`Patel
`
`US006324463B1
`US 6,324,463 B1
`Nov. 27, 2001
`
`(10) Patent N0.:
`(45) Date of Patent:
`
`(54) CRUISE CONTROL INDICATOR
`
`(76) Inventor: C. Kumar N. Patel, 1171 Roberts La.,
`Los Angeles, CA (US) 90077
`
`*
`
`Notice:
`
`Sub'ect to an disclaimer, the term of this
`J
`y
`patent is extended or adjusted under 35
`U.S.C. 154(b) by 0 days.
`
`(21)
`(22)
`
`(60)
`
`(51)
`(52)
`
`(58)
`
`(56)
`
`Appl. No.: 09/310,527
`Filed:
`May 12, 1999
`
`Related US. Application Data
`Provisional application No. 60/085,183, ?led on May 12,
`1998.
`
`Int. Cl.7 ............................. .. G06F 7/00; B60K 31/00
`US. Cl. ............................ .. 701/93; 701/70; 180/170;
`362/459; 362/489
`Field of Search ................................ .. 701/93, 96, 70,
`701/301; 340/438, 441, 815.4; 180/170;
`345/30; 362/23, 482, 489, 459
`
`References Cited
`
`U.S. PATENT DOCUMENTS
`
`4,132,284 * 1/1979 Tomecek ............................ .. 180/179
`5,376,917 * 12/1994 Yoshimoto et al. ..
`..
`5,949,346 * 9/1999 Suzuki et al. ................. .. 340/81545
`
`OTHER PUBLICATIONS
`
`World Wide Web document: Andre, Anthony and Asaf
`Degani, “Do You Know What Mode You’re In? An Analysis
`of Mode Error In Everyday Things,” Interface Analysis
`
`Associates, San Jose, CA, San Jose State University, CA,
`posted at least as early as Jul. 30, 1996.
`
`* cited by examiner
`
`Primary Examiner—William A. Cuchlinski, Jr.
`Assistant Examiner—Yonel Beaulieu
`(74) Attorney, Agent, or Firm—Sidley Austin BroWn &
`Wood
`(57)
`
`ABSTRACT
`
`A system for indicating the operational status and param
`eters of a cruise control system for use in a human operated
`vehicle. The system includes apparatus for storing and
`recalling a preset speed for the cruise control system. The
`system further includes apparatus for indicating this preset
`speed to the operator, along With apparatus con?gured to
`indicate to the user Whether or not the cruise control system
`is engaged. One embodiment is a system for use With
`vehicles With digital speedometers. In this embodiment, the
`system includes digital memory for storing the preset speed,
`and a digital display con?gured to shoW the preset speed and
`the operational status of the cruise control system. Another
`embodiment is for use With vehicles having analog speed
`ometers. The analog system includes an array of LEDs and
`detectors arranged around a speed indicating dial and under
`the speedometer needle. The LEDs and detectors are
`arranged so that a preset speed may be stored into the system
`by detection of light re?ected from one of the LEDs off a
`re?ective surface on the back side of the needle, and onto
`one of the detectors. The LEDs of the analog system are
`further con?gured to indicate the preset speed and the
`operational status of the system.
`
`36 Claims, 3 Drawing Sheets
`
`MAIN DISPLAY
`
`PRESET SPEED DISPLAY
`
`10
`
`?
`
`CLOCKING
`MECHANISM
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`14
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`/
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`MEMORY / '2
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`Subaru of America, Inc., et al.
`Ex. 1001 p. 1
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`U.S. Patent
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`Nov. 27, 2001
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`Sheet 1 of3
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`US 6,324,463 B1
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`MAIN DISPLAY
`
`PRESET SPEED DISPLAY
`
`10 §
`
`/ 14
`
`CLOCKING
`——> MECHANISM
`
`/ 12
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`MEMORY
`
`90
`
`100
`
`110
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`Subaru of America, Inc., et al.
`Ex. 1001 p. 2
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`U.S. Patent
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`Nov. 27, 2001
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`Sheet 2 of3
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`US 6,324,463 B1
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`F/G. 5
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`F/G. 5
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`Subaru of America, Inc., et al.
`Ex. 1001 p. 3
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`
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`U.S. Patent
`
`Nov. 27, 2001
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`Sheet 3 0f 3
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`US 6,324,463 B1
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`100 \ wigs grzFcc — MANUAL CONTROL—
`
`102\ GO ON BANK
`OF LEDS BLINK
`
`104
`
`‘38%?
`
`NO; MANUAL CONTROL-—
`
`YES
`106\
`AUTOMOBILE SPEED
`PRESS ’R/A’
`UNDER CC; LED
`CORRESPONDING TO M
`JET SPEED LET
`
`l
`PRESS ?gLERATOR
`|
`CC ENGAGED PRESET
`AusTgEMEgs?b/lggh)
`INCREASES; LED
`REMAINS LIT-
`/
`118
`
`'25
`/
`CC ENGAGED,
`AUTOMOBILE
`ACCELERATES
`TO A SPEED
`
`RELEASE lR/A/
`cc ENGAGED,
`AUTOMOBILE
`OPERATES AT
`THE NEw
`HIGHER SPEED
`
`APPLY BREAK
`_1Q5
`
`'70
`\
`cc DTSENGAGED,
`PRESET SPEED
`STORED, AUTOMOBILE
`SLOwS DOWN;
`LED BLINKS
`
`PRESS
`/SET’,
`CC ENGAGED
`AT A LOwER
`SPEED
`/
`7 '4
`
`PRESS
`/R/A/
`AUTOMOB'I
`AOGELERATES
`TO PRESET
`SPEED
`"g
`
`'28
`
`PRESS ’SET’,
`AUTOMOBILE AT
`A HIGHER SPEED,
`CC ENGAGED
`
`122
`
`120
`RELEASE ACCELERATOR,
`AUTOMOBILE SLOWS DOWN
`TO PRESET SPEED,
`CC ENGAGED
`
`Subaru of America, Inc., et al.
`Ex. 1001 p. 4
`
`
`
`US 6,324,463 B1
`
`1
`CRUISE CONTROL INDICATOR
`
`This application claims the bene?t of US. Provisional
`Application No. 60/085,183, ?led on May 12, 1998.
`
`FIELD OF THE INVENTION
`
`This invention relates to cruise control systems and more
`particularly to automotive cruise control systems Which
`display preset speed information.
`
`BACKGROUND OF THE INVENTION
`
`The cruise control accessory found in many automobiles
`today can be characteriZed as a human-machine system.
`That is, While the cruise control feature offers the operator of
`a vehicle the bene?t of speed control (machine) automation,
`it also requires signi?cant human interface for its proper and
`safe operation. In particular, conventional cruise control
`systems require the operator to (1) turn on the cruise control
`system (by depressing or rocking a button on the steering
`Wheel or dashboard), (2) achieve the desired cruising speed
`(by controlling the de?ection of the accelerator), and then
`(3) engage, or set, the cruise control (by pressing another
`button typically located on the steering Wheel or cruise
`control stalk shift).
`Further, the conventional cruise control system is pro
`vided With a memory function that stores the set control
`speed. Thus, applying the brakes to temporarily sloW doWn
`temporarily disengages the cruise control function.
`HoWever, re-engaging the cruise control by depressing the
`“resume” button returns the automobile to the preset, memo
`riZed speed. Similarly, temporarily accelerating While the
`cruise control is engaged, as is done, for example, When
`passing other vehicles, does not disengage the system.
`Rather, When the accelerator is released, the automobile
`sloWs doWn until it returns to its set cruising speed and
`continues at that speed. In fact, the preset, memoriZed speed
`is typically canceled only if the cruise control system is
`turned off (by either depressing the system button or turning
`off the automobile) or if another speed is set into the
`memory.
`Thus, the conventional cruise control system can be
`characteriZed as existing in any one of ?ve modes. Those
`modes are: (1) cruise control system off—the car’s speed is
`controlled manually; (2) system on, but not engaged—the
`car’s speed is still controlled manually; (3) system on and
`engaged at a set speed—the car’s speed is automatically
`controlled at the memoriZed speed; (4) system on and
`engaged at a set speed but the accelerator is depressed thus
`increasing the speed of the car—the car’s speed is no longer
`controlled automatically. HoWever, the moment the speed of
`the vehicle drops to the set speed due to the operator
`releasing the accelerator, the system jumps back to mode 3;
`and (5) system on and engaged but the brakes are
`depressed—the car’s speed is no longer controlled automati
`cally but the set speed is still stored in memory and Will
`re-engage to automatic mode 3 upon depressing the
`“resume” button. It is also apparent that the system is
`dynamic in that it can jump from mode to mode based on
`human or machine intervention.
`The operator may knoW Which mode the automobile is in
`at any given moment, but this may not alWays be the case.
`While most systems provide visual feedback indicating
`Whether the cruise control system is enabled (identifying if
`it is in mode 1), typically via a light located Within the cruise
`control button or on the dashboard, this information is of
`some but minimal value to the operator. They do not,
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`hoWever, inform the operator Which mode the automobile is
`in When the system is enabled (i.e. mode 2, 3, 4, or 5). While
`no feedback is obviously needed to identify When the system
`is in mode 3 because the cruise control is automatically
`controlling the speed, conventional systems do not inform
`the operator Whether they are in fully manual mode 2 or in
`one of the temporarily manual modes 4 or 5. The operator
`must rely on his or her memory to knoW Whether the speed
`at Which the vehicle is traveling is only a temporary override
`of the automatic speed control to be resumed upon releasing
`the accelerator or depressing the resume button, as the case
`may be, or is a function of being in fully manual mode 2.
`Lacking this knoWledge poses potential safety haZards.
`This can be illustrated by Way of several examples. Example
`1: The operator Was on fully automatic cruise (mode 3) at 60
`miles per hour (mph), but then accelerated to 75 mph (mode
`4) and kept his/her foot on the accelerator to maintain this
`speed for several miles. Then, the operator had a need to
`gradually sloW the vehicle doWn to beloW 60 mph, say 40
`mph, because of a neW driving condition, such as heavy
`traffic, reduced speed limit or exiting the highWay. HoWever,
`by this time, the operator forgot that cruise control Was still
`set for 60 mph, and merely released the accelerator, expect
`ing the vehicle to continue to sloW doWn to 40 mph. This,
`course, did not happen. The operator’s momentary lack of
`speed control could lead to an accident. Example 2: The
`operator Was in fully automatic cruise control mode (mode
`3) but had to step on the brakes to temporarily sloW doWn,
`thereby disengaging the cruise control (mode 5). Some time
`elapsed and the operator forgot the preset speed before
`pressing the resume button. The acceleration to the preset
`speed may come as a surprise and lead to another haZardous
`situation.
`In sum, there is a de?nite safety driven need to provide
`useful, visual feedback to operators of automobiles With
`cruise control of the preset speeds at Which they are set.
`
`SUMMARY OF THE INVENTION
`The present invention addresses this need by providing
`the operator of a vehicle With information about the preset
`speed of an enabled cruise control system. This is accom
`plished by equipping the vehicle With a visual feedback
`system that continuously provides the preset speed memo
`riZed by the cruise control system. This invention Will tend
`to enhance the safe operation of a vehicle under cruise
`control conditions.
`In particular, a cruise control system for a vehicle is
`provided With a speed controller that automatically main
`tains the vehicle speed at a desired preset speed, an enable
`sWitch that enables the system, a set speed input in com
`munication With the controller to manually set the speed of
`the vehicle to that at Which it is traveling at the moment of
`input, a memory for temporarily storing the speed of the
`vehicle at the set speed, and a feedback system for display
`ing the set speed information to the operator of the vehicle
`until a neW set speed is input or the system is disabled.
`In one more detailed aspect of the invention, the feedback
`system of a vehicle designed With a digital speed display, or
`speedometer, is a second digital display that provides the
`preset cruise control speed, When the cruise control is
`enabled and active. In another more detailed embodiment,
`the feedback system of a vehicle having an analog speed
`ometer includes a plurality of light emitting diodes (LED’s)
`located at various speed intervals on the speedometer dial.
`The LED corresponding to the speed at Which the vehicle
`Was traveling When the cruise control system Was set illu
`minates and remains lit (or blinks) for the bene?t of the
`operator.
`
`Subaru of America, Inc., et al.
`Ex. 1001 p. 5
`
`
`
`US 6,324,463 B1
`
`3
`Other features and advantages of the present invention
`Will become apparent from the following detailed
`description, taken in conjunction With the accompanying
`drawings, Which illustrate, by Way of example, the prin
`ciples of the invention.
`
`BRIEF DESCRIPTION OF THE DRAWINGS
`
`FIG. 1 is schematic of a digital speed display of one
`embodiment of the present invention;
`FIG. 2 is a plan vieW of another embodiment of the
`present invention, Wherein an analog speedometer incorpo
`rating a bank of LED detector assemblies is shoWn;
`FIG. 3 is a partial side vieW of the analog speedometer
`taken along line 3—3 of FIG. 2, Wherein an LED detector
`assembly and speedometer needle are further illustrated;
`FIG. 4 is a How chart detailing the various operations of
`the analog cruise control feedback system shoWn in FIG. 2;
`and
`FIG. 5 is a schematic of the LED detector assembly
`shoWn in FIGS. 2 and 3.
`
`DETAILED DESCRIPTION OF THE
`PREFERRED EMBODIMENT
`
`The invention summariZed above and de?ned by the
`enumerated claims may be better understood by referring to
`the folloWing detailed description, Which should be read in
`conjunction With the accompanying draWings. This detailed
`description of a particular preferred embodiment, set out
`beloW to enable one to build and use one particular imple
`mentation of the invention, is not intended to limit the
`enumerated claims, but to serve as a particular example
`thereof. The particular example set out beloW is one pre
`ferred speci?c implementation of an improved cruise control
`system for an automobile, namely, one that provides con
`tinuous visual feedback of the preset speed of the system for
`the convenience of the operator and for improved safety. The
`invention, hoWever, may also be applied to other types of
`transportation means that could utiliZe a cruise control
`system.
`Automobiles currently provide one of tWo types of speed
`displays, namely, the analog display, typically in the form of
`the traditional speedometer, and the digital display.
`Accordingly, as detailed beloW, the present invention pro
`vides cruise control speed-indicating solutions for both types
`of displays. The digital display embodiment is described
`?rst.
`For vehicles having digital speed displays, the speed
`information is already in digitiZed form, such as binary
`coded decimal (BCD). As shoWn in the schematic of FIG. 1,
`a main speed display 3 displays in digital format the current
`speed at Which the vehicle is operating. A clocking mecha
`nism 10, such as an array of logic gates, is provided to Write
`the digitiZed information regarding the speed at Which the
`vehicle is traveling When the set button is pressed, that is,
`When the cruise control is engaged, into a digital memory 12,
`such as a DRAM. Output lines 14 from the memory 12
`activate a second smaller and distinctive digital display 16
`indicating the preset speed. In the preferred embodiment, the
`present speed remains continuously lit on the second display
`16 from the moment the cruise control is engaged until it is
`either overridden or shut off. When the cruise control is
`disengaged by stepping on the brake, for example, to tem
`porarily sloW doWn the vehicle to accommodate a heavy
`traf?c load or a reduced highWay speed, the preset display
`retains the present speed information and blinks at ?xed
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`intervals, say, tWice per second. This gives the operator a
`clear indication of the speed to Which the vehicle Will return
`When the command to resume speed is applied.
`When the cruise control system is ?rst activated, the
`preset display 16 Will blink the number Zero indicating an
`“unset” state of cruise control. Further, if in the engaged
`state, the operator steps on the accelerator to momentarily
`(or longer) increase vehicular speed (for passing another
`vehicle or any other reason), the cruise control Will remain
`engaged as is true of all systems today. HoWever, the
`operator Will alWays have a clear indication of the speed to
`Which the vehicle Will return upon removing the foot from
`the accelerator, obviating the need to rely on the memory of
`the operator to knoW the cruise control speed.
`Referring noW to automobiles With analog speed displays,
`since digitiZed speed information is not typically available
`for easy storage, as Was described above, a very different
`approach is used to achieve the same results as in the digital
`embodiment. As shoWn in FIG. 2, the preset speed infor
`mation is displayed right on the analog speed dial, or
`speedometer 40, itself. In particular, the analog dial 40
`Which has speed markings thereon, is also provided With a
`bank 44 of individual light emitting diode (LED) assemblies
`45 embedded at the periphery of the dial at every 1 mile per
`hour (mph) interval. It is understood that other intervals may
`be used if desired. The bank 44 extends for a portion of the
`dial corresponding to an expected potential range of cruising
`speeds, such as from 40 mph to 80 or 90 mph. Referring
`momentarily to FIG. 3, each LED assembly 45 is comprised
`of an LED 46 and a detector 48. These assemblies 45,
`assembled individually or as an entire bank 44, can be easily
`fabricated on a feW semiconductor chips.
`The operation of the analog embodiment of the present
`invention is noW illustrated With reference to the How chart
`shoWn in FIG. 4, in conjunction With FIGS. 2, 3 and 5.
`When the operator starts the vehicle and commences
`driving, the cruise control (indicated as “CC” in FIG. 4) is
`off and the automobile is under manual control. When the
`operator turns on the cruise control in step 100, all of the
`detectors 48 are off, and the display of the entire bank of
`LEDs 44 simultaneously blink once (or a small number of
`present times) to inform the operator that the cruise control
`is noW enabled, step 102. Further, the LED 50, correspond
`ing to the 0 mph mark, remains lit to indicate the cruise
`control status (i.e. “system on”). At this point, the driver can
`either continue to operate the automobile under manual
`control or press the “set speed” button When the desired
`automobile speed is reached. Pressing the “set speed”
`button, step 104, activates all of the detectors and all of the
`LED’s momentarily light up. Referring again to FIGS. 2 and
`3, the back side of the speed indicator needle 42 is partially
`re?ective for the portion of the needle that sWeeps over the
`bank of LED assemblies 44. Thus, the momentary activation
`of all LED’s results in the LED light re?ected back into only
`that detector 48 over Which the partially re?ecting needle 42
`is located, and only this detector is activated. As shoWn in
`FIG. 5, the electrical signal from this detector is then used
`to activate the corresponding LED Which remains lit as long
`as the cruise control is engaged, step 106. The electronic
`circuitry needed to maintain the LED lit after the momentary
`?ring of LED and activation of the corresponding detector
`by a pulse of light is Well understood in the art. The vehicle
`is noW operating at a speed controlled by the cruise control.
`At this point, there are at least three scenarios that obtain.
`The ?rst is that the operator steps on the brake, step 108.
`When the operator steps on the brake for temporary reduc
`
`Subaru of America, Inc., et al.
`Ex. 1001 p. 6
`
`
`
`US 6,324,463 B1
`
`5
`tion of the vehicular speed on the highway, the cruise control
`disengages, step 110, and the LED indicating the previously
`set speed point goes into a blinking mode. This Will assure
`that the operator has the full knowledge of the status of the
`cruise control, in particular, that it is on but disengaged, With
`the potential to return the vehicle’s speed to the preset speed
`corresponding to the blinking LED on the dial 40. The
`operator may continue to drive the vehicle under complete
`manual control While the preset speed is stored in the cruise
`control and as indicated by the blinking LED. When the
`operator presses the “Resume/Accelerate (R/A)” button,
`step 112, he or she knoWs the speed to Which the vehicle Will
`return. At this point, of course, cruise control is engaged, the
`LED is steadily lit, and the automobile accelerates to the
`preset speed.
`Alternatively, as shoWn in step 114, the operator may
`choose to continue to travel at the neW (and noW sloWer)
`speed. In this case, he or she may press the SET button to
`re-engage the cruise control. All of the LED’s Will blink
`momentarily, all the detectors Will be turned on, and only the
`detector under the neW position of the speedometer needle
`having received the re?ected light Will be activated. The
`LED corresponding to the neW cruising speed Will noW
`remain lit as described earlier.
`The second scenario entails the operator stepping on the
`accelerator, step 116, to increase the vehicular speed in order
`to pass another vehicle (or any other reason). As shoWn in
`step 118, the LED remains lit continuously to indicate the
`speed to Which the vehicle Will return once the operator
`takes her/his foot off the accelerator, as in step 120. For the
`operator to be able to see the set speed When cruise control
`is engaged and When the vehicle is moving at the preset
`speed, this embodiment includes a speedometer indicator
`needle Which is semitransparent over the region Where the
`bank of LED assemblies 44 are located. Thus, the operator
`can see the continuously lit LED and knoW that the cruise
`control is engaged.
`Alternatively, as shoWn in step 122, if desired, the opera
`tor can select a neW, higher cruising speed by pressing the
`“set speed” button. In this case, the earlier sequence Will
`repeat, a neW LED Will be lit, and the automobile speed Will
`be set at a higher speed.
`Finally, the third scenario envisions the operator depress
`ing the “Reset/Accelerate” or “R/A” button in step 124 to
`accelerate the vehicle via the cruise control system, step 126.
`FolloWing the earlier sequences, the neW speed Will be set to
`that Which the vehicle Was traveling When the “R/A” button
`Was released. This Will sequence all of the LED’s to blink,
`all detectors to be activated, and then the LED under the
`needle to stay lit to indicate the neW higher cruising speed,
`as shoWn in step 128.
`As shoWn, deployment of the present invention in all
`vehicles equipped With cruise control Will tend to contribute
`signi?cantly toWards safer driving.
`Having thus described the basic principles and exemplary
`embodiments of the invention, it Will be apparent that further
`variations, alterations, modi?cations, and improvements
`Will also occur to those skilled in the art. For example, it is
`understood that a vehicle equipped With an analog speed
`ometer may be designed With a digital preset speed indicator.
`Further, it Will be apparent that the present invention is not
`limited to use in automobiles. It is applicable to any
`operator-controlled vehicle that may use a human-machine,
`mobile cruise control system, such as motorcycles, trolleys,
`Water vehicles, etc. Such alterations, modi?cations, and
`improvements, though not expressly described or mentioned
`
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`above, are nonetheless intended and implied to be Within the
`spirit and scope of the invention. Accordingly, the foregoing
`discussion is intended to be illustrative only; the invention is
`limited and de?ned only by the various folloWing claims and
`equivalents thereto.
`What is claimed is:
`1. A cruise control system for vehicle having a human
`operator, comprising:
`a speed controller that automatically maintains the vehicle
`speed at a preset speed;
`an enable sWitch associated With said controller for
`enabling the system;
`a set speed input in communication With said controller
`for manually setting the speed of the vehicle at said
`preset speed, thereby engaging the system;
`a memory Which stores information indicative of said
`preset speed; and
`a feedback system for communicating said information in
`said memory to the operator of the vehicle.
`2. A cruise control system for a variable speed vehicle
`controlled by a human operator, comprising:
`(a) a speed controller for automatically maintaining the
`vehicle at a substantially constant cruising speed
`selected by the operator;
`(b) a cruise control enable sWitch associated With the
`controller for enabling and disabling the controller;
`(c) a set speed input in communication With the controller
`for selecting the cruising speed of the vehicle When the
`controller is enabled;
`(d) a memory that stores information representative of the
`selected cruising speed; and
`(e) a feedback system that substantially continuously
`communicates the selected cruising speed information
`to the operator of the vehicle until either the operator
`selects a subsequent cruising speed or the controller is
`disabled.
`3. The cruise control system of claim 2, Wherein the
`feedback system includes a digital display.
`4. The cruise control system of claim 3, Wherein the
`digital display displays a predetermined signal When the
`controller is initially enabled to indicate the state of the
`controller.
`5. The cruise control system of claim 3, Wherein the
`digital display displays information indicative of the
`selected cruising speed of the vehicle.
`6. A cruise control system for a variable speed vehicle
`controlled by a human operator, comprising:
`(a) a speed controller for automatically maintaining the
`vehicle at a substantially constant cruising speed
`selected by the operator;
`(b) a cruise control enable sWitch associated With the
`controller for enabling and disabling the controller;
`(c) a operator-controlled, set speed input in communica
`tion With the controller for selecting the cruising speed
`of the vehicle When the controller is enabled;
`(d) an analog speedometer having a speed dial With speed
`markers and a rotating speed indicating needle on the
`dial; and
`(e) a feedback system that detects the position of the speed
`indicating needle When the cruising speed of the
`vehicle is selected and that substantially continuously
`communicates the position of the needle corresponding
`to that cruising speed until either the operator selects a
`neW cruising speed or the controller is disabled.
`
`Subaru of America, Inc., et al.
`Ex. 1001 p. 7
`
`
`
`US 6,324,463 B1
`
`7
`7. The cruise control system of claim 6, wherein the
`feedback system further comprises a bank of light emitting
`diodes arranged along a portion of the speed dial, each diode
`positioned to correspond to a given speed indication on the
`dial, and Wherein one of the diodes in the bank emits light
`corresponding to the selected cruising speed.
`8. The cruise control system of claim 7, Wherein the
`feedback system further includes one light emitting diode
`detector arranged adjacent to each diode in the bank of light
`emitting diodes, and a light re?ective surface on a portion of
`the side of the speed indicating needle that faces the bank of
`diodes and that sWeeps over the bank of diodes.
`9. The cruise control system of claim 8, Wherein said
`feedback system determines the relative position of the
`speed indicating needle When the cruising speed is selected
`by detecting re?ections from one of the light emitting diodes
`off the re?ective surface of the needle received by an
`adjacent light emitting diode detector.
`10. The cruise control system of claim 8 Wherein the bank
`of light emiting diodes is activated When the enable sWitch
`is initially enabled.
`11. The cruise control system of claim 9 Wherein the
`feedback system activates one of the light emitting diodes
`closest to the needle When said enable sWitch is enabled.
`12. A method for visually communicating to the human
`operator of a vehicle having a cruise control system a
`cruising speed at Which the vehicle is set, comprising:
`determining the speed at Which the vehicle is traveling;
`activating the cruise control system at a desired cruising
`speed;
`displaying a symbol indicative of the speed at Which the
`cruise control system is activated;
`maintaining the activated cruise control speed symbol
`upon temporary acceleration or deceleration of the
`vehicle;
`removing said symbol When the cruise control system is
`deactivated or a neW cruising speed is selected.
`13. A method for indicating to a human operator of a
`vehicle having a cruise control system a preset speed for
`Which the cruise control system is set, the method compris
`ing:
`setting the preset speed;
`displaying to the operator a symbol indicative of the
`preset speed;
`maintaining the display of the symbol indicative of the
`preset speed; and
`discontinuing display of the symbol indicative of the
`preset When the cruise control system is deactivated or
`a neW preset speed is selected.
`14. The method of claim 13, further comprising:
`displaying a second symbol upon the selection of a neW
`preset speed, said second symbol indicative of the neW
`preset speed.
`15. The method of claim 13, further comprising:
`before setting the preset speed, activating the cruise
`control system; and
`after activating the cruise control system, but before
`setting the preset speed, indicating to the operator the
`unset status of the preset speed.
`16. The method of claim 15,
`Wherein indicating the unset status of the preset speed
`includes displaying a visual symbol to the operator.
`17. The method of claim 16,
`Wherein the visual symbol indicating the unset status of
`the preset speed comprises a blinking “0”.
`
`5
`
`15
`
`25
`
`35
`
`45
`
`55
`
`65
`
`8
`18. A method for indicating to a human operator of a
`vehicle having a cruise control system a preset speed for
`Which the cruise control system is set, the method compris
`1ng:
`setting the preset speed;
`displaying to the operator a symbol indicative of the
`preset speed While maintaining the vehicle speed at
`substantially the preset speed;
`maintaining the display of the symbol indicative of the
`preset speed;
`braking the vehicle;
`upon braking the vehicle, discontinuing maintaining the
`vehicle speed at substantially the preset speed While
`keeping data corresponding to the preset speed in a
`memory device; and
`at a time after braking and during Which time the vehicle
`is not being maintained at substantially the preset
`speed, displaying to the operator a symbol indicative of
`the preset speed.
`19. The method of claim 18, Wherein the symbol indica
`tive of the preset speed displayed at the time after braking
`and during Which time the vehicle is not being maintained at
`substantially the preset speed, is distinguishable by the
`operator from the symbol indicative of the preset speed
`While the vehicle is being maintained at substantially the
`preset speed.
`20. The method of claim 19, Wherein the symbol indica
`tive of the preset speed displayed at the time after braking
`and during Which time the vehicle is not being maintained at
`substantially the preset speed is in the form of a blinking
`numerical indicator.
`21. A method for indicating to a human operator of a
`vehicle having a cruise control system a preset speed for
`Which the cruise control system is set, the method compris
`ing:
`engaging the cruise control system;
`setting the preset speed;
`displaying to the operator a symbol indicative of the
`preset speed;
`maintaining the display of the symbol indicative of the
`preset speed;
`discontinuing display of the symbol indicative of the
`preset speed after the cruise control system is deacti
`vated or a neW preset speed is selected; and
`after the cruise control system is deactivated, displaying
`a symbol indicative of an unset state of the preset
`speed.
`22. The method of claim 21, Wherein the symbol indica
`tive of the unset state of the preset speed is a “0”.
`23. The method of claim 21, Wherein the symbol indica
`tive of the unset state of the preset speed is a blinking
`numerical indicator.
`24. The method of claim 22, Wherein the “0” is a blinking
`“0”.
`25. A method for indicating to a human operator of a
`vehicle having a cruise control system a preset speed for
`Which the cruise control system is set, the method compris
`ing:
`setting the preset speed;
`displaying to the operator a symbol indicative of the
`preset speed;
`accelerating the vehicle to a speed above the preset speed;
`and
`maintaining the display of the symbol indicative of the
`preset speed While the vehicle is at the speed above the
`preset speed.
`
`Subaru of America, Inc., et al.
`Ex. 1001 p. 8
`
`
`
`US 6,324,463 B1
`
`9
`26. A cruise control system for a variable speed vehicle
`controlled by a human operator, comprising:
`a speed controller for automatically maintaining the
`vehicle at a substantially constant preset speed;
`a set speed input in communication With the controller for
`selecting the preset speed;
`a memory device operable to store information represen
`tative of the preset speed;
`?rst visual display apparatus operable to display the
`indicative of the actual speed of the vehicle; and
`second visual display apparatus operable to