
`
`Jan. 11, 2000
`
`Sheet 10 0f 11
`
`6,013,007
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`PREFERRED EMBODIMENT PERFORMANCE FEEDBACK INFORMATION CYCLES
`
`Fade Down Music
`
`? Minutes to go (it time target selected)
`
`Elapsed Distance: ? Miles;
`? Miles to go (It distance target selected)
`
`Elapsed Time: ? Hours and ? Minutes;
`
`Elevation Change: '? Feet since last cycle, ? Feet since session start
`(Full lnlorm ation Cycles Only)
`
`Current Speed: 7 Miles per Hour
`
`Average Speed: 7 Miles per Hour
`
`Average Pace: 7 Minutes per Mile
`
`Current Pace: ? Minutes per Mile
`
`? Calories Burned
`(Full lntorm ation Cycles 0 nly)
`
`Heart Rate: ? Beats per Minute
`(Only Applies if Optional Heart Rate Sensor ls Attached)
`
`Recommendation to Reach Goal:
`To Reach Target. tncreasetDecrease) Speed to ? Miles per Hour
`(Full lnlormation Cycles Only)
`
`w arning Messages (it any)
`
`Athletic Perlorm ance Rating:
`? oi 100
`(Full lnlorm ation Cycles Only)
`
`Fade Up Music
`
`Fig. 11
`
`
`
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 13 of 20 Page ID #:1840
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 13 of 20 Page ID #:1840
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`US. Patent
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`Jan. 11,2000
`
`Sheet 11 0f 11
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`6,013,007
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`PREFERRED EMBODIMENT DATA STORED FOR PC AND INTERNET USAGE
`
`Exercise Geographic Start Location
`
`(Latitude/Longitude)
`
`Exercise Geographic End Location
`(Latitude/Longitude)
`
`Exercise Session Date and Start Time
`(Referenced to GMT)
`
`Exercise Type
`(Running. Cycling. Hiking. etc.)
`
`Total Exercise Time
`(Total Elapsed Time Minus Pauses)
`
`Total Elapsed Distance
`
`
`Maximum Speed
`
`Total Calories Burned
`
`Highest Relative Elevation
`
`Total Cum ulative Elevation
`
`Key Course W aypoints
`(Latitudes and Longitudes)
`
`Average Heart Rate
`(It Optional Heart Rate Sensor Available)
`
`Maximum Heart Rate
`(It Optional Heart Rate Sensor Available)
`
`Athletic Pertormance Rating
`Scale OH to 100
`Based on User Profile and Perlormance
`
`Fig. 12
`
`
`
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 14 of 20 Page ID #:1841
`Case 2:19-cv-06301—AB-KS Document 77-2 Filed 06/26/20 Page 14 of 20 Page ID #:1841
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`6,013,007
`
`1
`ATHLETE’S GPS-BASED PERFORMANCE
`MONITOR
`
`BACKGROUND OF THE INVENTION
`
`1. Field of the Invention
`
`This invention relates to the application of Global Posi-
`tioning System (GPS) technology for the personal perfor-
`mance monitoring of outdoor athletes, such as runners,
`bicyclists, hikers, walkers, skaters, skiers, and so forth, and
`providing the athlete with real-time performance feedback
`and optional long-term trend analysis.
`
`2. Background Art
`
`Running, bicycling. and other outdoor sports are becom-
`ing increasingly popular as more information about
`their
`health benefits becomes available. In order to improve over
`time, it is important to be able to accurately measure one’s
`performance and progress. Using runners by way of
`example, this can presently only be done indoors on tread-
`mills. Treadmills provide the runner with continuous read-
`outs of time, distance, speed, pace,
`inclination, calories
`burned, and so forth. Outdoors,
`the runner is limited to
`wristwatches with built-in stop watches, heart rate monitors,
`or pcdomcters.
`
`The development of the Global Positioning System (GPS)
`by the United States Department of Defense has greatly
`enhanced one ’s ability to navigate. Currently, a constellation
`of high altitude GPS satellites are in orbit and available to
`provide continuous worldwide position fixes in all types of
`weather conditions. With the use of GPS receivers, the radio
`wave signals can be received and used to calculate the
`current latitude and longitude position coordinates at
`the
`receiving location. This system is currently achieving rec-
`ognition as the superior position locator system for provid-
`ing accurate worldwide fixes. GPS technology is becoming
`widely available. New applications, such as dashboard
`mounted GPS in automobiles are being introduced. Hand
`held GPS devices are presently on the market for boating,
`fishing. and hunting. These devices are generally limited to
`navigation uses only. A visual display is used to show
`current geographic location, destinations, and navigation
`instructions for travelling to a selected location. These units
`are not, however, designed for use by an outdoor athlete.
`They do not
`include real-time athletic performance
`algorithms, audible presentation of information. a means for
`storing historical exercise session data, or a means for
`entertaining the athlete. The housings are bulky and typi-
`cally incorporate built-in GPS antennas, preventing one’s
`ability to conveniently carry the devices while exercising
`without blocking some or all of the satellite signals. The
`exclusively visual means of conveying information
`employed by current devices requires frequent visual
`interaction, compromising the safety and concentration of
`the user, making them incompatible with exercise activities.
`
`Thus, there exists a need for a portable GPS unit that is
`small and light enough to be carried or wom by an outdoor
`athlete which incorporates real-time athletic performance
`algorithms for continuously monitoring the athlete’s
`progress and reporting his/her progress periodically during
`the exercise session. Real-time audio reports would assist
`and motivate the athlete to improve his/her performance
`without any visual distractions. An integrated radio can
`provide the athlete with entertainment.
`
`JD
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`2
`SUMMARY OF THE INVENTION
`
`Objects of the present invention are:
`(1) To provide a device which is portable, rugged, weather
`resistant, and self-contained;
`(2) To provide a device which continuously and accu-
`rately determines the position of an outdoor athlete any-
`where in the world;
`(3) To provide a device which continuously and consis-
`tently provides accurate, real-time performance feedback
`such as elapsed time, elapsed distance, current and average
`speeds and paces, current climbing rate, and so forth,
`independent of its outdoor location in the world;
`(4) To provide a device which can make real-time rec-
`ommendations to the athlete on how his/"her pre-set perfor-
`mance targets can be achieved;
`(5) To provide a device which can optionally continuously
`monitor the athlete ’s vital signs such as heart rate and body
`temperature and can issue warnings based on these mea-
`surements as compared to built in limits;
`(6) To provide a device which communicates with the
`athlete through audio signals, thus reducing Visual distrac-
`tions and allowing for safely obtaining performance feed-
`back along poorly illuminated tracks and trails, improving
`the safety of the athlete;
`(7) To provide a device which usefully combines the
`audio presentation of real-time performance information
`with music for entertaining the athlete during his/her exer-
`cise session;
`(8) To provide a device which can store performance data
`and communicate this data with a personal computer for
`further storage and long term analysis;
`(9) To provide a device which can guide the athlete along
`a predetemiined, unmarked course based on a set of down-
`loaded geographic waypoints;
`(10) To provide a device which includes an internal
`modem for transmitting exercise results to an Internet web-
`site where such data is also collected from other participat-
`ing athletes;
`(11) To provide a system by which advertisers can present
`geographically and demographically targeted messages to a
`highly well defined group of potential customers;
`(12) To provide a device which stimulates and motivates
`the athlete during an exercise session, resulting in a docu-
`mented improvement of athletic performance and health
`over time;
`(13) To provide a device which eliminates user assump-
`tions or estimates required by presently available rudimen-
`tary devices, such as pedometers; and
`(14) To provide a device which provides performance
`data, which is accurate, thorough, and consistent enough to
`be useful for scientific and medical research on the long term
`effects of exercise on health.
`
`The above objects and others are accomplished by pro-
`viding a portable feedback system providing regular updates
`on an athlete’s performance, comprising:
`a global positioning system GPS receiver for obtaining a
`series of time-stamped waypoints;
`means for computing athletic performance feedback data
`from the series of time-stamped waypoints obtained by
`said GPS receiver; and
`means for presenting the athletic performance feedback
`data to an athlete.
`
`Also provided is a system for comparing an athlete’s
`performance with the performance of other athletes, said
`system comprising:
`
`
`
`Case 2:19-cv-06301-AB-KS Document 77-2 Filed 06/26/20 Page 15 of 20 Page ID #:1842
`Case 2:19-cv-06301—AB-KS Document 77-2 Filed 06/26/20 Page 15 of 20 Page ID #:1842
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`6,013,007
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`3
`a global positioning system GPS receiver for obtaining a
`series of time-stamped waypoints;
`means for computing athletic performance feedback data
`from the series of time-stamped waypoints obtained by
`said GPS receiver;
`means for presenting the athletic performance feedback
`data to an athlete; and
`a modem for transmitting the athletic performance feed-
`back data to a remote computer for comparison with
`athletic performance feedback data of other athletes.
`The monitor can also be used as a health monitoring and
`analysis tool.
`BRIEF DESCRIPTION OF THE DRAWING
`FIGURES
`
`The invention is best understood with reference to the
`attached drawings, in which:
`FIGS. 1A and 1B are front and side views, respectively,
`of a GPS-based personal performance monitor and feedback
`device according to an embodiment of the invention;
`FIG. 1C shows a GPS receiver antenna plug and an audio
`headphone plug for connection to the GPS-based personal
`performance monitor and feedback device.
`FIG. 2 shows a runner wearing the GPS-based personal
`performance monitor and feedback device on her waist
`band, together with a set ofaudio headphones and a baseball
`cap outfitted with an internal GPS receiver antenna;
`FIG. 3 shows a runner wearing the GPS-based personal
`performance monitor and feedback device on her upper arm,
`together with a set of audio headphones having a GPS
`receiver antenna mounted on top;
`FIG. 4 is a side view of the baseball cap outfitted with the
`internal GPS receiver antenna;
`FIG. 5 is a front view of the set of audio headphones
`having the GPS receiver antenna mounted on top;
`FIG. 6 is a schematic of the electronic components of the
`OPS-based personal performance and feedback device of the
`embodiment;
`FIG. 7 is a perspective view of a personal computer
`connected to the OPS-based personal performance monitor
`and feedback device, displaying a software program for
`performing long-term historical exercise session data
`storage, athletic performance trend analysis, and remote
`configuration of the device;
`FIG. 8 is a perspective view of the CPS-based personal
`performance monitor and feedback device connected to a
`remote computer via an internal modem and a standard
`telephone line for transferring data;
`FIG. 9 is a perspective view of a personal computer
`connected to the Internet, displaying an Internet web page
`for comparing an athlete’s performance to that of other
`participating athletes;
`FIG. 10 is a diagram of the menu items used to configure
`the CPS-based personal performance monitor and feedback
`device;
`FIG. 11 is a flow chart of the limited and full performance
`feedback information cycles of the OPS-based personal
`performance monitor and feedback device; and
`FIG. 12 is a diagram depicting the data stored for personal
`computer and Internet usage.
`DETAILED DESCRIPTION OF THE
`PREFERRED EMBODIMENTS
`Preferred embodiments of the invention are described
`below with reference to the accompanying drawings.
`
`If)
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`Apreferred embodiment of the present invention is shown
`in FIG. 1A (front View) and FIG. 1B (side view), and FIG.
`1C (antenna and audio headphone plugs).
`The GPS-based personal performance monitor and feed-
`back device 101 includes input buttons 115 to set
`the
`athlete’s personal data and preferences, as well as for
`inputting the feedback options and targets. Device options,
`(“’8 initialization status, (il’S signal strength, button lock
`status, pause condition status, menu items, radio band and
`frequency selection, battery life indicators, performance
`feedback data, course navigational direction indicators, and
`latest geographic position are optionally shown on the
`display 112. A GPS receiver antenna 301 (described below)
`is plugged into connector 109 using a plug 122, and a set of
`audio headphones 202 (described below) is plugged into
`connector 108 using a plug 120 (see FIG. 1C). Button 102
`turns the personal performance monitor and feedback device
`101 on and commences the initialization process, which
`consists of acquiring the minimum number of required
`satellite signals needed to determine the device's initial
`geographic position. An LED status indicator 111 provides
`an intuitive visual indicator of device initialization. The
`
`LED lll glows red while the OPS-based personal perfor-
`mance monitor and feedback device is initializing. The LED
`111 glows green once the device has automatically initial-
`ized and is ready to begin monitoring an exercise session.
`A lock/light button 110 disengages certain input buttons,
`locking the programmed settings, thus preventing accidental
`changes of these settings. A pause/position button 104
`temporarily pauses collection of performance data or, if held
`for a longer period of time (such as 2 seconds) temporarily
`replaces the radio band and frequency indicator on display
`112 with the latitude and longitude of last updated geo-
`graphical position. The “Now!” button 105 initiates
`immediate, updated feedback cycle of the latest measures of
`athletic performance.
`In addition to audio performance
`feedback, measures of athletic performance are simulta-
`neously scrolled on the display 112 during each feedback
`cycle.
`With band selection button 107, a selection between AM,
`FM, and TV radio bands can be made. While the preferred
`embodiment of the CPS-based personal performance moni-
`tor and feedback device includes an AMiFM/TV radio, it
`should be appreciated that other audio entertainment sys-
`tems or combinations of audio systems may be combined
`with the device, such as an audio cassette tape or audio
`compact disk player.
`The volume thumb wheel 106 controls the volume of the
`output
`to the set of audio headphones 202. Atmospheric
`pressure is measured by a barometric pressure sensor 610
`(see FIG. 6) such as those found in current altitude sensing
`devices for hiking, bicycling, mountaineering, and skydiv-
`ing. A serial-type connector 118 or an infrared-type port 124
`allows for connecting the CPS-based personal performance
`monitor and feedback device 101 to a personal computer
`701 (see FIG. 7) for uploading of historical performance
`statistics and downloading of geographic waypoints and user
`device preferences.
`Alternatively, an KL] 1 -type telephone port 113 allows for
`connecting the personal performance monitor and feedback
`device 101 via a telephone line to a remote computer 801
`(see FIG. 8) for uploading of performance statistics and
`downloading of advertising messages. A button 114 auto-
`matically connects a modem 613 (see FIG. 6) to the remote
`computer 801 for data exchange. A connector 116 allows for
`connection of an external power source.
`
`
`
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`The unit 101 can be hooked to an athlete’s belt or
`waistband 203 with a clip 119 (FIG. 1B) as shown in FIG.
`2, strapped around the upper arm with a strap 302 as shown
`in FIG. 3, or simply held by the athlete.
`A set of audio headphones 202 (FIG. 2) is worn as usual,
`along with a baseball cap 201 (FIG. 4). The baseball cap 201
`is outfitted with an internal GPS receiver antenna 301.
`
`Alternatively, depending on the athlete’s preference, a set
`of headphones 202 (FIGS. 3 and 5) with the external GPS
`receiver antenna 301 mounted on top can be worn.
`As shown in FIG. 4, an antenna holder (such as a padded
`pocket) 402 can be sewn into the top of the baseball cap 201.
`Aquick closure 403, such as a VELCRO fastener, locks the
`GPS receiver antenna 301 in place. The antenna wire 123
`(electrical lead to the GPS receiver antenna 301 see FIG. 1C)
`is guided to the back of the cap and anchored near the bottom
`edge, such as by using a VELCRO fastener 404.
`A clip 401 is used to hook the wire 123 to the athlete’s
`shirt collar, thus redirecting the weight of the wire 123 from
`the baseball cap 201 to the athlete’s shirt.
`As shown in FIG. 5, the GPS receiver antenna 301 can be
`fixed on top of the headband of the set of audio headphones
`202. The GPS antenna wire 123 (electrical lead to the GPS
`receiver antenna 301) is bundled with the headphone wire
`121 (electrical lead to the AM/FM/TV radio see FIG. 1C,
`such as by using a VELCRO fastener 501. Aclip 401 is used
`to hook the wires 123 and 121 to the athlete’s shirt collar,
`thus redirecting the weight of the wires 123 and 121 from the
`audio headphones 202 to the athlete’s shirt.
`The athlete’s head generally provides a stable, unob-
`structed platform for the GPS receiver antenna 301, with
`clear 360 degree exposure to the satellites 204 overhead.
`Other locations on the user may also provide a suitably
`stable, unobstructed platform for the GPS receiver antenna
`301.
`
`FIG. 6 is an electrical schematic of the internal circuitry
`of an embodiment of the GPS based performance monitor
`101 of the present invention. Inside the housing 601 (shown
`schematically by a broken line) is a central processor unit
`602 (CPU). This CPU controls the operation of the device.
`Connected to the CPU 602 is a GPS receiver module 604
`such as those manufactured by SiRF Technology. Trimble
`Navigation Limited, and others, an AM/FM/TV radio mod-
`ule 607, an audio module 606, memory 608, input controls
`603, a barometric pressure sensor 610, a display 605, a heart
`rate sensor 611 (optional), 21 body temperature sensor 612
`(optional), a modem 613, a serial-type port 118, an infrared-
`type port 124, and an external personal computer 701
`(optional). The GPS module 604 is connected to a GPS
`receiver antenna 301. The audio module 606, which can be
`an amplifier connected to a voicet'speech synthesizer, a
`micro controller generating audio output using a series of
`stored compressed digital audio files, or some combination
`of these, is connected to the audio headphones 202 via the
`CPU 602. The AM/FM/TV radio module 607 is connected
`to a radio antenna 614 (usually built into the antenna wire
`lead 121 or the audio headphones 202), and also to the audio
`headphones 202 via the CPU 602. The device is energized
`by either an internal power source 609 (such as disposable
`or rechargeable battery or batteries, e.g., one or more AAor
`AAA batteries) during exercise sessions or an external
`power source (such as an AC.:DC transformer 704, con-
`nected to the device via an electrical
`lead plugged into
`connector 116) during uploading and downloading activi-
`[165.
`
`FIG. 7 is a perspective view of a personal computer 701
`connected to the GPS-based personal performance monitor
`
`10
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`15
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`40
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`45
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`LIIU:
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`60
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`and feedback device 101 via a serial-type port 118. They
`may also be connected via the infrared-type port 124. By
`way of example,
`the computer’s monitor screen 705 is
`shown displaying a customized software program used for
`athletic performance trend analysis. In addition, this soft-
`ware may be used to facilitate long-term storage of the
`athlete’s personal historical exercise session data and remote
`configuration of the device. The GPS-based personal per-
`formance monitor and feedback device is either powered by
`its own internal power source 609 or by an external A(‘/’I)(‘
`transformer 704 plugged into connector 116, as shown.
`FIG. 8 is a perspective view of the GPS-based personal
`performance monitor and feedback device 101 connected to
`a remote computer 801 and modem bank 802 via its internal
`modem 613 and a standard telephone line plugged into
`connector 113. A number of historical exercise session
`performance data sets (as described below and shown in
`FIG. 12) can be uploaded to the remote computer 801. The
`remote computer 801 is connected to the Internet 803. The
`uploaded data sets are collected, stored, and compiled for
`presentation on an Internet web site, which compares per-
`formances of participating athletes in a variety of ways.
`Geographically and demographically targeted advertising
`messages are downloaded to the device 101 from the remote
`computer 801. The GPS-based personal performance moni-
`tor and feedback device 101 is either powered by its own
`internal power source 609 or by an external AC;'DC trans-
`former 704 plugged into connector 116, as shown.
`FIG. 9 is a perspective View of a personal computer 701
`connected to the Internet 803. By way of example,
`the
`computer 701 is connected via a modem 902 and a standard
`telephone line. Alternative means of connecting the P(‘ 701
`to the Internet 803, such as cable modems, ISDN lines, Tl
`lines, and so forth, may be used. By way of example, the
`P("s monitor screen 901 is shown displaying an lntemel
`World Wide Web browser window displaying an Internet
`web page for comparing an athlete’s performance to other
`participating athletes from around the United States of
`America. The lower left-hand corner of this computer screen
`displays an advertising banner 903 specifically designed for
`and aimed at participating athletes.
`FIG. 10 shows device configuration menus of the pre-
`ferred embodiment. The main menus are designated as
`"exercise session type”, "pre-set course”, "performance
`targets", “information cycles", “user data", and “system
`set-up”. Some of the main menus have sub-menus, which
`are self-explanatory from the drawing figure. A user can
`customize hislher exercise session as desired.
`
`FIG. 11 is a llowchart showing feedback information
`cycles of the preferred embodiment. When the music from
`the AMt’FM/I'V radio is muted, the menu starts at the top in
`FIG. 11 and the device scrolls through the different infor-
`mation outputs until the last one (warning messages, if any),
`and then the music volume is gradually retttmed to the
`previous listening level. The operator has full control over
`the information outputs, and can add or remove different
`information outputs as desired.
`FIG. 12 shows the type of datafinformation that are stored
`for PC and Internet usage, which are self-explanatory from
`the drawing figure.
`The operation of the device is described below.
`Before exercising,
`the athlete turns on the GPS-based
`personal performance monitor and feedback device 101
`(FIGS. 1A and 1B) and sets his/her preferences using the
`menu control buttons 115 and display 112. Preference
`options include, by way of example, performance targets
`
`
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`7
`(e.g., total distance, exercise session time, and/or average
`speed or pace), frequency of feedback information cycles
`(e.g., continuous, time-related, distance-related, or none),
`type of feedback information (e.g., full or summarized), and
`personal data (e.g., gender, birth date, and body weight).
`Certain preference options may only need to be set once
`(such as gender and birth date) or occasionally (such as
`weight or other variable parameters), while other preference
`options may be adjusted each time the GPS-based personal
`performance monitor and feedback device is used.
`AItemativer, all device settings and user preferences may
`be set and/or adjusted using a personal computer and an
`optional software program.
`Manufacturer set options may include different display
`and voice languages, voice gender, and so forth.
`After plugging in the set of audio headphones 202 and the
`GPS receiver antenna 301, the athlete can set his/her favorite
`radio station(s) and volume and begins hisiher stretching and
`warm-up routine. Once the GPS receiver module 604 con-
`firms by means of the display 112 (FIG. 1A), the LED status
`indicator Ill. and an audible signal
`that a reliable, geo-
`graphical position fix is acquired, signaling that the device
`is properly initialized and ready to go, the athlete can press
`the start button 103 (FIG. 1A) and commence his/her
`exercise session. Upon initialization, the device also sets the
`current atmospheric pressure sensor reading as the reference
`point from which elevation changes are derived based on
`changes in atmospheric pressure during the exercise session.
`According to well known operations, the GPS receiver
`604 receives GPS radio wave signals 205 which are emitted
`from existing GPS satellites 204 and received via the GPS
`receiving antenna 301. Currently, a constellation of high
`altitude GPS satellites 204 are in orbit and available to
`provide continuous worldwide position fixes in all types of
`weather conditions. The GPS receiver 604 has a built-in
`
`processing unit and memory for processing the GPS radio
`wave signals 205 to determine the latitude and longitude
`coordinatcs of the GPS antcnna’s current position, as well as
`determine its current speed and direction of travel.
`During the exercise session, the GPS receiver module 604
`continuously determines the athlete’s geographical position
`and stores it in the memory 608 along with other information
`such as the date and time that each position was acquired.
`From these positions and times, performance data such as
`elapsed distance, current and average speeds and paces,
`calories burned, miles remaining, and time remaining are
`calculated. Based on this data, recommendations to increase
`or decrease level of effort
`to meet pre-set performance
`targets are then determined.
`A relative athletic performance rating can also be derived.
`A smart algorithm can be used to filter out the erroneous
`position points resulting from signal interference or from
`induced errors through the US. government’s Selective
`Availability (SA) program, which intentionally limits the
`absolute accuracy of civilian GPS receivers.
`At pre-set
`intervals, the information is provided to the
`athlete through the set of audio headphones 202 by means of
`the audio module 606, during which time the volume of the
`radio music is temporarily reduced. In addition, by pressing
`the “Now!" button 105 (FIG. 1B), the pre-set feedback cycle
`preference is temporarily overridden, the athlete is imme-
`diately provided with a current update of hisfher
`performance, and the pre-set feedback