EP0278150B1 - Golf game and course simulating apparatus and method - Google Patents
Golf game and course simulating apparatus and method Download PDFInfo
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- EP0278150B1 EP0278150B1 EP87305767A EP87305767A EP0278150B1 EP 0278150 B1 EP0278150 B1 EP 0278150B1 EP 87305767 A EP87305767 A EP 87305767A EP 87305767 A EP87305767 A EP 87305767A EP 0278150 B1 EP0278150 B1 EP 0278150B1
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- golf
- ball
- shaft
- simulation apparatus
- game simulation
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Classifications
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B69/00—Training appliances or apparatus for special sports
- A63B69/36—Training appliances or apparatus for special sports for golf
- A63B69/3658—Means associated with the ball for indicating or measuring, e.g. speed, direction
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B24/00—Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
- A63B24/0021—Tracking a path or terminating locations
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B69/00—Training appliances or apparatus for special sports
- A63B69/0073—Means for releasably holding a ball in position; Balls constrained to move around a fixed point, e.g. by tethering
- A63B69/0091—Balls fixed to a movable, tiltable or flexible arm
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B69/00—Training appliances or apparatus for special sports
- A63B69/36—Training appliances or apparatus for special sports for golf
- A63B69/3614—Training appliances or apparatus for special sports for golf using electro-magnetic, magnetic or ultrasonic radiation emitted, reflected or interrupted by the golf club
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B24/00—Electric or electronic controls for exercising apparatus of preceding groups; Controlling or monitoring of exercises, sportive games, training or athletic performances
- A63B24/0021—Tracking a path or terminating locations
- A63B2024/0028—Tracking the path of an object, e.g. a ball inside a soccer pitch
- A63B2024/0031—Tracking the path of an object, e.g. a ball inside a soccer pitch at the starting point
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B69/00—Training appliances or apparatus for special sports
- A63B69/36—Training appliances or apparatus for special sports for golf
- A63B69/3667—Golf stance aids, e.g. means for positioning a golfer's feet
- A63B2069/367—Detection of balance between both feet, i.e. weight distribution
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B2220/00—Measuring of physical parameters relating to sporting activity
- A63B2220/80—Special sensors, transducers or devices therefor
- A63B2220/802—Ultra-sound sensors
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B2220/00—Measuring of physical parameters relating to sporting activity
- A63B2220/80—Special sensors, transducers or devices therefor
- A63B2220/805—Optical or opto-electronic sensors
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B2225/00—Miscellaneous features of sport apparatus, devices or equipment
- A63B2225/70—Coin-operated
Definitions
- the present invention relates to electronic and data processing apparatus for simulating a game of golf. More particularly, the apparatus senses golf club movement just before it hits a simulated golf ball in order to predict where on an actual image of a preselected hole terrain it would land with tolerable accuracy. More particularly still, the simulated golf ball, when hit, rotates around a substantially vertical axis, whereupon its speed of rotation may be sensed to aid in the prediction of where an actual ball would land. Furthermore, the present invention relates to a method of representing an actual preselected golf course by photographic or the like means for later display to the user of the apparatus. More particularly, the selected golf terrain is partitioned in segments, each segment is photographed, the photographs are digitized and stored on laser video disc for retrieval and display as a game is played.
- the attitude of the club head at impact is determined by two sensors spaced along the club face in front of the simulated golf ball to permit evaluation of swing in terms of "square", “open” or “closed” attitude.
- the club attitude and swing direction are used for deriving an assessment of the flight characteristics of the ball.
- the swing direction and club attitude are also indicated to the player.
- the rate of swing of the club between predetermined points is timed by a clock that operates at variable pulse rates.
- the clock rate is automatically selected in accordance with the computed flight characteristic computed for the same swing.
- the clock rates are selected such that the resulting digital output is an appropriate measure of the distance in yards.
- United States Patent 3,769,894 issued November 6, 1973 to Robert M. Konklin entitled Golf Game teaches the steps of building a model of a golf hole on a reduced scale, the model having a flat playing surface, and photographing the playing surface from differing points on the model. Scenes illustrating portions of the gold hole are displayed to the golfer on a screen on which a spot of light is projected on the displayed scene where computations predicted the ball's trajectory.
- United States Patent 4,429,880 issued February 7, 1984 to Richard M. Chen et al discloses a Golf Game Simulator Device which permits the golf player to view a specific golf course or portion thereof on a television monitor and is provided with additional information relating to the lie of ball and its position in relation to the hole.
- the golfer then hits the ball in the normal manner, which ball is fixedly retained on a joystick apparatus, whereby in striking the ball the joystick transmits signals to a computer which generates graphic data relative to a golf course and converts the signal input to graphic display information relative to the new position or lie of the ball in relation to the hole on the golf course.
- the golf ball is mounted so that when struck, first and second signals for each of four degrees of movement are transmitted to the computer and correlated with the golf course data input.
- the device in one embodiment utilizes a video disc whereby the course layout is pictorially viewed on a television monitor in addition to graphic information, and the computer determines the pictorial scene to be displayed depending upon the location of the golf ball after being
- System 210 comprises a base 218, computer 213, cassette 280 and television 215, also similar in design and construction to units 118, 113, 80, and 115, respectively, as afore-described.
- System 210 further contains a video disc player 90 for playing disc 91.
- Player 90 receives input from computer 213 and selectively display video information, such as a video image of an actual golf course 230 on screen 221.
- Disc 91 and cassette 280 are of course coordinated so that generated images are of the same subject matter.
- the specific tee location or lie of the ball will have a corresponding view or pre-recorded scene on video disc 91.
- the computer may first generate graphic information relative to the lie of the ball and then instruct the video player to freeze frame the disc 91 to demonstrate the actual vantage point of the golfer as if the golfer were actually positioned on the course at that ball location.
- Pre-recorded images on the disc 91 may be at various point locations on the golf course spaced on a grid layout of several meters apart.
- a disc skip system useful in this regard is that as disclosed in U.S. Pat. No. 3,993,863, granted Nov. 23, 1976 to Leedom, et al.”
- the present invention endeavors to provide a compact and realistically simulated golf game apparatus which also has the capability of providing to the user a reasonably accurate analysis of his/her swing.
- a golf game simulation apparatus of the kind in which the movement of a golf club head is detected by a plurality of sensors to generate a signal indicative of that movement is characterised in that there are: a first plurality of sensors arranged in a row on one side of and below a simulated or notional golf ball for sensing a golf club head above; and means for sampling said first plurality of sensors simultaneously at very high frequency and storing the polled information whenever any one or more sensors has undergone a change of state from the previously polled state sampled representation of golf club head movement until said simulated ball is struck by said golf club head.
- a base 20 has an upper surface comprised of two parts 21 and 22; on the extreme end of the surface 22 is erected a housing 23 with a video monitor screen 24 visible at its top and framed by part of the housing 23 which protrudes slightly forward in order to enable light from a lamp 25 underneath the screen 24 to shine downwardly throwing the shadow of objects interrupting it onto the surface 22.
- a simulated golf ball 26 mounted on (or integral with) a shaft 27 approximately twelve inches long.
- the shaft 27 is freely rotatable around a slightly forwardly inclined vertical shaft 28, such that by gravity the ball 26 always returns to its rest position protruding out of bottom opening 29.
- three button magnets 30, 31 and 32 are employed.
- the magnet 30 is disposed adjacent a cylinder 33 integral with and supporting the shaft 27, which is the extension of a tapered portion 34 at the bottom half of the cylinder 33.
- the magnet 32 which is poled to repel the magnet 30 when the shaft 27 is rotated 180° from its forward resting position.
- the magnet 32 is embedded in the cylinder above the shaft 27 at the same level as the magnet 30.
- the upper part of the cylinder 33 in addition to housing the magnets 31 and 32 embedded therein, also serves as a braking surface against which a brake pad 35 is pressed by means of lever 36 which is actuated by solenoid 37 in order to stop rotation of the cylinder (and the ball 26) around the shaft 28 once the ball 26 has been hit by a golf club swinging player (not shown).
- a return spring ensures that the lever 36 returns to its quiescent position and so the brake pad 35.
- the ball 26, the shaft 27 and the cylinder 33 are preferably machined from a single block of a durable synthetic material such as polythylene or the like.
- phototransistors 39 and 40 Housed just under the top surface 22 symmetrically on either side of the ball 26 and shaft 27 are two parallel rows (parallel to the shaft 27) of phototransistors 39 and 40, which are 41 ⁇ 2 inches apart and which have their lenses pointing upward.
- the two rows of phototransistors 39 and 40 respond to light or shadow through two transparent protective strips 41 and 42 in the top surface 22.
- the two rows 39 and 40 are mounted on two printed circuit boards 43 and 44, on each of which are mounted an additional pair of phototransistors 45/46 and 47/48.
- the phototransistors 45 and 47 are disposed 1 5/8 inches from the rows 39 and 40, respectively, and are exposed to light or shadow via a transparent protective strip 49 in the top surface 22.
- the function of the phototransistors will be described in conjunction with the electronic data processing circuit description below.
- front rows 39 and 40 there are two back rows (not shown in Figure 2) which are parallel to the rows 39 and 40 and which are mounted on PC boards 43 and 44.
- One back row is mounted 51 ⁇ 2 inches to the right of the front row 39 and the other back row 51 ⁇ 2 inches to the left of the row 40.
- the system comprises a CPU 50 (which is commercially available as a 8088 (INTEL) motherboard such as that in IBM's XT PC) and its address, data and control bus 51. Connected to the bus 51 are the following subsystems or modules:
- the video disc player 54 accepts laser discs having digitized photographs of selected golf courses as well as menu displays for interacting with the user of the game.
- Each laser disc has associated with it a CD ROM containing data (apart from pictures) specific to the golf course on the laser disc, such as distances, contour and topographical data of the hole fairways, in addition to the addresses of each photograph stored on the laser disc.
- the CD ROM also stores the main game program shown at the flow chart level in Figures 11 to 14.
- FIGS. 6 and 7 show the block diagrams of the sensor interfacer module 59 and the multiplexer module 62, respectively.
- the sensor interface module 59 comprises a microprocessor 65 (8051), which includes a 4K byte ROM, two programmable timers, a serial input/output buffer, and a parallel input/output buffer which interfaces with the bus 51 of the CPU 50.
- a microprocessor 65 8051
- FIG. 6 and 7 show the block diagrams of the sensor interfacer module 59 and the multiplexer module 62, respectively.
- the sensor interface module 59 comprises a microprocessor 65 (8051), which includes a 4K byte ROM, two programmable timers, a serial input/output buffer, and a parallel input/output buffer which interfaces with the bus 51 of the CPU 50.
- a decoder and buffer 66 decodes and buffers the bus 51, and enables a solenoid decoder 67 which activates either the brake solenoid 37 or a second solenoid( not shown) to raise the shaft 28, thereby raising the simulated ball 26 to a slightly higher position (3 ⁇ 4 inch) above the top surface 22, thus simulating a tee-off position to the player.
- a 2K byte non-volatile RAM 68 retains vital statistics such as cummulative number of hits, total money intake, and so forth.
- a 16-bit programmable counter 69 (8254) is a hardware controlled timer which times the golf club movement and starts timing when the respective back row is crossed by the club shadow and stops when the ball 26 is hit.
- the two PC boards 43 and 44 bearing photosensors on either side of the ball 26 were necessary.
- the PC board 44 is identical in construction to the PC board 43 (for reasons of manufacturing economy), but when installed the PC board 44 is rotated 180° and the resultant interchange of photosensor positions is taken care of by the software and hardware.
- the inputs to the multiplexer are duplicate inputs from the right and the left PC boards 43 and 44.
- MUX 70 accepts data bits DO(R) to D7(R) and D0(L) to D7(L) from the right front row 39 and the left front 40, respectively.
- the front rows 39 and 40 yield twenty-four bits each, time multiplexed into three-times-eight parallel bits.
- MUX 71 accepts four bits AB0(R) to AB3(R) and AB0(L) to AB3(L), which are the result of preprocessing of twenty-one photosensors in the right and left back rows (one of which is shown as SB0 to SB20 in Figure 8), respectively.
- the outputs of MUXs 70 and 71 are to the DATA lines on the bus 51.
- MUX 72 multiplexes other right/left functions, such as ball hit (BH) signals. These functions will be explained in conjunction with the description of system operation.
- the output of the MUX 72 also controls ultrasonic sensor and timer in the club height sensor 64, as well as ball timer 73.
- the strain bridge 74 is under the right hand side of the top surface 21 of the platform 20 (in Figure 1) and serves to fix a reference point related to the user's weight prior to commencement of play. The relative departure from that reference weight during club swing action by the player is used to display swing analysis information (i.e. percentage weight distribution between left and right feet as a swing is progressing) to the player following principles well known to those skilled in golf teaching and analysis.
- the A/D converter 75 converts the analog output of the strain bridge 74 to computer readable data.
- FIGS 8 and 9 show circuits on either of the identical PC boards 43 and 44, the first shows back row 76 comprising phototransistors, SB0 to SB20, while the latter shows the front row 39 (or 40, of course) comprising phototransistors SF0 to SF22. All phototransistors are manufactured by General Electric and sold under part number GE L14Cl. Due to the circuit used to obtain the necessary sensitivity, it has a high output impedance and it is necessary to buffer the phototransistors prior to any signal processing.
- CMOS buffers 77 to 80 and four associated latches 81 to 84 are utilized in the circuit for processing the signals from the phototransistors SB0 to SB20.
- the four buffers 77 to 80 also perform a simple multiplexing function, depending on whether the back row 76 is on the right hand side of the ball 26 or on the left hand side thereof, i.e. whether the board is used as PC board 43 or as PC board 44.
- the buffer 77 selects either the phototransistors SB0 to SB3 (in the case of a right handed player) or SB17 to SB20 (in the case of a left handed player).
- the remaining buffers 78 to 80 are connected as shown in the drawings.
- the output of the selected sixteen phototransistors is latched by the latches 81 to 84, the outputs of which is processed by a priority encoder 85 comprising two TTL priority encoder chips 86 and 87 (74LS148) and three NOR gates 88 to 90.
- the output of the priority encoder 85 is a four bit word encoding the phototransistor furthest from the player which has been crossed by the golf club shadow.
- the four bits AB0 to AB3 are applied to the back row MUX 71 for left/right selection.
- the twenty-three signal bits plus one integrity "toggle bit" (generated by toggle bit generator 94) are latched by means of tri-state latches 95 to 97, which are enabled in succession to yield a twenty-four bit word time multiplexed in three eight bit words D0 to D7, which eight parallel bits are applied to MUX 70 ( Figure 7).
- the tri-state latches 95 to 97 are controlled by controller 98, which enables them in succession.
- the controller 98 processes BALL HIT, IOR (In/Out Read) and DACK (DMA Acknowledge) signals from the CPU 50 and outputs a DRQ (DMA Request) signal.
- the controller 98 comprises a finite-state machine based on TTL shift registers 99 and 100, which generate properly timed control signals to successively enable the latches 95, 96 and 97 to output their latched bytes, and which generate the DMA request signal DRQ.
- Figure 10 is an overview of a golf hole fairway 101 having a tee 102, a hole 103 in a putting green 104.
- the fairway 101 is partitioned into horizontal lines every fifty yards.
- the tee 102 and the hole 103 there are imaginary horizontal lines 105 to 108, each of which may be partitioned into rectangles reaching twenty-five yards on either side thereof centered around centers such as 109 and 110.
- the centers on each horizontal line are fifteen yards apart, so that every rectangle is fifty-by fifteen yards.
- the apparatus would display a photograph taken from the respective center in the direction of the hole 103. Therefore, in photographing the fairway 101, a photograph is taken from a center such as 109 looking at the hole 103.
- the putting green 104 and surroundings are partitioned into three concentric areas: an outer circle 111 of fifty yards diameter, a circle 112 of 35 yards diameter, and a smaller circle 113 of 15 yards diameter.
- a photograph looking at the hole 103 is taken from points on the circles 111 to 113 at 45° intervals.
- a single photograph is taken from a position 114 five yards away from the hole 103. Accordingly, there are twenty-five photographs around the hole 103, while in the example of Figure 10 the fairway 101 yields twenty-eight photographs, for a total of fifty four photographs including the one from above, typically, per golf hole.
- the fairway 101 is video taped and the single video frames are each assigned an address. The full golf course, if so desired, is mastered on tape and then remastered on video disc. Video taping and mastering is available from CTI Communications of Saskatoon, Saskatchewan, Canada. Transfer on video disc is available from the 3M Company, U.S.A. The stored frames are later retrieved for display by means of their address on the video disc.
- a particular frame is retrieved for display as computations reveal that the hit by a golf club of the simulated ball 26 would have landed a hypothetical ball within the confines of rectangle 115 centered around the center 109.
- a further randomising computation would yield a random position of the lay of the hypothetical ball 117 in the vicinity of the tree 116.
- the apparatus would display the appropriate frame while the graphics and overlay generator 53 would display a splash 119 in the water trap 118.
- the player is prompted by a screen message to stand on the right hand side of the top surface 21 in order to obtain a reference reading of the players weight by means of the strain bridge 74 located underneath. Changes in weight relative to the reference reading, which are registered by the strain bridge 74 during swing action, are recorded and provide swing analysis information to the player later on if requested.
- the player is prompted by a screen message to indicate a choice between right handed and left handed swing by touching the appropriate area on the display screen 24. This will determine which of the two printed circuit boards 43 and 44 will be the primary operative board and the software is configured accordingly.
- the interaction between the player and the machine continues via screen prompting and messages to which the player reacts by making a choice. For example, since the player is using actual golf clubs to hit the ball 26, an array of standard golf clubs is displayed to the player where a choice is indicated by touching the screen to select a club identical to the one that the player will actually use.
- the BALL HIT signal starts the ball timer 73, while the shadow crossing of the shaft 27 of SF4 for left-handed swings and SF18 for right-handed swings stops the ball timer 73. Otherwise, if no ball hit is indicated, a false swing is indicated after approximately sixty-five mS, for example when the player is merely addressing the ball.
- the default aim point is the hole 103.
- the player may do so by requesting the overall view of the fairway 101 to be displayed and by touching the screen at the chosen aiming point.
- the change in aiming direction is then accomplished by the system with simple coordinate transformation through an appropriate software routine.
- Each of the phototransistors SF0 to SF22 in the front row 39 corresponds to one bit in the three-byte word transferred, where a ONE indicates that the corresponding phototransistor is under the golf club's shadow. Because the PC boards 43 and 44 are identical, as mentioned earlier, data for the right hand swing is transferred with the phototransistor SF22 nearest the player; while data for a left hand swing is transferred with the phototransistor SF0 nearest the player.
- the bit number 23 in the three-byte word does not correspond to any phototransistor, but toggles between ZERO and ONE once every sampling. The toggle bit serves as an error checking bit in the programming to ensure that the information is being transferred correctly.
- DMA transfers continue every nine clock cycles until the ball is hit with the bytes stored in consecutive memory locations in a 60K DMA memory buffer, the pointer of which, once the buffer is full, is automatically reset to the top of the buffer. This "wrap-around" continues until the ball 26 is hit as indicated by the photosensor 47.
- a DMA buffer size of 60K bytes, it is possible to measure club swings as slow as approximately .5 miles per hour.
- the DMA buffer memory will contain several thousand successive frames or "snapshots" of the profile of the club's shadow as it passed over the front row 39.
- club parameters such as club velocity, horizontal approach angle, impact positions, face angle, and vertical approach angle. The computation of this parameters will now be discussed with particular reference to the flow chart shown in Figure 11.
- the club shadow is analyzed to give a snapshot of the leading edge of the club as it crosses the front row 39 in the form of an array giving the time of crossing for each sensor relative to the time of crossing of the first sensor crossed. From the leading edge array the position of the club as it crosses the front row 39 can be calculated as well as the club face angle.
- the horizontal approach angle Haa is computed as follows:
- the club face angle Cfa is computed as follows:
- the vertical approach angle Vaa is computed as follows:
- the eyeview calculation which yields the address of the picture to be retrieved from video disc player 54 is explained with particular reference to Figure 14.
- the calculation of the eyeview for a given location on the golf course is determined from three arrays.
- the first of these defines the areas on the course for which a particular eyeview will be displayed. It is a two dimensional array which defines a sequence of up to 12 contiguous intervals (i.e. rectangles such as 115 in Figure 10) for each screen row 105 to 108. It is of the form Xmin[Row,i] where 0 ⁇ Row ⁇ 191 and 1 ⁇ i ⁇ 12.
- the entries in this array are the left hand endpoints of the intervals.
- the second array defines the eyeview number for each of the areas defined by the Xmin array.
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- Length Measuring Devices By Optical Means (AREA)
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Abstract
Description
- The present invention relates to electronic and data processing apparatus for simulating a game of golf. More particularly, the apparatus senses golf club movement just before it hits a simulated golf ball in order to predict where on an actual image of a preselected hole terrain it would land with tolerable accuracy. More particularly still, the simulated golf ball, when hit, rotates around a substantially vertical axis, whereupon its speed of rotation may be sensed to aid in the prediction of where an actual ball would land. Furthermore, the present invention relates to a method of representing an actual preselected golf course by photographic or the like means for later display to the user of the apparatus. More particularly, the selected golf terrain is partitioned in segments, each segment is photographed, the photographs are digitized and stored on laser video disc for retrieval and display as a game is played.
- United States Patent 3,601,408 issued August 24, 1971 to Kenneth K. Wright discloses a Golf Swing Training Apparatus, wherein the time and position of a golf club head are sensed photoelectrically at selected stations during a practice swing. Corresponding characteristics of the swing and of the resulting ball flight are computed electronically and displayed to the player via a panel housing display lights, which indicate to the player one of ten flight designations ranging from "Bobble" to "Hard Hook". Two spaced rows of sensors are provided extending transversely of the swing direction of the club. Two signals are derived from the sensor outputs which represent the positions at which the remote edge of the club shadow crosses the respective rows. The sensors of each row may be placed as close together as required to produce the desired accuracy. The attitude of the club head at impact is determined by two sensors spaced along the club face in front of the simulated golf ball to permit evaluation of swing in terms of "square", "open" or "closed" attitude. The club attitude and swing direction are used for deriving an assessment of the flight characteristics of the ball. In addition to flight characteristics, the swing direction and club attitude are also indicated to the player. Finally, the rate of swing of the club between predetermined points is timed by a clock that operates at variable pulse rates. The clock rate is automatically selected in accordance with the computed flight characteristic computed for the same swing. The clock rates are selected such that the resulting digital output is an appropriate measure of the distance in yards.
- United States Patent 3,769,894 issued November 6, 1973 to Robert M. Konklin entitled Golf Game teaches the steps of building a model of a golf hole on a reduced scale, the model having a flat playing surface, and photographing the playing surface from differing points on the model. Scenes illustrating portions of the gold hole are displayed to the golfer on a screen on which a spot of light is projected on the displayed scene where computations predicted the ball's trajectory.
- United States Patent 4,343,469 issued August 10, 1982 to Yoshisuke Kunita et al discloses a Golf Game Practicing Apparatus capable of simulating the trajectory of a ball during putts. The trajectory of the ball toward the target are displayed on a screen. By means of a mapping transforming section, which alters the image data of the curved surface, the image of the terrain of the green displayed on the screen changes for each approach of the ball toward the target to depict an image closer to the target than that of the preceding putt. The input to the mapping transforming section is the new putt position and the curved surface data.
- United States Patent 4,429,880 issued February 7, 1984 to Richard M. Chen et al discloses a Golf Game Simulator Device which permits the golf player to view a specific golf course or portion thereof on a television monitor and is provided with additional information relating to the lie of ball and its position in relation to the hole. The golfer then hits the ball in the normal manner, which ball is fixedly retained on a joystick apparatus, whereby in striking the ball the joystick transmits signals to a computer which generates graphic data relative to a golf course and converts the signal input to graphic display information relative to the new position or lie of the ball in relation to the hole on the golf course. The golf ball is mounted so that when struck, first and second signals for each of four degrees of movement are transmitted to the computer and correlated with the golf course data input. The device in one embodiment utilizes a video disc whereby the course layout is pictorially viewed on a television monitor in addition to graphic information, and the computer determines the pictorial scene to be displayed depending upon the location of the golf ball after being struck by the golfer.
- The patent briefly describes an embodiment utilizing a video disc as follows:
"In FIG.4, there is shown a further embodiment of the system, which further embodiment is generally referred to as system 210. System 210 comprises a base 218, computer 213, cassette 280 and television 215, also similar in design and construction tounits video disc player 90 for playingdisc 91.Player 90 receives input from computer 213 and selectively display video information, such as a video image of an actual golf course 230 on screen 221.Disc 91 and cassette 280 are of course coordinated so that generated images are of the same subject matter. In addition, the specific tee location or lie of the ball will have a corresponding view or pre-recorded scene onvideo disc 91. With the computer determined repositioning of the ball after impact, the computer may first generate graphic information relative to the lie of the ball and then instruct the video player to freeze frame thedisc 91 to demonstrate the actual vantage point of the golfer as if the golfer were actually positioned on the course at that ball location. Pre-recorded images on thedisc 91 may be at various point locations on the golf course spaced on a grid layout of several meters apart.
In utilizing the video disc player, it is important that the computer in accessing the video disc player be able to locate, skip to or jump to a specific point on the video disc so as to display a scene representative of the specific lie of the ball. A disc skip system useful in this regard is that as disclosed in U.S. Pat. No. 3,993,863, granted Nov. 23, 1976 to Leedom, et al." - The present invention endeavors to provide a compact and realistically simulated golf game apparatus which also has the capability of providing to the user a reasonably accurate analysis of his/her swing.
- According to the present invention a golf game simulation apparatus of the kind in which the movement of a golf club head is detected by a plurality of sensors to generate a signal indicative of that movement is characterised in that there are: a first plurality of sensors arranged in a row on one side of and below a simulated or notional golf ball for sensing a golf club head above; and
means for sampling said first plurality of sensors simultaneously at very high frequency and storing the polled information whenever any one or more sensors has undergone a change of state from the previously polled state sampled representation of golf club head movement until said simulated ball is struck by said golf club head. - The preferred embodiment of the present invention will now be described in conjunction with the annexed drawings, in which:
- Figure 1 is a perspective view of a golf game simulation apparatus according to the present invention.
- Figure 2 is a plan view depecting the rest position of the simulated golf ball of the apparatus in Figure 1.
- Figure 3 is a plan view depicting the support mechanism of the simulated golf ball;
- Figure 4 is a side elevation of the ball and mechanism shown in Figures 2 and 3;
- Figure 5 is an overall block schematic of the electronic and data processing system of the apparatus shown in Figure 1;
- Figure 6 is a block schematic of the sensor interface module shown in Figure 5;
- Figure 7 is a block schematic of the multiplexer module shown in Figure 5;
- Figure 8 is a block schematic of back row photosensors interface circuits interfacing the photosensors shown in Figure 5 to the module of Figure 7;
- Figure 9 is a block schematic of front row photosensors interface circuits interfacing the photosensors shown in Figure 5 to the module of Figure 7;
- Figure 10 is a plan view of a golf hole fairway illustrating the partitioning of the fairway for purposes of photographing it for digitization and storage on a laser video disc;
- Figure 11 is a flow-chart explaining the software of club head movement analysis;
- Figure 12 is a flow-chart explaining the software of ball movement parameter computation;
- Figure 13 is a flow-chart explaining the software of ball trajectory computation;
- Figure 14 is a flow-chart explaining the software for determination of the player's eyeview frame number or address for retrieval and display;
- Figure 15 depicts a screen display showing the layout of a selected golf course for player selection of a hole to play; and
- Figure 16 depicts a typical screen display of an actual image of the putting green of a selected golf hole.
- Referring to Figures 1-4 of the drawings, the mechanical structure of the golf game apparatus will first be described. A
base 20 has an upper surface comprised of twoparts surface 22 is erected ahousing 23 with avideo monitor screen 24 visible at its top and framed by part of thehousing 23 which protrudes slightly forward in order to enable light from alamp 25 underneath thescreen 24 to shine downwardly throwing the shadow of objects interrupting it onto thesurface 22. From the bottom of thehousing 23 at its front protrudes asimulated golf ball 26 mounted on (or integral with) ashaft 27 approximately twelve inches long. Theshaft 27 is freely rotatable around a slightly forwardly inclinedvertical shaft 28, such that by gravity theball 26 always returns to its rest position protruding out ofbottom opening 29. In order to prevent theshaft 27 from being "stuck" in its quasi-stable position underneath the housing 23 (i.e. 180° away from its forward resting position) threebutton magnets magnet 30 is disposed adjacent acylinder 33 integral with and supporting theshaft 27, which is the extension of a taperedportion 34 at the bottom half of thecylinder 33. Embedded in thecylinder 33 at the same level as themagnet 30 is themagnet 31, which is poled to attract themagnet 30 and which is disposed diametrically opposite theshaft 27. This arrangement also provides additional precision in positioning theball 26 in its rest position. Also embedded in thecylinder 33 is themagnet 32 which is poled to repel themagnet 30 when theshaft 27 is rotated 180° from its forward resting position. Themagnet 32 is embedded in the cylinder above theshaft 27 at the same level as themagnet 30. - The upper part of the
cylinder 33, in addition to housing themagnets brake pad 35 is pressed by means oflever 36 which is actuated bysolenoid 37 in order to stop rotation of the cylinder (and the ball 26) around theshaft 28 once theball 26 has been hit by a golf club swinging player (not shown). A return spring ensures that thelever 36 returns to its quiescent position and so thebrake pad 35. - The
ball 26, theshaft 27 and thecylinder 33 are preferably machined from a single block of a durable synthetic material such as polythylene or the like. - Housed just under the
top surface 22 symmetrically on either side of theball 26 andshaft 27 are two parallel rows (parallel to the shaft 27) ofphototransistors phototransistors protective strips top surface 22. The tworows circuit boards phototransistors 45/46 and 47/48. Thephototransistors rows protective strip 49 in thetop surface 22. The function of the phototransistors will be described in conjunction with the electronic data processing circuit description below. - In addition to the two rows of
phototransistors front rows rows PC boards front row 39 and the other back row 5½ inches to the left of therow 40. - Turning now to Figure 5, the overall organization of the electronic and data processing system will be described. The system comprises a CPU 50 (which is commercially available as a 8088 (INTEL) motherboard such as that in IBM's XT PC) and its address, data and
control bus 51. Connected to thebus 51 are the following subsystems or modules: - a
video disc controller 52 and its associated graphics generator and overlay unit 53 (both are integrated in a commercially available unit "V:Link 1000" from VISAGE); the controller controls a video disc player (SONY) 54, the standard NTSC video output of which is delivered to avideo monitor display 55 having a touchresponsive screen 24 after having generated graphics (if any) overlayed thereon by thegraphic generator 53; - a CD ROM controller (SONY) 56, which controls CD ROM player (SONY) 57. A floppy disc drive or other random access memory device may replace these CD units;
- a 2 ×
8K byte EMPROM 58, which is necessary to contain the program for operating theCD ROM controller 56, and which stores the BIOS program of theCPU 50. - a microprocessor (8051) in the
sensor interface module 59, which responds to the data from thetouch screen 24 of thedisplay 55; and - a
multiplexer module 62 which multiplexes and preprocesses signals from: right and leftphotosensor PC boards weight sensor 62; andclub height sensor 64 if one is used. - The
video disc player 54 accepts laser discs having digitized photographs of selected golf courses as well as menu displays for interacting with the user of the game. Each laser disc has associated with it a CD ROM containing data (apart from pictures) specific to the golf course on the laser disc, such as distances, contour and topographical data of the hole fairways, in addition to the addresses of each photograph stored on the laser disc.
The CD ROM also stores the main game program shown at the flow chart level in Figures 11 to 14. - Figures 6 and 7 show the block diagrams of the
sensor interfacer module 59 and themultiplexer module 62, respectively. Thesensor interface module 59 comprises a microprocessor 65 (8051), which includes a 4K byte ROM, two programmable timers, a serial input/output buffer, and a parallel input/output buffer which interfaces with thebus 51 of theCPU 50. A decoder and buffer 66 decodes and buffers thebus 51, and enables asolenoid decoder 67 which activates either thebrake solenoid 37 or a second solenoid( not shown) to raise theshaft 28, thereby raising thesimulated ball 26 to a slightly higher position (¾ inch) above thetop surface 22, thus simulating a tee-off position to the player. A 2K bytenon-volatile RAM 68 retains vital statistics such as cummulative number of hits, total money intake, and so forth. A 16-bit programmable counter 69 (8254) is a hardware controlled timer which times the golf club movement and starts timing when the respective back row is crossed by the club shadow and stops when theball 26 is hit. - Since the game apparatus should be usable by right and left handed players, the two
PC boards ball 26 were necessary. In fact, thePC board 44 is identical in construction to the PC board 43 (for reasons of manufacturing economy), but when installed thePC board 44 is rotated 180° and the resultant interchange of photosensor positions is taken care of by the software and hardware. As a result of the right/left hand choice, it is necessary to multiplex the photosensor and other signals in themultiplexer module 62 shown in more detail in Figure 7. Thus the inputs to the multiplexer are duplicate inputs from the right and theleft PC boards MUX 70 accepts data bits DO(R) to D7(R) and D0(L) to D7(L) from the rightfront row 39 and theleft front 40, respectively. In fact, as will be seen below, thefront rows - Likewise,
MUX 71 accepts four bits AB0(R) to AB3(R) and AB0(L) to AB3(L), which are the result of preprocessing of twenty-one photosensors in the right and left back rows (one of which is shown as SB0 to SB20 in Figure 8), respectively. The outputs ofMUXs bus 51. -
MUX 72 multiplexes other right/left functions, such as ball hit (BH) signals. These functions will be explained in conjunction with the description of system operation. The output of theMUX 72 also controls ultrasonic sensor and timer in theclub height sensor 64, as well asball timer 73. - Also shown in Figure 7 is a
strain bridge 74 and A/D converter 75 in theweight sensor 63. Thestrain bridge 74 is under the right hand side of thetop surface 21 of the platform 20 (in Figure 1) and serves to fix a reference point related to the user's weight prior to commencement of play. The relative departure from that reference weight during club swing action by the player is used to display swing analysis information (i.e. percentage weight distribution between left and right feet as a swing is progressing) to the player following principles well known to those skilled in golf teaching and analysis. The A/D converter 75 converts the analog output of thestrain bridge 74 to computer readable data. - Turning now to Figures 8 and 9, which show circuits on either of the
identical PC boards row 76 comprising phototransistors, SB0 to SB20, while the latter shows the front row 39 (or 40, of course) comprising phototransistors SF0 to SF22. All phototransistors are manufactured by General Electric and sold under part number GE L14Cl. Due to the circuit used to obtain the necessary sensitivity, it has a high output impedance and it is necessary to buffer the phototransistors prior to any signal processing. - In the circuit for processing the signals from the phototransistors SB0 to SB20 four
CMOS buffers 77 to 80 and four associatedlatches 81 to 84 are utilized. The fourbuffers 77 to 80 also perform a simple multiplexing function, depending on whether theback row 76 is on the right hand side of theball 26 or on the left hand side thereof, i.e. whether the board is used asPC board 43 or asPC board 44. When detecting the swing of a club, only the sixteen phototransistors which are closest to the player are utilized. Thus, for example, thebuffer 77 selects either the phototransistors SB0 to SB3 (in the case of a right handed player) or SB17 to SB20 (in the case of a left handed player). The remaining buffers 78 to 80 are connected as shown in the drawings. The output of the selected sixteen phototransistors is latched by thelatches 81 to 84, the outputs of which is processed by apriority encoder 85 comprising two TTLpriority encoder chips 86 and 87 (74LS148) and three NORgates 88 to 90. - The output of the
priority encoder 85 is a four bit word encoding the phototransistor furthest from the player which has been crossed by the golf club shadow. - The four bits AB0 to AB3 are applied to the
back row MUX 71 for left/right selection. - In the circuit for processing signals from SF0 to SF22 again CMOS buffers 91 to 93 are utilized, the twenty-three signal bits plus one integrity "toggle bit" ( generated by toggle bit generator 94) are latched by means of tri-state latches 95 to 97, which are enabled in succession to yield a twenty-four bit word time multiplexed in three eight bit words D0 to D7, which eight parallel bits are applied to MUX 70 (Figure 7). The tri-state latches 95 to 97 are controlled by
controller 98, which enables them in succession. Thecontroller 98 processes BALL HIT, IOR (In/Out Read) and DACK (DMA Acknowledge) signals from theCPU 50 and outputs a DRQ (DMA Request) signal. Thecontroller 98 comprises a finite-state machine based on TTL shift registers 99 and 100, which generate properly timed control signals to successively enable thelatches - Figure 10 is an overview of a
golf hole fairway 101 having a tee 102, ahole 103 in a puttinggreen 104. In order to be able to simulate a game of golf on the apparatus of the present invention, thefairway 101 is partitioned into horizontal lines every fifty yards. Thus between the tee 102 and thehole 103 there are imaginaryhorizontal lines 105 to 108, each of which may be partitioned into rectangles reaching twenty-five yards on either side thereof centered around centers such as 109 and 110. The centers on each horizontal line are fifteen yards apart, so that every rectangle is fifty-by fifteen yards. Of course, there may be as many horizontal lines and as many centers per line as desired to obtain a requisite level of accuracy. The point is that during use of the apparatus if the hypothetical golf ball is computed to fall in one of the rectangles centered around a center, such as 109 or 110, the apparatus would display a photograph taken from the respective center in the direction of thehole 103. Therefore, in photographing thefairway 101, a photograph is taken from a center such as 109 looking at thehole 103. In addition, around thehole 103 the puttinggreen 104 and surroundings are partitioned into three concentric areas:
an outer circle 111 of fifty yards diameter, acircle 112 of 35 yards diameter, and asmaller circle 113 of 15 yards diameter. A photograph looking at thehole 103 is taken from points on the circles 111 to 113 at 45° intervals. In addition, a single photograph is taken from aposition 114 five yards away from thehole 103. Accordingly, there are twenty-five photographs around thehole 103, while in the example of Figure 10 thefairway 101 yields twenty-eight photographs, for a total of fifty four photographs including the one from above, typically, per golf hole. Rather than take actual photographs, thefairway 101 is video taped and the single video frames are each assigned an address. The full golf course, if so desired, is mastered on tape and then remastered on video disc. Video taping and mastering is available from CTI Communications of Saskatoon, Saskatchewan, Canada. Transfer on video disc is available from the 3M Company, U.S.A. The stored frames are later retrieved for display by means of their address on the video disc. A particular frame, say it was taken from thecenter 109, is retrieved for display as computations reveal that the hit by a golf club of thesimulated ball 26 would have landed a hypothetical ball within the confines ofrectangle 115 centered around thecenter 109. Had the hypothetical ball been computed to hit a tree 116, a further randomising computation would yield a random position of the lay of thehypothetical ball 117 in the vicinity of the tree 116. Likewise, should the lay of the hypothetical ball be computed to fall inwater trap 118, the apparatus would display the appropriate frame while the graphics andoverlay generator 53 would display asplash 119 in thewater trap 118. - System operation will now be described with reference to the preceding drawing figures and Figures 11 to 14 showing flow charts of system software.
- As use of the installed apparatus as shown in Figure 1 commences, the player is prompted by a screen message to stand on the right hand side of the
top surface 21 in order to obtain a reference reading of the players weight by means of thestrain bridge 74 located underneath. Changes in weight relative to the reference reading, which are registered by thestrain bridge 74 during swing action, are recorded and provide swing analysis information to the player later on if requested. - Once the weight calibration is completed, the player is prompted by a screen message to indicate a choice between right handed and left handed swing by touching the appropriate area on the
display screen 24. This will determine which of the two printedcircuit boards - From the video disc in the
player 54 the overall layout of the golf course, as shown for example in Figure 15, is retrieved and displayed to the player on thescreen 24 for selection of the hole the player wants to play. Once selection is completed by the player having touched the appropriate hole number on thescreen 24, a top view of the hole fairway, such as that shown in Figure 10 without the explanatory markings, is displayed to the player with the relevant information such as distance between the tee 102 and thehole 103. - The interaction between the player and the machine continues via screen prompting and messages to which the player reacts by making a choice. For example, since the player is using actual golf clubs to hit the
ball 26, an array of standard golf clubs is displayed to the player where a choice is indicated by touching the screen to select a club identical to the one that the player will actually use. - Let us now assume that a player has selected a hole and a club, and that the first eyeview picture from the tee 102 is displayed on the
screen 24. Once the player commences the swing and the club shadow passes theback row 76 phototransistors the priority encoded bits AB0 to AB3 from thepriority encoder 85 indicate to theCPU 50 the phototransistor in theback row 76 which is furthest away from the player. This is the only set of data that is provided from theback row 76, and it is latched but held only if theball 26 hit is indicated by theshaft 27 crossing thephototransistor 47 in thePC board 44. The BALL HIT signal starts theball timer 73, while the shadow crossing of theshaft 27 of SF4 for left-handed swings and SF18 for right-handed swings stops theball timer 73. Otherwise, if no ball hit is indicated, a false swing is indicated after approximately sixty-five mS, for example when the player is merely addressing the ball. - It should be noted at this point that when the player hits the ball the default aim point is the
hole 103. Should the player during play wish to change the default aiming direction of the system, for example because of a particular lay of the ball, the player may do so by requesting the overall view of thefairway 101 to be displayed and by touching the screen at the chosen aiming point. The change in aiming direction is then accomplished by the system with simple coordinate transformation through an appropriate software routine. - Among other things initiated by the shadow of the club crossing the
back row 76, is that continuous sampling of thefront row 39 phototransistors is commenced every nine clock cycles, i.e. every 7.54 uS, until theball 26 has been hit by the club. Every sampling of thefront row 39 produces twenty-four bits that are transferred in three-times-eight parallel bits via direct memory access of theCPU 50. Thus when the direct memory access controller chip (8237A-5) grants a DMA request, the front row interface circuit shown in Figure 9 transfers three bytes of information directly into the CPU's 50 random access memory. Each of the phototransistors SF0 to SF22 in thefront row 39 corresponds to one bit in the three-byte word transferred, where a ONE indicates that the corresponding phototransistor is under the golf club's shadow. Because thePC boards bit number 23 in the three-byte word does not correspond to any phototransistor, but toggles between ZERO and ONE once every sampling. The toggle bit serves as an error checking bit in the programming to ensure that the information is being transferred correctly. DMA transfers continue every nine clock cycles until the ball is hit with the bytes stored in consecutive memory locations in a 60K DMA memory buffer, the pointer of which, once the buffer is full, is automatically reset to the top of the buffer. This "wrap-around" continues until theball 26 is hit as indicated by thephotosensor 47. With a DMA buffer size of 60K bytes, it is possible to measure club swings as slow as approximately .5 miles per hour. Once the sampling of thefront row 39 is completed, the DMA buffer memory will contain several thousand successive frames or "snapshots" of the profile of the club's shadow as it passed over thefront row 39. It is now possible to compute club parameters, such as club velocity, horizontal approach angle, impact positions, face angle, and vertical approach angle. The computation of this parameters will now be discussed with particular reference to the flow chart shown in Figure 11. - The club shadow is analyzed to give a snapshot of the leading edge of the club as it crosses the
front row 39 in the form of an array giving the time of crossing for each sensor relative to the time of crossing of the first sensor crossed. From the leading edge array the position of the club as it crosses thefront row 39 can be calculated as well as the club face angle. -
- Tbb =
- time for club to travel from back row to ball
- Sbb =
- separation between backrow and ball
- VcMag =
- club speed = Sbb/Tbb
- Sbf =
- separation between back row and front row
- Fcp =
- club position at front row
- Bcp =
- club position at back row
- Ssens =
- photosensor separation ( = 0.5 inch)
-
- Tcc =
- time count at sensor closest to center of club
- Tcf =
- time count one sensor from center sensor farthest from player
- Tcn =
- time count one sensor from center sensor nearest to player
- Count =
- number of timer counts between front row sensor readings
-
- Shfta=
- tangent of the angle that the club shaft makes with the vertical
- Shda =
- tangent of the angle that the shadow makes with the front row (39)
- HL =
- height of light (25)
- Calculation of ball movement parameters is now explained with reference to Figures 12 and 13. The routine that calculates the ball movement parameters takes the club head analysis data and uses this data to calculate the ball velocity Vb and the ball spin vector Spin as follows:
- Vb =
- VcMag (NormFact.VcNorm + TanFact.VcTan)
- Spin =
- SpinMag.SpinDirn, where
- CfNorm =
- unit vector normal to face of club
- Cla =
- club loft angle
- α =
- Cfa + Vaa
- CfNormx=
- tan(Cfa) cos (α)
- CfNormy =
- (cos (α) + tan (Cfa) .sin (α) .Shfta)
- CfNormz =
- (sin(α) - tan (Cfa) .cos (α) .Shfta)
(CfNorm is now converted to a unit vector) - VcDirn =
- unit vector in direction of club velocity
- VcNorm =
- component of club velocity normal to club face
- VcTan =
- component of club velocity tangent to club face
- SpinDirn =
- unit vector in the direction of the spin vector
- SpinMag =
- magnitude of spin vector
- NormFact =
- factor translating normal component of club velocity based on impact dynamics
- TanFact =
- factor translating tangential component of club velocity based on impact dynamics
- SpinFact =
- factor translating club speed to spin magnitude
- VcDirnx =
- cos(Vaa). sin(Haa)
- VcDirny =
- cos(Vaa). cos(Haa)
- VcDirnz =
- sin(Vaa)
- VcNorm =
- innerprod (CfNorm, VcNirn). Cfnorm
- VcTan =
- VcDirn - VcNorm
- SpinDirn =
- vectorprod (VcDirn,CfNorm)
- SpinMag =
- SpinFact .Vcmag
- The eyeview calculation which yields the address of the picture to be retrieved from
video disc player 54 is explained with particular reference to Figure 14. The calculation of the eyeview for a given location on the golf course is determined from three arrays. The first of these defines the areas on the course for which a particular eyeview will be displayed. It is a two dimensional array which defines a sequence of up to 12 contiguous intervals (i.e. rectangles such as 115 in Figure 10) for eachscreen row 105 to 108. It is of the form Xmin[Row,i] where 0<Row<191 and 1<i<12. The entries in this array are the left hand endpoints of the intervals. The second array defines the eyeview number for each of the areas defined by the Xmin array. It is of the Form Eview=Mat[Row,i] and each element gives the eyeview number corresponding to the area containing the interval defined by Xmin. The third array is the eyeview table. It is of the Form Frame=Mat[Eview] where 1<Eview<MaxEview. The entries in this table are the actual frame numbers on the video disc corresponding to the eyeview number.
Claims (13)
- A golf game simulation apparatus of the kind in which the movement of a golf club head is detected by a plurality of sensors to generate a signal indicative of that movement characterised in that there are: a first plurality of sensors (39,40) arranged in a row on one side of and below a simulated or notional golf ball (26) for sensing a golf club head above; and
means for sampling said first plurality of sensors (39, 40) simultaneously at very high frequency and storing the polled information whenever any one or more sensors has undergone a change of state from the previously polled state sampled representation of golf club head movement until said simulated ball is struck by said golf club head. - The golf game simulation apparatus of claim 1, in which the simulated/notional golf ball is an actual golf ball.
- A golf game simulation apparatus as claimed in claim 1 having a simulated golf ball assembly, comprising a first shaft (27) supported at one end thereof to freely rotate around a predetermined axis (28) and having at its other end a golf ball-like member (26).
- A golf game simulation apparatus as claimed in claim 3, in which said simulated golf ball assembly comprising a substantially horizontal shaft (27) having a ball-like enlargement (26) at its free end.
- A golf game simulation apparatus as claimed in claim 4, in which the substantially horizontal shaft (27) supported at its other end by means of, and rotatable around, a substantially vertical shaft (28).
- A golf game simulation apparatus as claimed in claim 5, in which the substantially vertical shaft (28) is slightly inclined frontwards such that the simulated golf ball (26) comes to rest adjacent the first plurality of sensors (39,40).
- A golf game simulation apparatus as claimed in any of claims 3 to 6, the shaft (27) being freely rotatable in a substantially horizontal plane.
- A golf game simulation apparatus as claimed in claim 3, in which a substantially horizontal shaft (27) is supported at one end by means of a second substantially vertical shaft (28) slightly inclined with respect to the vertical such that the golf ball-like attachment(26) comes to rest always at a predetermined position by the action of gravity.
- A golf game simulation apparatus as claimed in claim 8 in which the substantially vertical shaft (28) is rotatable by means of a gear mechanism which changed the angle of inclination of the shaft (28) from true vertical (in a forward-backwards orientation), so that the height of the golf ball-like attachment (26) above the plane of the sensors is continuously variable over a range of several centimetres.
- A golf game simulation apparatus as claimed in claim 8 or 9 in which the golf ball-like attachment (26) is integral with the first shaft (27), and the first shaft (27) is rotatable around the second shaft (28) by having the second shaft inserted through a pivoting aperture (33) in the first shaft (27).
- A golf game simulation apparatus as claimed in claim 10, further comprising braking means (33,35,36) adapted to engage a cooperating surface of a portion of said first shaft (27) to brake its free rotation around the second shaft (28).
- A golf game simulation apparatus as claimed in any previous claim and which also includes: means for displaying a plurality of still pictures or motion video frames from a plurality of points disposed around a golf hole, golf green, and fairway; means for assignment a retrieval address to each of said pictures or still frames; and
means for storing said pictures or still frames each at its retrieval address in a random access storage medium. - Apparatus according to any previous claim, wherein said sensing means comprises an array of photosensors.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
AT87305767T ATE81024T1 (en) | 1987-02-06 | 1987-06-29 | GOLF GAME AND GOLF COURSE SIMULATOR AND RELATIVE SIMULATION METHOD. |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA000529161A CA1273705A (en) | 1987-02-06 | 1987-02-06 | Golf game and course simulating apparatus and method |
CA529161 | 1987-02-06 |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0278150A2 EP0278150A2 (en) | 1988-08-17 |
EP0278150A3 EP0278150A3 (en) | 1989-02-22 |
EP0278150B1 true EP0278150B1 (en) | 1992-09-30 |
Family
ID=4134920
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP87305767A Expired - Lifetime EP0278150B1 (en) | 1987-02-06 | 1987-06-29 | Golf game and course simulating apparatus and method |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP0278150B1 (en) |
JP (1) | JPS63194680A (en) |
AT (1) | ATE81024T1 (en) |
CA (1) | CA1273705A (en) |
DE (1) | DE3782039T2 (en) |
Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH02174871A (en) * | 1988-12-27 | 1990-07-06 | Sony Corp | Golf training machine |
US5062641A (en) * | 1989-09-28 | 1991-11-05 | Nannette Poillon | Projectile trajectory determination system |
US5269519A (en) * | 1990-08-15 | 1993-12-14 | David Malone | Game simulation interface apparatus and method |
GB2294403B (en) * | 1994-08-06 | 1998-10-14 | Alan Leather | Target golf |
US5697791A (en) * | 1994-11-29 | 1997-12-16 | Nashner; Lewis M. | Apparatus and method for assessment and biofeedback training of body coordination skills critical and ball-strike power and accuracy during athletic activitites |
US5638300A (en) * | 1994-12-05 | 1997-06-10 | Johnson; Lee E. | Golf swing analysis system |
US6050963A (en) * | 1998-06-18 | 2000-04-18 | Innovative Sports Training, Inc. | System for analyzing the motion of lifting an object |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3563553A (en) * | 1969-04-29 | 1971-02-16 | Brunswick Corp | Automatic indexing of indexible tee for automatic lie selection |
US3601408A (en) * | 1969-10-13 | 1971-08-24 | Kenneth K Wright | Golf swing training apparatus |
GB1514092A (en) * | 1976-01-22 | 1978-06-14 | Newton W | Golf practising device |
GB1595791A (en) * | 1977-11-10 | 1981-08-19 | Foster R V | Teaching device for ball games |
GB2150841B (en) * | 1981-09-30 | 1986-05-14 | Mitsubishi Electric Corp | Golf trainer |
GB8430650D0 (en) * | 1984-12-05 | 1985-01-16 | Tonner P | Computerized golf game |
-
1987
- 1987-02-06 CA CA000529161A patent/CA1273705A/en not_active Expired - Lifetime
- 1987-05-30 JP JP62133559A patent/JPS63194680A/en active Pending
- 1987-06-29 EP EP87305767A patent/EP0278150B1/en not_active Expired - Lifetime
- 1987-06-29 DE DE8787305767T patent/DE3782039T2/en not_active Expired - Fee Related
- 1987-06-29 AT AT87305767T patent/ATE81024T1/en not_active IP Right Cessation
Also Published As
Publication number | Publication date |
---|---|
ATE81024T1 (en) | 1992-10-15 |
EP0278150A2 (en) | 1988-08-17 |
JPS63194680A (en) | 1988-08-11 |
DE3782039T2 (en) | 1993-02-18 |
DE3782039D1 (en) | 1992-11-05 |
CA1273705A (en) | 1990-09-04 |
EP0278150A3 (en) | 1989-02-22 |
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